Document Broomfield_doc_af96dcfb93

CITY AND COUNTY OF BROOMFIELD Broomfield Standards and Specifications 2007 Edition ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE i TABLE OF CONTENTS SECTION 100 TITLE, SCOPE AND GENERAL CONDITIONS 110.00 TITLE 111.00 5 120.00 120.01 Federal and State Laws and the Broomfield Municipal 5 121.00 Alternate Materials and Methods of 5 122.00 6 123.00 6 124.00 Organization, Enforcement and Interpretation 6 124.01 Authorization 6 124.02 Stop Work 6 124.03 6 125.00 7 126.00 7 127.00 No Waiver of Legal 7 128.00 Contractor's 7 129.00 Use of Broomfield Rights-of-Way 7 129.01 Permission to Occupy 7 129.02 Insurance and 7 129.03 Performance Bond/Letter of Credit 8 129.04 Performance Warranty/Guarantee 9 130.00 SCOPE OF 131.00 Work 10 131.01 Working 10 131.02 Emergency Work 10 131.03 Final 11 132.00 Control of 11 132.01 Authority of the City Engineer 11 132.02 Authority and Duties of the Broomfield Representative/Inspector 11 132.03 Suspension of 12 132.04 Removal of Unauthorized and Unacceptable Work 12 132.05 Contractor’s Responsibility, Character of Workers and Equipment 12 132.06 Situation Variances 13 132.07 Broomfield Capital Improvement Projects 13 132.08 Requirements of Other 13 133.00 Control of 13 133.01 Samples and 13 133.02 Storage of 14 133.03 Defective 14 140.00 GENERAL CONDITIONS 141.00 Protection of Public, Private and Utility Interests 14 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE ii 141.01 Operation of Existing Utility System 14 141.02 Permits Required by Other 14 141.03 Public Convenience and Safety 14 141.04 Interruption of 15 141.05 Protection of Paved Surfaces 15 141.06 Protection of Streams, Lakes and Reservoirs 15 141.07 Protection of Public and Private 15 141.07.01 Existing Structures and Utilities to 16 141.07.02 Relocation, Removal and Replacement of Existing Structures and Utilities 16 141.07.03 Correcting 16 141.08 Protection and Restoration of Property and Survey 17 141.09 18 141.10 Survey Monuments 18 141.11 Dustproofing 18 141.12 Traffic Control, Barricades and Warning Signs 18 141.13 Use of Explosives 20 141.14 Storage of Explosives 21 142.00 Use of Broomfield 21 143.00 Pavement Cuts 21 143.01 Pavement Cut Repair 22 144.00 Cable Installation 23 144.01 23 144.02 Underground Installation 23 144.03 Overhead 23 150.00 PERMITS AND INSPECTIONS 151.00 Public/Private Improvement Permit (PPIP), Grading Permit, andOver-Excavation 23 151.01 Application for Permit 23 151.02 Permit 24 151.03 Permit 25 151.04 Permit Suspension or 25 152.00 Weekend, Holiday and After Hours Work 25 153.00 Permit 26 153.01 Plan Review 26 153.02 Investigation Fee Required for Performing Work Without a 27 154.00 Inspections 27 154.01 Additional Inspections and 28 160.00 PLANS AND SPECIFICATIONS 161.00 Construction Plan 29 161.01 Construction Plan Submittal 29 161.02 General 30 161.02.01 City Engineer Statement 31 161.02.02 Parks Maintenance Superintendent 31 161.02.03 Variance Statement 31 161.03 Plan 32 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE iii 161.04 Profile Details 32 161.05 Water Supply Construction Details 33 161.06 Sanitary Sewer Construction Details 33 161.07 Storm Drainage Construction 34 161.08 Street Construction Details 35 161.09 Area Grading Plan Details 36 161.10 Erosion Control Plan Details 36 161.11 Cut and Fill Plan 36 161.12 Easement Widths 37 161.13 Specifications and Support 37 161.14 Irrigation and Landscape Specifications and Support Documentation.............. 37 161.15 Irrigation Construction Details 38 161.16 Landscape Details 38 162.00 Engineering 38 162.01 Preliminary Reports 39 162.01.01 Preliminary Utility Report Requirements 39 162.01.02 Preliminary Drainage 39 162.01.03 Preliminary Traffic Analysis 40 162.01.04 Preliminary Geotechnical Report Requirements 40 162.02 Final Engineering Reports 41 162.02.01 Final Utility 42 162.02.02 Final Drainage 42 162.02.03 Final Traffic Analysis Report 45 162.02.04 Final Geotechnical Report 45 162.02.05 Earthen Cut/Fill Investigation 46 162.02.06 Construction Traffic Routing 48 170.00 DEFINITIONS AND ABBREVIATIONS 171.00 49 172.00 50 173.00 Terms 51 174.00 Specifications by 51 DETAIL DRAWINGS – SECTION 100 100-1 Easement Width for Deep Pipes SECTION 200 ACCEPTANCE PROCEDURES 201.00 GENERAL CONDITIONS 210.00 211.00 Construction Acceptance 53 211.01 Construction Acceptance 53 211.02 Record 54 211.03 Application for Construction 55 211.04 Memorandum of Construction Acceptance 56 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE iv 211.05 Duration of Warranty Period for Public Improvements and Facilities.............. 56 211.06 Warranty Performance 57 211.07 Construction Acceptance Maintenance Responsibility for Public Improvements and 57 212.00 Final Acceptance by City Council and Release From 58 212.01 Final Acceptance 58 212.02 Final Acceptance Work for Roadways 58 212.03 Final Acceptance by City 59 220.00 CONSTRUCTION AND FINAL ACCEPTANCE FOR CAPITAL IMPROVEMENT SECTION 300 SOILS AND EARTHWORK 301.00 GENERAL CONDITIONS 310.00 311.00 Inspections 63 320.00 DEMOLITION, REMOVAL AND ABANDONMENT 320.01 64 320.02 65 321.00 Bridges, Culverts and Other Drainage 65 322.00 Pipe and 65 323.00 Pavement and Concrete 66 330.00 SITE PREPARATION 331.00 66 332.00 Staking and Grade 67 333.00 Grading Requirements 67 333.01 Grading Permit and/or Over-Excavation 67 333.02 Grading Methods 68 333.03 Cut and Fill Requirements 68 333.04 Topsoil 69 340.00 340.01 70 340.02 Grading 71 340.03 Borrow 71 341.00 Embankment 72 341.01 Preparation of Embankment Subgrade 72 341.02 Embankment 73 341.02.01 Embankments Twelve (12) Feet or Less in 74 341.02.02 Embankments Greater Than Twelve (12) Feet in 75 342.00 75 342.01 Excavated Material 76 342.02 Excess Excavation 76 343.00 Structure 76 350.00 TRENCHING, BACKFILLING AND COMPACTING 350.01 Special Conditions 78 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE v 350.02 Removal of 78 351.00 Trench Excavation for 79 352.00 Trench Excavation for Pipelines and Service Lines 79 352.01 Preparation of Foundation for Pipe Laying 79 353.00 Bedding for Pipelines and Service 80 353.01 Bedding Compaction 81 354.00 Backfill for Pipelines and Service 81 354.01 Backfill 81 355.00 Compaction 82 360.00 ROADWAY EXCAVATION, BACKFILL AND COMPACTION 361.00 Subgrade 83 361.01 Over-Excavation for Expansive 84 361.02 Base Course (For Composite Sections) 85 361.02.01 Materials 85 361.02.02 86 361.03 Lime-Treated Subgrade 86 361.04 Proof-Roll Observation and 87 370.00 RESTORATION AND CLEAN UP SECTION 400 WATER SUPPLY FACILITIES 401.00 GENERAL CONDITIONS 401.01 Cross Connections 93 410.00 DESIGN CRITERIA 410.01 93 411.00 Design Flow 94 411.01 Potable Water Distribution 94 411.02 Non-Potable Water Distribution System 94 412.00 Operating Pressure 95 413.00 Fire Hydrant 95 414.00 Fire Lines 96 415.00 Distribution System 96 416.00 Valve Spacing and 96 417.00 Air Release and Vacuum Relief 96 418.00 Blow-off Valves and Drains 97 418.01 Blow-off 97 418.02 97 419.00 Pipe 97 419.01 Hydraulic Design 97 419.02 Location (Typical) 97 419.03 Horizontal and Vertical 98 419.04 Pipe 98 419.05 Relation to 98 420.00 GENERAL 421.00 98 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE vi 422.00 Permits 99 423.00 Maintenance of Traffic 99 430.00 POTABLE, RAW AND REUSE WATER MAIN CONSTRUCTION..............99 431.00 Site Work and 99 431.01 Trenching, Backfilling and 99 431.02 Preservation of 99 432.00 Materials 99 432.01 99 432.02 Pipe 100 432.03 Polyethylene Wrap for Ductile Iron Pipe and 101 432.04 Fittings 101 432.05 Gate 101 432.06 Butterfly 102 432.07 Pressure Reducing 102 432.08 Fire Hydrants 103 432.09 Valve 104 432.10 Air Release and Vacuum Relief 105 432.11 Irrigation Flow Control 105 432.12 Blow-off and Drain 105 432.13 106 432.14 106 432.15 Manhole Base Slabs and Base Beams 106 432.16 Sump Pits for Vaults and 106 432.17 Vent 106 432.18 Corrosion Protection 107 432.18.01 108 432.18.02 108 432.19 Tracer Wire and Warning Tape 108 432.20 Bedding 109 432.21 109 432.22 Plastic Liner Pipe 109 432.23 Steel Casings for 109 433.00 109 433.01 109 433.02 Alignment and 109 433.03 Protection of Existing Underground Utilities 110 433.04 Interruption of 110 433.05 Pipe Installation 110 433.06 Thrust Blocking, Restrained Joints and 110 433.07 Setting Valves and Fire Hydrants 111 433.08 Plastic Liner Pipe 111 433.09 Steel Casing and Carrier Pipe Installation 112 433.10 Cathodic Protection Test 112 433.11 Plugging of Dead Ends 112 433.12 Filling and Venting the 112 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE vii 433.13 Disinfection and Flushing of Water 112 433.14 113 433.15 Concrete 113 434.00 Inspections 113 440.00 WATER SERVICE LINE CONSTRUCTION 441.00 115 441.01 116 442.00 Equipment and Materials 116 442.01 Water Service 116 442.02 Water Service Saddles 116 442.03 Meters 116 442.04 (Left Blank Intentionally) 117 442.05 (Left Blank Intentionally) 117 442.06 Outside Meter 117 442.07 Inside Meter Setting and Remote 117 442.08 Meter Bypass 118 442.09 Meter Check 118 442.10 Valves for Use with Meters 118 442.11 Meter 118 442.12 Meter Yokes (Copper Setters) 118 442.13 (Left Blank Intentionally) 118 442.14 (Left Blank Intentionally) 118 442.15 Meter Pits and 119 442.16 Corporation Stops 119 442.17 Curb 119 442.18 Curb Stop Service Boxes 119 442.19 Brass Fitting 119 442.20 Backflow Preventers 120 443.00 Tapping the 120 450.00 PUMPING 451.00 120 452.00 Design 121 452.01 Pumps and Pump 121 452.02 Controls and Supervisory Control and Data Acquisition (SCADA) 121 452.03 Site Improvements 121 460.00 TRENCHING, BACKFILLING AND COMPACTING 470.00 HEALTH AND SAFETY 480.00 RESTORATION AND CLEANUP DETAIL DRAWINGS – SECTION 400 400-1 Air & Vacuum Relief Valve Vault 400-2 Temporary Blowoff 400-3 Transmission Main Drain 400-4 Fire Hydrants, Mains & Valves ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE viii 400-5 Tracer Wire 400-6 PRV in a Vault (Plan) 400-7 PRV in a Vault (Section) 400-8 Commercial Vent Pipe 400-9 Residential Vent Assembly 400-10 Polyethylene Wrap 400-11 Insulators 400-12 Anode Test Station 400-13 Domestic Service Line – Outside Meter – 1” 400-14 Meter Pit - 1½” & 2” 400-15 3” and Larger Meter Plans & Sections 400-16 3” and Larger Meter Vault Dimensions 400-17 Service Line – Commercial Outside Meter 400-18 Irrigation Service Line – Meter – ¾“ & 1” 400-19 Thrust Blocking 400-20 Length of Restrained Pipe 400-21 Waterline Trench Detail 400-22 Meter / Flow Control Pit 400-23 Service Line – Remote Meter Register 400-24 Water Meter Setting 400-25 Inside Meter Settings – 1½” & 2” 400-26 Remote Register Meter Installation 400-27 Future Connections at Intersections 400-28 Adjustable Pipe Support 400-29 Outside Setting for ¾” & 1” Meters 400-30 Water Valve Box – Surface Detail 400-31 Tracer Wire Box 400-32 Fire Hydrant Guards 400-33 Concrete Encasement Detail 400-34 Water Line Lowering – Depth >10’ 400-35 Water Line Lowering – Depth <10’ 400-36 Blow-off Warning Sign 400-37 Fire Line Taps for 4” & Below SECTION 500 SANITARY SEWER FACILITIES 501.00 GENERAL CONDITIONS 510.00 DESIGN CRITERIA 511.00 127 512.00 Design 127 513.00 Hydraulic Design 128 514.00 Design 128 514.01 Sewer 128 514.02 129 514.03 Service 130 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE ix 515.00 Location 130 516.00 Relation to 130 517.00 Underdrain Pipe 131 518.00 Grease, Oil and Grit Interceptor Design and Installation 131 518.01 Grease Interceptors 131 518.02 In-Floor and Under Sink Grease Traps – Requires Special 134 518.03 Oil Separators and Sand/Grit Interceptors 135 520.00 GENERAL 521.00 136 522.00 Permits 136 523.00 Maintenance of Traffic 136 530.00 SANITARY SEWER MAIN 531.00 Site Work and 136 531.01 136 531.02 Trenching, Backfilling and 136 531.03 Preservation of 136 532.00 Materials 137 532.01 Sewer Pipe 137 532.02 Underdrain Pipe 137 532.03 137 532.04 137 532.05 Manhole Bases and Base 138 532.06 138 532.07 Cast and Ductile Iron 139 532.08 Bedding 139 532.09 In-Place Rehabilitation of Existing Pipelines 139 532.10 Steel Casings for 139 533.00 140 533.01 140 533.02 Alignment and 140 533.03 Protection of Existing Underground Utilities 140 533.04 Underdrain Pipe 140 533.05 Sewer Pipe Installation 140 533.06 (Left Blank Intentionally) 141 533.07 Connections to Existing Manholes 141 533.08 Construction of Manholes and 141 533.09 In-Place Rehabilitation of Existing Pipelines 142 533.10 Steel Casing and Carrier Pipe Installation 142 533.11 Wyes for Service 142 534.00 Testing and Inspection 143 534.01 Air Testing 144 534.02 Vacuum Testing Manholes 145 534.03 Deflection Testing 146 534.04 Infiltration and Exfiltration 146 535.00 Connection to Broomfield’s Sewer 146 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE x 540.00 SANITARY SEWER SERVICE LINE 541.00 Trenching, Backfilling and 146 542.00 Materials 146 542.01 Polyvinyl Chloride 146 543.00 147 543.01 147 543.02 Location and Alignment of 147 543.03 Crossing Sidewalk or Curb (Existing or 147 543.04 Service Stub-ins to Property 147 543.05 Tapping the 148 543.06 Pipe Installation 148 543.07 Industrial 148 543.08 Other Requirements 148 550.00 FLOW METERING AND SAMPLING STATION CONSTRUCTION.........149 551.00 149 552.00 Equipment 149 553.00 Sampling Station 149 554.00 Grating 149 555.00 Weir Plates and 149 556.00 Station 150 557.00 Operation of Existing Facilities 150 558.00 Drawings and 150 560.00 SEWAGE LIFT 561.00 150 562.00 Design 151 562.01 Odor and Corrosion Control 151 562.02 Wet Well Construction 151 562.03 Pumps and Pump 151 562.04 Controls and Supervisory Control and Data Acquisition (SCADA) 152 562.05 Site Security and 152 570.00 RESTORATION AND CLEANUP DETAIL DRAWINGS – SECTION 500 500-1 Standard Manhole Plan 500-2 Standard Manhole Section 500-3 Shallow Manhole 500-4 Typical MH Base Channelization 500-5 Typical MH Base Channelization 500-6 MH/Pipe Water Stop Gasket 500-7 Manhole with Underdrain Cleanout 500-8 Drop Sewer Manhole 500-9 Outside Drop Manhole 500-10 Manhole Ring and Cover 500-11 Trench Detail ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE xi 500-12 Underdrain Service Connection 500-13 Sanitary Sewer Tapping 500-14 Sewer Service Connection 500-15 Service Maintenance Line 500-16 Ditch Crossing 500-17 Clay Cut-off Wall 500-18 Concrete Cut-off Wall 500-19 Grease Interceptor 800 to 1250 gallons 500-20 Grease Interceptor 1250 to 3445 gallons 500-21 Flow Metering and Sampling Station 500-22 Abandonment of Sanitary Sewer Line Stub-out or Service 500-23 Steel Casing & Carrier Pipe Detail SECTION 600 STORM DRAINAGE FACILITIES 601.00 GENERAL CONDITIONS 610.00 STORM DRAINAGE DESIGN AND TECHNICAL 611.00 Design Methods 158 611.01 Minor and Major Design Storms 158 611.02 Storm Return 158 611.03 Rainfall Intensities 159 611.04 Runoff Computations, Colorado Urban Hydrograph Procedure 159 611.05 Runoff Computations, Rational 159 611.06 Runoff 159 612.00 160 612.01 160 612.02 Equation 161 612.03 Sequential 161 613.00 Design Standards 161 613.01 Open 161 613.02 Storm Sewers and Storm 163 613.03 165 613.04 Street Flow Capacities 166 620.00 GENERAL 621.00 168 622.00 Approved 168 623.00 Permits 168 624.00 Traffic Control 168 630.00 EROSION 631.00 169 632.00 Requirements 169 633.00 169 634.00 Erosion Control 169 635.00 Erosion Control 170 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE xii 640.00 STORM DRAINAGE 641.00 Site Work and 170 641.01 170 641.02 Trenching, Backfilling and 170 642.00 Materials 170 642.01 Pipe 170 642.02 Pipe 171 642.03 Manholes, Inlets and Sidewalk 171 642.04 Manhole Base Slabs & Base Beams 172 642.05 172 642.06 Cast and Ductile Iron 172 642.07 Bedding Material 172 642.08 Riprap and Filter Cloth 172 643.00 174 643.01 Alignment and 174 643.02 Protection of Existing Underground Utilities 174 643.03 Wet 174 643.04 (Left Blank Intentionally) 174 643.05 Storm Sewer Pipe 174 643.06 Connections to Existing Manholes 174 643.07 Construction of Manholes, Inlets and Sidewalk 174 643.08 Construction of Open Channels and Special Structures 175 643.09 Riprap and Filter Cloth 175 643.10 176 643.10.01 Pipe – Water Tightness 176 643.10.02 Pipe – 176 643.10.03 176 643.10.04 Infiltration and 176 644.00 Inspections 176 650.00 TRENCHING, BACKFILLING AND COMPACTING 660.00 RESTORATION AND CLEANUP 670.00 GRADING AND DETAIL DRAWINGS – SECTION 600 600-1 Erosion Control Plan Symbols 600-2 Straw Bale Barrier 600-3 Silt Fence Barrier 600-4 Curb Inlet Gravel Filter 600-5 Construction Staging Pad 600-6 Erosion Control Barriers – Residential 600-7 Roof Drain to Street 600-8 Storm Sewer Outlet 600-9 Storm Inlet Plan 600-10 Storm Inlet Section ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE xiii 600-11 Storm Inlet Section 600-12 Storm Inlet in Median 600-13 Storm Inlet Details 600-14 Trench Drain Detail 600-15 Time-Intensity-Frequency Curves 600-16 CUHP Design Storm 600-17 Underdrain Detail SECTION 700 ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING 701.00 GENERAL CONDITIONS 710.00 710.01 Roadway Inspections 186 720.00 ROADWAY 721.00 Street Design 187 721.01 Horizontal Alignment 189 721.02 Vertical 189 721.03 Major 190 721.04 Design Element 190 722.00 Alleys 190 723.00 Emergency 190 724.00 Half 190 725.00 191 726.00 Parking Lots and Private Street Systems 191 727.00 Intersections 191 728.00 Street Lane Design 192 728.01 Acceleration and Deceleration Lanes 192 728.02 Required Turning Lane 192 728.03 Redirect Tapers for Through Lanes 192 728.04 Entering Sight Distance 193 729.00 Structural Sections 193 729.01 Structural Sections for 193 729.02 Structural Sections for Parking 195 729.03 Structural Sections for Reconstruction of Existing Low Volume Roadways.. 195 729.03.01 Site Exploration 195 729.03.02 Pavement Reconstruction Design and 196 729.04 Edge 197 730.00 SIGNAGE AND PAVEMENT 731.00 198 731.01 Street Name 198 731.02 Illuminated Signs 199 731.03 Stop Signs 200 731.04 Other 201 731.05 ‘No Parking’ 201 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE xiv 731.06 Sign 201 731.07 Sign Installation 201 732.00 Sign Posts and Support 201 733.00 Pavement Markings 202 733.01 202 733.02 Typical Pavement Markings 202 733.03 Typical Crosswalks and Stop Bars on Connector and Local 202 733.04 Crosswalks and Stop Bars at Signalized Intersections or Mid-Crossings on Major and Minor 203 733.05 Surface 203 733.06 Prior to Placement of Pavement Marking 203 733.07 Placement of Pavement Markings 204 740.00 TRAFFIC 741.00 Control of 204 741.01 Regulations and Code 204 741.02 205 741.03 Traffic Control 206 741.04 Equipment List and Drawings 206 741.05 Coordination with Other Agencies and 206 741.06 Signal Pole and Signal Head 206 742.00 207 742.01 207 742.02 Materials 207 742.03 208 743.00 Cable and 209 743.01 209 743.02 Multiconductor Cable 209 743.03 Wiring Installation 209 743.04 Connections to Signal Heads, Pushbutton Switches, and Traffic Controllers. 210 743.05 Wire Splicing Locations 210 743.06 Wire Bonding and 210 744.00 Electric Service 210 745.00 Concrete Foundations 211 745.01 211 745.02 Poles, Standards and Pedestal Foundations 211 746.00 Traffic Signal Controllers 211 746.01 Signal Phasing and Tape Colors 211 746.02 Controller 212 746.03 Cabinet 212 746.04 Signal Cabinet 214 746.05 Signal Cabinet 214 746.06 Cycle 214 746.07 Spread Spectrum Wireless Interconnect System 214 746.08 Uninterruptible Power 215 746.09 Video Detection System 220 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE xv 747.00 Light Emitting Diode (LED) Lights 223 747.01 Wattage 223 747.02 223 747.03 Circuit 223 747.04 223 747.05 Operating 223 747.06 223 747.07 Candlepower 224 747.08 Beam Spread 224 747.09 Manufacturer’s 224 748.00 Speed Monitor Display (Speed Awareness 224 748.01 224 748.02 224 748.03 Violator 224 748.04 Radar 225 749.00 Traffic Signal Start-Up 225 750.00 STREET 751.00 Street Lighting Procedure 225 DETAIL DRAWINGS – SECTION 700 700-1 Roadway Edge Drain 700-2 Sheridan Parkway 700-3a Major Arterial (4 Lane) 700-3b Major Arterial (6 Lane) 700-4 Minor Arterial – 2 Lane 700-5 Connector Street – 2 Lane 700-6 Local Street 700-7 Rural Road Section 700-8 Sight Distance 700-9 Intersection R.O.W. 700-10 90 Degree Turn – Local Access Streets 700-11 Cul-de-Sacs 700-12 Drive Cut Location & Spacing 700-13 Street Lights 700-14A Traffic Signal Pre-Acceptance Inspection Checklist 700-14B Traffic Signal Pre-Acceptance Inspection Checklist 700-14C Traffic Signal Pre-Acceptance Inspection Checklist 700-14D Traffic Signal Pre-Acceptance Inspection Checklist SECTION 800 CONCRETE MIX DESIGN AND CONSTRUCTION 801.00 GENERAL CONDITIONS 810.00 811.00 Inspections 228 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE xvi 820.00 CONCRETE MIX 821.00 Materials 229 821.01 229 821.02 Fly 229 821.03 230 821.04 230 821.05 Fine 230 821.06 Coarse 230 821.07 Fibrous Reinforcing 231 822.00 Mix 231 822.01 Colored Patterned 231 822.02 Controlled Low Strength Materials 232 823.00 Ready-Mixed 233 824.00 Steel Reinforcing and Forms 233 824.01 Steel Reinforcing 233 824.02 Forms and Form 234 825.00 Concrete 235 826.00 Tests Provided by the 236 830.00 CONCRETE CONSTRUCTION 831.00 Placing 237 831.01 Vibrating 238 831.02 Workability 238 831.03 Installation of Colored Patterned 239 831.04 Weather 239 831.04.01 Cold Weather Concreting 239 831.04.02 Hot Weather Concreting 241 832.00 Concrete Pavement and 241 832.01 Portland Cement Treated 241 832.02 Curb and 241 832.03 241 832.04 Crosspans and Curb Return Fillets 242 832.05 Curb Cuts and 242 832.06 Curb Ramps 242 832.07 Joints 242 832.07.01 Expansion Joints 243 832.07.02 Contraction Joints 243 832.07.03 Tooled 244 832.08 Ponding 244 833.00 Appurtenant Concrete 244 833.01 Forms 244 833.02 Concrete Placement 244 833.03 Expansion Joints 244 833.04 Curing 244 834.00 Cleanup 244 835.00 Backfill of Concrete 245 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE xvii 836.00 Protection Against Vandalism 245 837.00 Repairs 245 837.01 Flatwork Repairs and Replacement 245 837.02 Concrete Structure Repairs 245 838.00 Finishing, Curing and 246 838.01 Finishing 246 838.02 Curing and Protection 246 DETAIL DRAWINGS – SECTION 800 800-1 Median & Vertical Curb Sections 800-2 Mountable Curb & Gutter 800-3 Mountable Curb & Gutter with Attached Walk 800-4 Monolithic Integral Curbwalk 800-5 Crosspan and Curb Return Fillets 800-6 Vertical Curb & Gutter with Attached Walk 800-7 Mountable Curb, Gutter & Sidewalk 800-8 Curb Ramp 800-8a Mid Block Curb Ramp 800-8b Intersection Retrofit Curb Ramp 800-8c Directional Curb Ramp 800-9 Drive Cut 800-10 Curb and Gutter Joint Details 800-11 Sidewalk Chase 800-12 Sidewalk Chase Detail 800-13 Sidewalk Chase Detail SECTION 900 HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION 901.00 GENERAL CONDITIONS 910.00 920.00 ASPHALT PAVEMENT MIX 921.00 Asphalt Mix Design 250 922.00 Asphalt Sampling and 253 930.00 ASPHALT PAVEMENT 931.00 Roadway Inspections 253 932.00 Delivered Mix 254 933.00 Weather 254 934.00 Construction of Pavement Sections 255 934.01 Base Course Composite 255 934.02 Lime Stabilized Composite Sections 256 934.03 Full Depth Asphalt Sections 256 934.04 256 934.05 Prime Coat 256 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE xviii 934.06 Asphalt 256 934.07 Tack 257 934.08 Seal 257 934.09 Rejuvenating Agent 257 935.00 Trench Cuts and Exploratory Pothole/Core Repair 257 935.01 Trench 257 935.02 Exploratory Pothole/Core 257 936.00 Heating and Scarifying 258 937.00 Pavement Deflection 258 938.00 259 939.00 Acceptance of Public 259 DETAIL DRAWINGS – SECTION 900 900-1 Composite Pavement Section 900-2 Final Overlay 900-3 Utility Trench Patch 900-4 Pavement Replacement SECTION 1000 PARKS AND RECREATION 1001.00 GENERAL CONDITIONS 1010.00 SITE DESIGN AND 1020.00 TOPSOIL PREPARATION 1021.00 265 1022.00 Materials 266 1022.01 Organic 266 1022.02 Starter Fertilizer 266 1023.00 Process 266 1024.00 Inspections 267 1024.01 Materials 267 1024.02 Soil Preparation 267 1024.03 Tree, Shrub and Perennial 267 1030.00 SEEDING SPECIFICATIONS 1031.00 267 1032.00 Materials 268 1032.01 Topsoil 268 1032.02 Starter Fertilizer 268 1032.03 Bluegrass 268 1032.04 Native Seed 268 1032.05 Top 268 1033.00 Seeding Process 269 1033.01 Bluegrass 269 1033.02 Native 269 1034.00 Intentionally Left 269 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE xix 1035.00 Maintenance Procedures for 269 1035.01 270 1035.02 Additional 270 1035.03 270 1036.00 Inspections 270 1036.01 Inspection of Seed 270 1036.02 Germination 270 1040.00 SODDING SPECIFICATIONS 1041.00 271 1042.00 Materials 271 1042.01 Topsoil 271 1042.02 Starter Fertilizer 271 1042.03 Sod 271 1043.00 Sodding 271 1043.01 Care and Handling 271 1043.02 Transporting Sod On-Site 272 1043.03 Sodding 272 1044.00 272 1045.00 272 1045.01 272 1045.02 Additional 273 1045.03 273 1046.00 Inspections 273 1050.00 LANDSCAPE IRRIGATION SYSTEMS 1051.00 273 1051.01 Turn-over Items 273 1052.00 Materials 274 1052.01 Water License and Tap 274 1052.02 Water 274 1052.03 Water Service Line 274 1052.04 Meter 274 1052.05 Water Meter 274 1052.06 Electrical Service 275 1052.07 Backflow 275 1052.08 Booster 276 1052.09 Pump 276 1052.10 276 1052.11 Master Valves & Zone 276 1052.12 Irrigation Heads 277 1052.13 Field 278 1052.14 Pipe 278 1052.15 Quick Coupler 279 1052.16 Manual Drain Valves 279 1052.17 Isolation Valves 280 1052.18 Pressure Reducing 280 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE xx 1052.19 280 1052.20 Materials for Use With Reclaimed 280 1053.00 Site 280 1054.00 281 1055.00 Process 281 1055.01 Staking 281 1055.02 Pump 281 1055.03 Pipe Assembly 281 1055.04 282 1055.05 Control Valves 282 1055.06 282 1055.07 Turn-On and 283 1056.00 Inspections 283 1056.01 Trailer 283 1056.02 Sprinkler Location Staking 283 1056.03 Main Line 283 1056.04 Pressure Test 283 1056.05 Wiring 284 1056.06 Coverage Test 284 1057.00 Turn-On and 284 1058.00 Acceptance and 284 1060.00 PLANTING SPECIFICATIONS 1061.00 284 1062.00 Materials 284 1062.01 Mulch and 284 1062.02 Staking and 284 1062.03 Ornamentals, Perennials, Shrubs and 285 1062.04 Weed Barrier 287 1062.05 Backfill 287 1063.00 287 1063.01 Street Right-of-Way 288 1063.02 Mow Strip 291 1063.03 Ditch 292 1063.04 Annual Flower Beds 292 1064.00 Planting 292 1064.01 Location 292 1064.02 Seasons of 292 1064.03 Planting Procedures 292 1064.04 293 1064.05 Tree Wrapping 293 1064.06 Staking and 293 1064.07 293 1064.08 294 1064.09 Shrub Beds and Mulched 294 1064.10 294 ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE xxi 1064.11 Transportation of Plant Materials 294 1065.00 294 1066.00 Inspections 294 1066.01 Plant Location 295 1066.02 Quantity and Quality of Plant 295 1066.03 Planting 295 1070.00 RECREATION 1071.00 295 1072.00 Ballfield 295 1072.01 Softball Infield 295 1072.02 Baseball Infield 295 1072.03 Field 296 1072.04 Field 296 1072.05 296 1072.06 Dugout Covers 297 1073.00 Playground 297 1073.01 Proposal Submittals 297 1073.02 Safety and ADA 297 1073.03 Protective Ground Space 298 1073.04 Component 298 1073.05 Materials 298 1073.06 Installation and 298 1080.00 WALKWAYS, MAINTENANCE PATHS AND SOFT 1081.00 Walkways and Maintenance 299 1082.00 Soft 299 1082.01 Soft Trail 299 1082.02 Trails With Slope Less Than 5:1 299 1082.03 Trails With Slope Equal To Or Greater Than 5:1 (Horizontal:Vertical)......... 299 1082.04 Cross Slope 300 1082.05 Soft Trail Aggregate 300 1083.00 Underpass 300 1084.00 Site Furnishings 300 1090.00 TREES, SHRUBS, ORNAMENTAL GRASSES AND PERENNIALS..........301 1091.00 Evergreen 301 1092.00 Deciduous Shrubs 302 1092.01 Shrub Roses 304 1093.00 Ornamental Grasses 304 1094.00 Deciduous 305 1095.00 Conifer Trees 306 1096.00 307 DETAIL DRAWINGS – SECTION 1000 1000-1 Point of Connection Assembly for ¾” & 1” Only 1000-2 Backflow Assembly with Master Valve, Flow Sensor & Enclosure ---PAGE BREAK--- STANDARDS AND SPECIFICATIONS TABLE OF CONTENTS STANDARDS AND SPECIFICATIONS 2007 Edition PAGE xxii 1000-3 Backflow Assembly with Flow Sensing Capabilities, 825-Y Series & Enclosure 1000-4 Underground Pump By-Pass System 1000-5 Typical Pump System By-Pass in Pump House 1000-6 Field Controller-Factory Pedestal 1000-7 Electric Control Valve 1000-8 Electric Control Valve For Bubbler Zone 1000-9 Drip Valve Assembly 1000-10 Pop-Up Spray Head 1000-11 Gear Driven Rotor 1000-12 Typical 8x8 Grid (Annual Areas Only) 1000-13 Tree Bubbler Assembly 1000-14 Flow Sensor 1000-15 Trench Depth 1000-16 Quick Coupling Valve 1000-17 Manual Drain Valve 1000-18 Gate Valve Smaller Than 3 inch 1000-19 Gate Valve 3 inch and Larger 1000-20 Reclaimed Water Point of Connection 1000-21 Non-Stabilized Soft Trail 1000-22 Special Section Areas 1000-23 Planting Specifications for Conifer Tree 1000-24 Planting Specifications for Deciduous Tree ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-1 SECTION 100 TITLE, SCOPE AND GENERAL CONDITIONS 110.00 TITLE 111.00 5 120.00 120.01 Federal and State Laws and the Broomfield Municipal 5 121.00 Alternate Materials and Methods of 5 122.00 6 123.00 6 124.00 Organization, Enforcement and Interpretation 6 124.01 Authorization 6 124.02 Stop Work 6 124.03 6 125.00 7 126.00 7 127.00 No Waiver of Legal 7 128.00 Contractor's 7 129.00 Use of Broomfield Rights-of-Way 7 129.01 Permission to Occupy 7 129.02 Insurance and 7 129.03 Performance Bond/Letter of Credit 8 129.04 Performance Warranty/Guarantee 9 130.00 SCOPE OF 131.00 Work 10 131.01 Working 10 131.02 Emergency Work 10 131.03 Final 11 132.00 Control of 11 132.01 Authority of the City Engineer 11 132.02 Authority and Duties of the Broomfield Representative/Inspector 11 132.03 Suspension of 12 132.04 Removal of Unauthorized and Unacceptable Work 12 132.05 Contractor’s Responsibility, Character of Workers and Equipment 12 132.06 Situation Variances 13 132.07 Broomfield Capital Improvement Projects 13 ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-2 132.08 Requirements of Other 13 133.00 Control of 13 133.01 Samples and 13 133.02 Storage of 14 133.03 Defective 14 140.00 GENERAL CONDITIONS 141.00 Protection of Public, Private and Utility Interests 14 141.01 Operation of Existing Utility System 14 141.02 Permits Required by Other 14 141.03 Public Convenience and Safety 14 141.04 Interruption of 15 141.05 Protection of Paved Surfaces 15 141.06 Protection of Streams, Lakes and Reservoirs 15 141.07 Protection of Public and Private 15 141.07.01 Existing Structures and Utilities to 16 141.07.02 Relocation, Removal and Replacement of Existing Structures and Utilities 16 141.07.03 Correcting 16 141.08 Protection and Restoration of Property and Survey 17 141.09 18 141.10 Survey Monuments 18 141.11 Dustproofing 18 141.12 Traffic Control, Barricades and Warning Signs 18 141.13 Use of Explosives 20 141.14 Storage of Explosives 21 142.00 Use of Broomfield 21 143.00 Pavement Cuts 21 143.01 Pavement Cut Repair 22 144.00 Cable Installation 23 144.01 23 140.02 Underground Installation 23 144.03 Overhead 23 150.00 PERMITS AND INSPECTIONS 151.00 Public/Private Improvement Permit (PPIP), Grading Permit, and 23 Over-Excavation 23 151.01 Application for Permit 23 151.02 Permit 24 151.03 Permit 25 151.04 Permit Suspension or 25 152.00 Weekend, Holiday and After Hours Work 25 ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-3 153.00 Permit 26 153.01 Plan Review 26 153.03 Investigation Fee Required for Performing Work Without a 27 154.00 Inspections 27 154.01 Additional Inspections and 28 160.00 PLANS AND SPECIFICATIONS 161.00 Construction Plan 29 161.01 Construction Plan Submittal 29 161.02 General 30 161.02.01 City Engineer Statement 31 161.02.02 Parks Maintenance Superintendent 31 161.02.03 Variance Statement 31 161.03 Plan 32 161.04 Profile Details 32 161.05 Water Supply Construction Details 33 161.06 Sanitary Sewer Construction Details 33 161.07 Storm Drainage Construction 34 161.08 Street Construction Details 35 161.09 Area Grading Plan Details 36 161.10 Erosion Control Plan Details 36 161.11 Cut and Fill Plan 36 161.12 Easement Widths 37 161.13 Specifications and Support 37 161.14 Irrigation and Landscape Specifications and Support Documentation.............. 37 161.15 Irrigation Construction Details 38 161.16 Landscape Details 38 162.00 Engineering 38 162.01 Preliminary Reports 39 162.01.01 Preliminary Utility Report Requirements 39 162.01.02 Preliminary Drainage 39 162.01.03 Preliminary Traffic Analysis 40 162.01.04 Preliminary Geotechnical Report Requirements 40 162.02 Final Engineering Reports 41 162.02.01 Final Utility 42 162.02.02 Final Drainage 42 162.02.03 Final Traffic Analysis Report 45 162.02.04 Final Geotechnical Report 45 162.02.05 Earthen Cut/Fill Investigation 46 162.02.06 Construction Traffic Routing 48 170.00 DEFINITIONS AND ABBREVIATIONS 171.00 49 ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-4 172.00 50 173.00 Terms 51 174.00 Specifications by 51 DETAIL DRAWINGS – SECTION 100 100-1 Easement Width for Deep Pipes ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-5 SECTION 100 TITLE, SCOPE AND GENERAL CONDITIONS 110.00 TITLE These regulations shall be known as the Broomfield Standards and Specifications, 2007 Edition, and may be cited as such. They shall be referenced to herein as the STANDARDS AND SPECIFICATIONS. 111.00 Purpose The purpose of these STANDARDS AND SPECIFICATIONS is to provide acceptable standards of design, construction, quality of materials, use, location, and maintenance of public and private infrastructure and common facilities including, but not limited to, water supply systems, sanitary sewer systems, storm drainage systems, roadways, landscaping, irrigation, open space, parking lots and appurtenances. 120.00 SCOPE The provisions of these STANDARDS AND SPECIFICATIONS shall apply to the construction, enlargement, alteration, moving, removal, conversion, demolition, repair, and excavation of public and private improvements or common facilities specifically regulated herein except where an approved Planned Urban Development Plan or Site Development Plan specifically states otherwise. The provisions of these STANDARDS AND SPECIFICATIONS apply to Broomfield contracts, Developer contracts and private contracts. Alterations, additions, or repairs to existing improvements shall comply with all requirements of these STANDARDS AND SPECIFICATIONS unless specifically exempted by the City and County Engineer (City Engineer). 120.01 Federal and State Laws and the Broomfield Municipal Code The Contractor shall comply with all current federal and state laws and the Broomfield Municipal Code (BMC). The Contractor shall obtain all necessary permits as required by these STANDARDS AND SPECIFICATIONS prior to commencement of the work. The Contractor shall notify the City Engineer twenty-four (24) hours before the start of the work or when work shall be resumed following a delay. 121.00 Alternate Materials and Methods of Construction The provisions of these STANDARDS AND SPECIFICATIONS are not intended to prevent the use of any material or method of construction not specifically prescribed by these procedures. Alternate materials or methods shall be submitted for approval by the City Engineer. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-6 Sufficient evidence or proof shall be submitted to substantiate the alternate. Details of alternate approval shall be recorded and made part of the project files. 122.00 Modifications In individual situations, Broomfield may grant modifications. The specified procedure shall be demonstrated to be impractical and that the modification conforms to the intent and purpose of the specified procedure. The requested modification shall not lessen any design requirement. The document(s) granting a modification shall be placed in the project files. 123.00 Tests Whenever there is insufficient evidence of compliance with the provisions of these STANDARDS AND SPECIFICATIONS or evidence that any material or construction does not conform to the requirements, the City Engineer shall require the Contractor to perform tests to demonstrate compliance. Test methods shall be as specified by the STANDARDS AND SPECIFICATIONS or by other recognized test standards. If there are no recognized and approved test methods for the proposed alternate, the City Engineer shall determine test procedures. All tests shall be made by an approved agency. Broomfield shall retain reports of such tests. 124.00 Organization, Enforcement and Interpretation 124.01 Authorization The City Engineer is authorized and directed to enforce all provisions of the STANDARDS AND SPECIFICATIONS, and for such purposes he shall have the powers of a peace officer. The City Engineer may appoint a civil engineer, construction Broomfield Representative/Inspector, or other employee to act in his behalf. 124.02 Stop Work Order If work is being done contrary to the provisions of these STANDARDS AND SPECIFICATIONS, the City Engineer may issue a written order to stop the work. The written notice shall be served on any persons engaged in doing or causing the work to be done. Upon receipt of the stop work order, all work shall cease until authorized by the City Engineer to proceed. 124.03 Interpretation These STANDARDS AND SPECIFICATIONS are composed of written engineering standards, materials specifications and detail drawings. The interpretation of any Section, or of any difference between Sections, when appropriate, shall be made by the City Engineer, and his interpretation shall be binding and controlling in its applications. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-7 125.00 Liability The City Engineer, or his authorized representative charged with the enforcement of these STANDARDS AND SPECIFICATIONS, acting in good faith and without malice in performing his duties, shall not be personally liable for any damage that may accrue to persons or property as a result of any act or by reason of any act or omission in the discharge of his duties. 126.00 Violations It shall be unlawful for any person, firm, or corporation to construct, enlarge, alter, repair, move, improve, remove, excavate, convert, demolish or operate any public improvements or common facilities or permit the same to be done in violation of these STANDARDS AND SPECIFICATIONS. 127.00 No Waiver of Legal Rights Broomfield shall not be precluded or stopped by any measurement, estimate, or certificate made either before or after the completion and acceptance of the work from showing the true amount and character of the work performed and materials furnished by the Contractor, or from showing that any such measurement, estimate or certificate is untrue or incorrectly made, or that the work or materials do not conform in fact to these STANDARDS AND SPECIFICATIONS. 128.00 Contractor's License Any person performing work that requires a permit as detailed in Section 150.00 PERMITS AND INSPECTIONS of these STANDARDS AND SPECIFICATIONS shall obtain a Contractor's License as set forth in Broomfield Municipal Code Chapter 15.32. 129.00 Use of Broomfield Rights-of-Way 129.01 Permission to Occupy R.O.W. In accordance with Broomfield Municipal Code Chapter 14-10, all persons desiring to place facilities within the public R.O.W., if not otherwise granted by contract or written agreement, shall obtain permission from the City Council and pay required fees in order to occupy a Broomfield R.O.W. For construction in the public R.O.W., refer to Section 151.00 Public/Private Improvement Permit (PPIP), Grading Permit, and Over-Excavation Permit of these STANDARDS AND SPECIFICATIONS. 129.02 Insurance and Indemnification Insurance. Prior to the granting of any Permit, the Applicant shall file with Broomfield the comprehensive general liability insurance policies or certificates in a form and amounts satisfactory to Broomfield listing Broomfield and its officers and employees as additional named ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-8 insured. Broomfield departments shall be relieved of the obligation of submitting certificates of insurance. Indemnification. The Applicant, for itself and its related entities, agents, employees, subcontractors, and the agents and employees of said subcontractors, shall hold Broomfield harmless, defend, and indemnify Broomfield, its successors, assigns, officers, employees, agents, and appointed and elected officials from and against all liability or damage and all claims or demands whatsoever in nature, and reimburse Broomfield for all its reasonable expenses, as incurred, arising out of the installation, maintenance, operation or any other Work or activity in the public right-of-way or by the Applicant related to its use thereof, including, but not limited to, the actions of the Applicant, its related entities, agents, employees, subcontractors, and the agents and employees of said subcontractors, or the securing of and the exercise by the Applicant of the Permit rights granted in the Permit, including any third party claims, administrative hearings, and litigation; whether or not any act or omission complained of is authorized, allowed, or prohibited by this ordinance or other applicable law. 129.03 Performance Bond/Letter of Credit Before any Permit required by this chapter shall be issued to an Applicant, the Applicant shall file with Broomfield a bond or letter of credit in favor of Broomfield in an amount equal to the total cost of restoration of all public and private infrastructure the Applicant may disturb to a condition equal to or better than that existing before the project began. The cost of restoration may include, without limitation, removal of defective materials, recompaction of subgrade and base material, and construction of surface improvements, including labor and materials. The bond or letter of credit shall be executed by the Applicant as principal and by at least one surety upon whom service of process may be had in the state. The bond or letter of credit shall be conditioned upon the Applicant fully complying with all provisions of Broomfield ordinances, rules and regulations, and upon payment of all judgments and costs rendered against the Applicant for any material violation of Broomfield ordinances or state statutes that may be recovered against the Applicant by any person for damages arising out of any negligent or wrongful acts of the Applicant in the performance of Work done pursuant to the Permit. Broomfield may bring an action on the bond or letter of credit on its own behalf or on behalf of any person so aggrieved as beneficiary. The bond or letter of credit shall be approved by Broomfield’s City and County Attorney as to form and as to the responsibility of the surety thereon prior to the issuance of the Permit. Broomfield may waive the requirements of any such bond or letter of credit or may permit the Applicant to provide a cash deposit or cash equivalent reasonably acceptable to Broomfield in lieu of a bond or letter of credit, or to post a bond without surety thereon upon finding that the Applicant has financial stability and assets located in the state to satisfy any claims intended to be protected against the security required by this section. A letter of responsibility shall be approved in lieu of a performance bond, letter of credit, or cash deposit from all public utilities, all franchised entities, and all metropolitan, water and sanitation districts operating within Broomfield. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-9 129.04 Performance Warranty/Guarantee Any warranty made hereunder shall serve as security for the performance of work necessary to repair the public R.O.W. if the Applicant fails to make the necessary repairs or to complete the work under the Permit. The Applicant, by acceptance of the Permit, expressly warrants and guarantees complete performance of the work in a manner acceptable to Broomfield and warrants and guarantees all work done for the warranty period. Refer to Section 200.00 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. The Applicant agrees to maintain and to make all necessary repairs during the warranty period. This warranty shall include all repairs and actions needed as a result of: A. Defects in workmanship B. Settling of fills or excavations C. Heaving or cracking D. Any unauthorized deviations from the approved plans and specifications E. Failure to barricade F. Failure to clean up during and after performance of the Work, and comply with B.M.C. 8-10-010 regarding control of construction materials and debris. G. Failure to replace pavement markings or otherwise comply with repaving or reconstruction Schedule. H. Any other violation of this chapter or the ordinances of Broomfield. The warranty period shall begin on the date of Broomfield’s Construction Acceptance of the work. If repairs are required during the warranty period, those repairs shall also be warranted until the end of the warranty period starting with the date of Construction Acceptance. It is not necessary that a new warranty period be provided for warranty repairs. At any time prior to completion of the warranty period, Broomfield may notify the Applicant of any needed repairs. Such repairs shall be completed within twenty-four (24) hours if the defects are determined by Broomfield to be an imminent danger to the public health, safety and welfare. Should the Applicant fail to complete non-emergency warranty work in a timely manner, upon giving the Applicant ten calendar days written notice Broomfield may perform the work at the Applicant's expense. If the cost of the warranty work performed by Broomfield exceeds the amount of the financial security, the Applicant shall be liable for the additional costs. If there is a dispute as to the amount owed, the Applicant may provide financial security to Broomfield to fully secure such payment until resolution of any appeal under this chapter. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-10 130.00 SCOPE OF WORK 131.00 Work Conditions 131.01 Working Hours All work to be completed on the project shall be performed during regular working hours, 7:00 A.M. until 7:00 P.M. Monday through Friday. Restricted hours may be included with conditions of the City Council Resolution approving the project, or within the work permit. All work on the project shall comply with Broomfield Municipal Code Chapter 9.36. The Contractor shall not perform overtime work outside of regular working hours or the performance of work on Saturday, Sunday or any Broomfield observed holiday without receiving written consent from the City Engineer. Request for work outside regular working hours shall be received two working days prior to the proposed date of the work. Refer to Section 150.00 PERMITS AND INSPECTIONS of these STANDARDS AND SPECIFICATIONS. At the discretion of the City Engineer, a formal or informal hearing before the City Council may be conducted to assist in determining the appropriateness for permitting work outside of regular working hours. All costs of notification and hearing shall be borne by the proponent of or Applicant for the permit. 131.02 Emergency Work When, in the opinion of Broomfield, the Contractor has not taken sufficient precautions for the safety of the public or the protection of the work to be constructed, or of adjacent structures or property which may be injured by processes of construction on account of such neglect, and an emergency may arise and immediate action is considered necessary in order to protect public or private, personal or public interests, Broomfield, WITH OR WITHOUT NOTICE to the Contractor or the Developer, may provide suitable protection by causing such work to be done and material to be furnished and placed as Broomfield may consider necessary and adequate. The cost and expense of such work and material so furnished shall be borne by the Contractor or developer and shall be paid upon presentation of the bills. The performance of such emergency work under the direction of Broomfield shall in no way relieve the Contractor of responsibility for damages which may occur during or after such precaution has been taken. In an emergency threatening loss of life or extensive damage to the work or to adjoining property, and where the Developer or Contractor is unable to obtain special instructions or authorization from Broomfield after diligent attempts to obtain such special instruction or authorization in sufficient time to take the necessary action, the Developer or Contractor is hereby permitted to act at his own discretion to prevent such threatening loss or damage. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-11 131.03 Final Cleanup Upon completion of the work, the Contractor shall remove from the project area all surplus and discarded materials, rubbish, and temporary structures, and leave the project area in a neat and presentable condition. The Contractor shall restore all work that has been damaged by his operations, to general conformity with the specifications for the item or items involved. Final cleanup shall include inspection of the interior of all manholes, stormwater inlets and facilities within the construction limits for construction materials, dirt, stones, or other debris deposited therein by the activities of the Contractor, and removal of the debris. 132.00 Control of Work 132.01 Authority of the City Engineer The City Engineer has the authority to stop the work whenever such stoppage may be deemed necessary. The City Engineer has authority to resolve issues regarding the quality and acceptability of materials furnished, performance of the work, interpretation of the plans and specifications, and acceptable fulfillment of the requirements of these STANDARDS AND SPECIFICATIONS. The City Engineer may define the schedule and/or priority of the work to be completed on the project. The Contractor shall comply with this schedule. Any revision to the schedule shall be authorized in writing by the City Engineer. 132.02 Authority and Duties of the Broomfield Representative/Inspector The Broomfield Representative/Inspector is authorized to observe and inspect all work completed and all material furnished. Observations and inspections may include all procedures and the preparation, fabrication and manufacture of materials to be used. The Broomfield Representative/Inspector is not authorized to revoke, alter, or waive any requirements of these STANDARDS AND SPECIFICATIONS. The Broomfield Representative/Inspector is authorized to call the attention of the Contractor to any failure of the work or materials to conform to these STANDARDS AND SPECIFICATIONS. The Broomfield Representative/Inspector is also authorized to issue a “Correction Notice” when inspection of the project reveals violation(s) of these STANDARDS AND SPECIFICATIONS. The Broomfield Representative/Inspector shall have the authority to reject materials and procedures until any questions at issue can be resolved by the City Engineer. The Broomfield Representative/Inspector shall not act as foreman or perform other duties for the Contractor, or interfere with the management of the work performed by the Contractor. Any “advice” which the Broomfield Representative/Inspector may give the Contractor shall not be construed as binding upon the City Engineer or Broomfield in any way, or release the Contractor from fulfilling all of the requirements of these STANDARDS AND SPECIFICATIONS. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-12 The presence or absence of the Broomfield Representative/Inspector shall not relieve the responsibility or the obligation of the Contractor. Broomfield shall—at all times—have reasonable and safe access to the work whenever it is in preparation or progress, and the Contractor shall provide proper facilities for such access and inspection. 132.03 Suspension of Work In case of suspension of work for any reason, the Contractor shall take precautions as necessary to prevent damage to the project, to provide for adequate drainage and to install any necessary barricades, signs, or other facilities, at his expense, as directed by the City Engineer and as required by these STANDARDS AND SPECIFICATIONS. Necessary precautions shall be taken before the Contractor leaves the job site. 132.04 Removal of Unauthorized and Unacceptable Work Work which does not conform to the approved plans and these STANDARDS AND SPECIFICATIONS or which results in an inferior or unsatisfactory product shall be considered unacceptable work. Unacceptable work—whether the result of poor workmanship, poor design, use of defective materials, damage through carelessness, or any other cause—found to exist prior to Final Acceptance of the work shall be immediately removed and replaced or corrected at the expense of the Developer, in a manner acceptable to Broomfield. This expense includes the total and complete restoration of all disturbed surfaces to a condition acceptable to Broomfield. 132.05 Contractor’s Responsibility, Character of Workers and Equipment Contractor shall employ resources for completing work to full completion in the manner and time required by the contract. All workers shall have skill and experience to perform the work assigned to them. When workers are primarily conversant in a language other than English, each crew shall have at least one person that is fluent in both English and the primary language of the workers. Any person employed by the Contractor or by any subcontractor who does not perform the work in a proper and skillful manner shall, at the written request of the City Engineer, be removed by the Contractor or subcontractor and shall not be employed on the project without the approval of the City Engineer. All equipment used on the project shall be of size and mechanical condition to meet requirements of the work and to produce a satisfactory quality of work. Equipment used shall not cause injury to the roadway, adjacent property, or other roadways. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-13 132.06 Situation Variances Where any particular requirements contained in this Section of these STANDARDS AND SPECIFICATIONS can be shown to be inappropriate when applied to an out-of-the-ordinary situation, variances to said minimum requirements shall be considered and may be authorized by the City Engineer. The proposed variance in the requirements shall result in a level of safety, service, and quality equal to or greater than that intended by the application of said requirements. These STANDARDS AND SPECIFICATIONS shall govern when inconsistencies with approved construction plans occur, unless written permission is granted by the City Engineer. 132.07 Broomfield Capital Improvement Projects It is recognized that the requirements contained in these STANDARDS AND SPECIFICATIONS are not necessarily sufficient for plans, specifications and contract administration purposes for Broomfield administered capital improvement projects. Accordingly, the City Engineer is authorized to develop and/or approve such additional requirements and procedures necessary for bidding, award, and construction administration for such projects. Said additional requirements and procedures shall be consistent with these STANDARDS AND SPECIFICATIONS and all applicable provisions of other Broomfield ordinances and resolutions. 132.08 Requirements of Other Jurisdictions Where proposed street construction shall affect other agencies such as the CDOT, adjacent cities and counties or ditch companies, said construction shall be subject to the review of said agencies. Generally, where more than one requirement is imposed, the more restrictive requirement shall govern. Exceptions shall be authorized by the City Engineer in writing. 133.00 Control of Materials 133.01 Samples and Tests To determine if materials comply with contract requirements and these STANDARDS AND SPECIFICATIONS, samples may be collected and/or tests performed at the source or job destination, at the discretion of the City Engineer. Collection of samples and completion of tests shall be in accordance with standard practices except where methods and procedures for sampling and testing materials are otherwise set forth in these STANDARDS AND SPECIFICATIONS. The Contractor shall furnish—at his expense—all samples, tests and reports required by the City Engineer and shall provide such facilities for collecting and forwarding them. When requested by the City Engineer, a written statement providing the origin, composition and process of manufacture of a material shall be provided by the Contractor. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-14 133.02 Storage of Materials Materials shall be stored so as to assure the preservation of quality and suitability for the work. Stored materials shall be subject to inspection at any time prior to use in the work and shall meet all requirements of these STANDARDS AND SPECIFICATIONS at the time they are used. Materials shall be stored in a manner that facilitates inspection. With the City Engineer's written approval, portions of the rights-of-way not required for public travel may be used to store materials and equipment. Any additional storage space required shall be provided by the Contractor at his expense. 133.03 Defective Materials Materials not in conformance with contract requirements or these STANDARDS AND SPECIFICATIONS shall be considered defective and shall be rejected. Rejected materials shall be removed from the work site within seventy-two (72) hours. 140.00 GENERAL CONDITIONS 141.00 Protection of Public, Private and Utility Interests 141.01 Operation of Existing Utility System Controls ONLY BROOMFIELD PERSONNEL SHALL OPERATE CONTROL DEVICES ON ALL EXISTING UTILITY SYSTEMS. 141.02 Permits Required by Other Agencies Developers or Contractors proposing to place facilities in the vicinity of existing public, private or utility infrastructure shall obtain a written agreement from the responsible managing agency. This shall include, but not be limited to irrigation ditches, airports, railroads, the CDOT, communication utilities, gas and electric utilities, and neighboring governmental entities. Refer to Section 630.00 EROSION CONTROL of these STANDARDS AND SPECIFICATIONS for NPDES permit requirements. 141.03 Public Convenience and Safety Fire hydrants shall be visible and accessible to the Fire District from the street at all times. No obstructions shall be placed within ten (10) feet of a fire hydrant. Unless otherwise specified, the Contractor shall give written notice to the proper authorities in charge of streets, waterlines, gas lines, electric service, cable television and other conduits, railroads, poles, manholes, catch basins and all other property that may be affected by the Contractor's operations, at least seventy-two (72) hours before breaking ground. The Contractor shall not hinder or interfere with any person in the protection of such property, or the operation of utilities at any time. The Contractor shall obtain all necessary information—including field ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-15 locations—in regard to existing utilities, shall protect such utilities from injury, and shall avoid unnecessary exposure of utilities that could cause injury to the public. The Contractor shall obtain all necessary information in regard to the planned installation of new utilities, cables, conduits and transformers. The Contractor shall make proper provisions and give proper notification so that new utilities and equipment can be installed without unnecessary inconvenience to the public. THE CONTRACTOR SHALL GIVE SUFFICIENT WRITTEN NOTICE TO PROPERTY OWNERS ADJACENT TO PROPOSED WORK. 141.04 Interruption of Services Before starting site work, the Contractor shall plan and coordinate for the disconnection or interruption of all services; such as water, sewer, cable T.V., telephone, gas, electric power and traffic. Disconnection and/or interruptions shall be made in accordance with the regulations of the utility that controls the supply of the service. Whenever the flow of traffic is affected, a Traffic Control Plan shall be provided in accordance with Section 141.12, Traffic Control, Barricades, and Warning Signs, of these STANDARDS AND SPECIFICATIONS. Broomfield Public Works Department shall provide a representative to be on site to observe and approve the Contractor's disconnection or interruption of the water and sewer services. Twenty- four (24) hours prior to the interruption of service, the Contractor shall notify all users whose service shall be interrupted in order for them to make provisions for necessary water storage. No line in service shall be shut down for more than a four hour period at one time. Prior approval by the City Engineer is required for all shut-downs. 141.05 Protection of Paved Surfaces Only pneumatic-tired equipment shall be allowed to operate over paved surfaces. The Contractor shall be responsible for any damage to the street surface resulting from his operation. 141.06 Protection of Streams, Lakes and Reservoirs The Developer or Contractor shall take all necessary precautions to prevent pollution of streams, lakes, and reservoirs with fuel, oil, bitumen, calcium chloride, or other harmful materials. They shall conduct and schedule their operations to avoid or minimize siltation of streams, lakes and reservoirs. A plan for erosion protection shall be submitted to Broomfield for approval before starting work and shall conform to all local, state and federal regulations. 141.07 Protection of Public and Private Installations The Contractor shall take proper precautions at all times for the protection of and replacement or restoration of driveway culverts, street intersection culverts or aprons, storm drains or inlets, fences, irrigation ditches, crossings and diversion boxes, mail boxes, shrubbery, flowers, ornamental trees, driveway approaches, and all other public and private installations that may be ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-16 encountered during construction. The Contractor shall have the responsibility of providing each property with access to and from the property during the time of construction. Existing driveways shall be cut, filled, and graded as required and as directed by the City Engineer to provide permanent access. Existing driveways shall be resurfaced with the presently existing type of surfacing whenever the existing surface is destroyed. 141.07.01 Existing Structures and Utilities to Remain Prior to any disturbance of soils, concrete or asphalt materials, all utility line locations shall be marked on the ground with location equipment by a certified utility location agency. All utility locations shall be plainly marked by coded paint symbols on pavement or by marked stakes in the ground at the Contractor’s expense. All existing poles, wires, fences, property line markers and other structures which, in the opinion of the City Engineer, shall be preserved in place without being temporarily or permanently relocated shall be carefully supported and protected from damage by the Contractor. Underground utilities may exist within or immediately adjacent to areas of proposed construction. Where possible, locations of such utilities shall be indicated on the approved plans. The completeness and accuracy of the utility locate information presented is unverified and without guarantee. Utility locate information is supplied to provide the Contractor with approximate locations of utilities in and near proposed construction areas to anticipate probable or possible obstructions and the extent to which construction may be affected. ALL UNDERGROUND UTILITY LOCATOR MARKINGS SHALL BE MARKED WITH WATER-BASED PAINT THAT DOES NOT LAST MORE THAN FORTY-FIVE (45) DAYS. IF AFTER FORTY-FIVE (45) DAYS THE MARKINGS REMAIN, THEY SHALL BE REMOVED BY THE CONTRACTOR. All utility services shall be supported by suitable means so that services do not fail during construction or if settling of soils occurs. Where any shallow pipe exists or is constructed which may have been distressed by the Contractor’s construction operations, the City Engineer may require the Contractor to submit video of the pipe for inspection. 141.07.02 Relocation, Removal and Replacement of Existing Structures and Utilities If the Contractor encounters structures and/or utilities, they shall be relocated or removed and replaced. 141.07.03 Correcting Damage In the case of damage, repairs and/or replacements shall be made at the Contractor’s expense. The Contractor shall notify the property owner of the type and extent of the damage. The Contractor and property owner shall agree to a time schedule to repair the damage, and if property owners do not wish to make the repairs themselves, the Contractor shall repair the ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-17 damage. If damage is not repaired within the timeframe agreed to by the property owner and the Contractor, Broomfield may have repairs made at the Contractor’s expense. 141.08 Protection and Restoration of Property and Survey Monuments The Developer and Contractor shall use every reasonable precaution to prevent the damage or destruction of public or private property such as poles, trees, shrubbery, crops, fences, and survey monuments adjacent to or interfering with the work, and all overhead structures such as wires, cables, within or outside of the rights-of-way. The Contractor shall protect and support all water, gas, sanitary sewer, storm sewer or electrical pipes or conduits, and all railway tracks, buildings, walls, fences or other properties that are liable to be damaged during the execution of his work. He shall take all reasonable and proper precautions to protect persons, animals, and vehicles from injury. Wherever necessary, or directed by the City Engineer, the Contractor shall erect and maintain a fence or railing around any excavation or work site and place a sufficient number of amber lights about the work and keep them burning from twilight until sunrise. He shall employ one or more watchmen for additional security wherever they are needed or required by the City Engineer. The Contractor shall not prevent the flow of water in the gutters of the street and shall use proper means to permit the flow of surface water along the gutters while the work is progressing. The Contractor shall protect and carefully preserve all land boundary and Broomfield survey control monuments. Any monument that may be disturbed shall be referenced and replaced by a Colorado Registered Professional Land Surveyor. All monuments disturbed or removed by the Contractor, through negligence or carelessness on his part or on the part of his employees or subcontractors, shall be replaced at the Contractor's expense. Replacement of any monument shall be completed in accordance with the requirements set forth in Section 141.10 Survey Monuments of these STANDARDS AND SPECIFICATIONS. Developer and Contractor shall be responsible for the damage or destruction of property resulting from neglect, misconduct, or omission in his manner or method of execution or non- execution of the work, or caused by defective work or the use of unsatisfactory materials. They shall restore such property to a condition similar or equal to that existing before such damage or injury was done, by repairing, rebuilding, or replacing it as may be directed, or they shall otherwise make good such damage or destruction in an acceptable manner. Developer and Contractor shall be responsible for the repair of underground pipes, wires, or conduits damaged by them or their subcontractors. Developer and Contractor shall be liable for all damage caused by storms and fire, and shall under no circumstances, start fires without first securing the necessary permits and approval of the authority having jurisdiction even though they may be ordered or required to do such burning. In burning brush, stumps, or rubbish, care shall be taken not to damage any standing trees, shrubs or other property. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-18 141.09 Surveys Surveys shall conform to Colorado Bylaws and Rules of Procedures and rules of Professional Conduct of the State Board of Registration for Professional Engineers and Profession Surveyors, latest edition. 141.10 Survey Monuments Permanent survey monuments, including the replacement of monuments, range points and lot pins shall be set in accordance with the requirements of Articles 51 and 53 of Title 38, Colorado Revised Statutes, and as required by the Bylaws and Rules of Procedure of the Colorado State Board of Registration for Professional Engineers and Professional Land Surveyors. 141.11 Dustproofing The Contractor shall take all necessary steps to control dust arising from operations connected with the work. When ordered by the City Engineer, the Contractor shall dustproof the construction area by sprinkling with water, by constructing windrows, or as otherwise directed by the City Engineer. 141.12 Traffic Control, Barricades and Warning Signs All construction, maintenance, park or utility work being completed within the Public Rights-of- way shall have a Traffic Control Plan (TCP) approved by the City Traffic Engineer. The TCP is a plan for guiding and handling traffic safely through the construction work zone. The TCP shall provide safe methods for movement of pedestrians, bicyclists, and motorists that travel through the work zone and a safe area for all workers engaged in the construction activity. The TCP shall show the location, spacing and scheduling of the usage of advance warning signs, barricades, pavement markings and other control devices. All control devices shall be installed and maintained in accordance with the “Manual on Uniform Traffic Control Devices” (MUTCD) and the “CDOT Work Zone Safety Handbook”, latest editions. Requirements contained in these manuals shall be strictly enforced during the progress of the work. THE TCP SHALL BE JOB SPECIFIC. In order for a TCP to be approved by the City Traffic Engineer, it shall contain—as a minimum—a scaled drawing showing the project area and the street(s) that are affected by the project. The drawing shall include the following information: A. Location and spacing of properly planned traffic control devices. B. The length of time that the construction shall be in progress. C. The name and phone number(s) of the Contractor's designated traffic control supervisor. D. Any special notes or information on how the traffic control operation is to be handled. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-19 The Contractor shall be responsible for the following: A. Obtain a Public/Private Improvement Permit (PPIP) from the Broomfield Engineering Division. B. Provide timely notification to, and coordination with, all affected agencies including the following: 1. North Metro Fire and Rescue 2. Broomfield Police Department 3. City Traffic Engineer 4. Broomfield Public Works Department 5. Utility Companies 6. RTD C. Inform occupants of abutting properties of access limitations made necessary by the work. D. Schedule and expedite the work to cause the least inconvenience to the public. Construction or repair work shall not be permitted at or in the vicinity of signalized intersections or on major streets and state highways without advance approval of the City Traffic Engineer and CDOT as applicable. E. Furnish, install and maintain required traffic control devices and facilities, as required throughout the life of the contract, including periods when the work is not underway. F. Provide flagmen when required. G. Ensure that survey crews and other employees working in or adjacent to a traveled roadway wear personal protection equipment as required. H. Provide adequate safeguards for workers and the general public. I. Patrol the construction site as required to ensure that all devices are in place and operating at all times. J. Remove traffic control devices when they are no longer needed. Projects that affect traffic on arterial streets and/or connectors may require an off-duty police officer on the job site to direct traffic during peak hours of 7:00 to 9:00 a.m. and 4:00 to 6:00 p.m. Arrangements for officers can be made by contacting the Broomfield Day Watch Commander ([PHONE REDACTED]) at least one week in advance of the proposed work. Work shall be scheduled and expedited in a manner to cause the least inconvenience to the public. Intersections and driveways shall be closed for a minimum amount of time. The Contractor shall coordinate driveway closures with property owners with final approval by the City Engineer. No work is allowed on Holiday-Restricted Streets (major shopping routes) between November 1 and January 1 unless approved by the City Traffic Engineer. Unless otherwise approved by Broomfield, construction operations are limited to one-half of the roadway at any time. Maintenance activities in arterial streets shall be planned and scheduled to minimize interference with traffic. Except for emergency situations, no maintenance work shall encroach into a moving lane of traffic between the hours of 7:00 to 9:00 AM or from 4:00 to 6:00 PM unless otherwise authorized by Broomfield. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-20 All temporary traffic lanes shall be a minimum of ten (10) feet in width unless otherwise authorized. In addition, lane clearance shall be a minimum of five feet from an open excavation and two feet from a curb or other vertical obstruction. A suitable surface shall be provided for the temporary traffic lanes in work areas. When traffic is diverted from the existing pavement, a temporary surface shall be provided as required by the City Engineer or City Traffic Engineer. Construction equipment not actively engaged in construction, employee vehicles and official vehicles of the agency shall not be parked in the vicinity of the work in such a manner as to further restrict traffic flow. Vehicles and equipment in continuous or frequent use may be operated or parked in the same traffic lane as the work obstruction. Construction spoils or materials may be similarly stored in this area or on the nearby roadway or sidewalk area, provided that four feet of sidewalk is kept clear for pedestrian use. To prevent the spoil bank from occupying too great a space at its base, toe boards may be used to keep it two feet from the edge of the excavation on one side and two feet from the edge of the traffic lane on the other. Whenever necessary, trenches and excavations shall be bridged to permit an unobstructed flow of traffic. A. Bridging shall be secured against displacement by using adjustable cleats, angles, bolts, or other devices. B. Bridging shall be installed to operate with minimum noise. C. The trench shall be adequately shored, to support the bridging and traffic. D. Steel plates used for bridging shall extend a minimum of one foot beyond the edges of the trench. Temporary paving materials shall be used to feather the edges of the plates to minimize wheel impact. E. Steel plates used for bridging shall be designed by a P.E. When the work area encroaches upon a sidewalk, bike lane, walkway or crosswalk area, special consideration shall be given to pedestrian and bicyclist safety. Effort shall be made to separate pedestrians and bicyclists from the work area. All work shall be barricaded at all times. Between sunset and sunrise, the work area shall be properly lighted. The Contractor shall be responsible for all damages to work due to failure of barricades, signs, lights, flagmen and watchmen. 141.13 Use of Explosives Detonation of explosives by Developers or Contractors shall only be by permit authorized by the City Council after review and recommendation by the City Manager. The following information shall be submitted to the City Manager, or his designee, at least thirty (30) days prior to the detonation of explosives: ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-21 A. A graphic plan showing locations of proposed explosive use and improvements (including structures, wells, waterways, irrigation ditches, etc.) on the property, surrounding land uses, and improvements on adjacent properties within a distance equal to 1000 feet plus the maximum distance of vibration as specified in the report described below. B. A geotechnical report prepared by Colorado Registered Professional Engineer describing the geology of the area and the impacts of explosive use in the area, including wave attenuation and travel distance and potential impacts on improvements in the area. C. An analysis of alternatives to explosives, including safety, time, and monetary comparisons of all alternatives. The Developer or Contractor shall use the utmost care to protect life and property in the detonation of explosives. Audible signals warning persons of danger shall be given before detonation of explosives. If the detonation of explosives within Broomfield is permitted, the Developer or Contractor shall submit to the City Manager, or his designee, a certificate of insurance for coverage of detonation of explosives in the minimum following amounts: $2,000,000 for property damage, each accident; and $2,000,000 for public liability, bodily injury, single limit or equivalent, each accident. Broomfield shall be named as an additional insured on the insurance policy. 141.14 Storage of Explosives In addition to Broomfield requirements for use of explosives, the Developer or Contractor shall obtain a Fire District permit for the storage, handling and use of explosives. 142.00 Use of Broomfield Water The Contractor may obtain permission to use Broomfield water during construction as follows: A. Request the Water Utility Division to install a meter and appurtenances on a hydrant and agree to pay the appropriate fees and deposits. B. Agree to pay water utility charges for installation, use and removal of the meter, and to pay for all damage other than normal wear. C. Notify Water Utility Division immediately when use of meter is no longer required. 143.00 Pavement Cuts ALL UNDERGROUND UTILITY INSTALLATIONS CROSSING ARTERIALS OR STREETS CONSTRUCTED, RECONSTRUCTED, OR OVERLAID WITHIN FIVE YEARS SHALL BE DONE BY BORING, EXCEPT FOR EMERGENCY REPAIRS. An exception may be granted when a plan is submitted to overlay the entire street (block to block), or as approved by the City Engineer. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-22 IN ACCORDANCE WITH THE BMC “USE OF PUBLIC RIGHTS-OF-WAY” ORDINANCE. CALCULATED STREET CUT FEES SHALL BE PAID BY THE DEVELOPER/CONTRACTOR PRIOR TO CUTTING STREETS. All street cuts shall be saw-cut prior to street patching. An approved asphaltic patch, rotomilling, or base course trench surfacing shall be placed the same day street cuts are made, unless approved by the City Engineer. Cold mix, rotomilling, or base course shall be maintained free of surface ruts and the street shall be cleaned of mud and dust until the permanent resurface is in place. Pavement cuts shall have permanent patching within five working days, unless otherwise approved by Broomfield. THE APPLICANT SHALL BE RESPONSIBLE FOR MAINTENANCE OF THE PERMANENT PATCH FOR A PERIOD OF ONE YEAR. If a street cut is required, the Contractor shall make every effort to install a permanent, hot mix, asphalt patch within twenty-four (24) hours. The Contractor shall place a temporary, cold mix, asphalt patch in all street cuts immediately after completing backfill and compaction if a permanent hot mix asphalt patch cannot be installed within twenty-four (24) hours of completion of utility installations. The Contractor shall submit a schedule for the permanent patch installation to the City Engineer for approval. When pavement cuts are required, the following conditions shall be met so as to avoid interference with traffic: A. Pavement cuts in streets shall be open only between 9:00 A.M. and 4:00 P.M.; and B. Two-way traffic shall be maintained at all times around the construction area. A Traffic Control Plan (TCP) shall be prepared in accordance with Section 141.12 Traffic Control, Barricades and Warning Signs of these STANDARDS AND SPECIFICATIONS and submitted to the City Traffic Engineer for approval prior to the start of construction. 143.01 Pavement Cut Repair Requirements Pavement cut repairs shall be performed according to the following requirements: A. Areas to be repaired shall be saw cut so that edges are straight. B. Edges of areas to be repaired shall be milled a minimum of twelve (12) inches wide and two inches deep. C. The excavated area shall be re-compacted to ninety-five (95) percent modified proctor as per ASTM-T-99 and edges cleaned prior to the application of tack coat. Tack coat shall be applied to the edges of the excavated area prior to placement of new material. D. Asphalt in the repair area shall be six inches minimum thickness or one inch thicker than existing asphalt, whichever is greater. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-23 E. Hot bituminous material shall be placed in the excavated area and compacted to a Rice density between ninety-two (92) and ninety-six (96) percent, or to a minimum Marshall density of ninety-five (95) percent. F. Finished patch shall be smooth and conform to the grade of the existing asphalt. Heat scarifications may be required by the City Engineer. G. Work area shall be cleaned at the end of each working day. H. Refer to the Detail Drawings for additional pavement cut repair requirements. 144.00 Cable Installation 144.01 General Unless otherwise approved in writing by the City Engineer, all cable installation shall be within public rights-of-way or within a dedicated utility easement. All cable shall be installed at a minimum depth of twenty-four (24) inches in accordance with the requirements of Article 300-5 of the NEC. 144.02 Underground Installation All underground installation shall be in accordance with Article 300-5 of the NEC. 144.03 Overhead Installation All overhead installation shall be in accordance with Article 230-24-(b) of the NEC. 150.00 PERMITS AND INSPECTIONS 151.00 Public/Private Improvement Permit (PPIP), Grading Permit and Over-Excavation Permit It shall be unlawful for any person, organization, firm or corporation to construct, enlarge, alter, repair, move, improve, remove, excavate, convert or demolish any public improvements or common facilities regulated by these STANDARDS AND SPECIFICATIONS without first obtaining either a Public/Private Improvement Permit (PPIP), a Grading Permit, or an Over- Excavation Permit for such work from the City Engineer. 151.01 Application for Permit All Broomfield construction related permits may be found online at Broomfield’s website (www.broomfield.org) or at the Community Development Department, Engineering Division. Available permit applications include: A. Public/Private Improvement Permit B. Grading Permit C. Over-Excavation Permit D. Weekend, Holiday and After Hours Work Permit ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-24 An Applicant for a permit shall complete and submit an application online at Broomfield’s website or on a form furnished by the Community Development Department, Engineering Division, a minimum of five working days prior to the anticipated starting date, except in case of emergency. Each application shall: A. Identify and describe the work to be covered by the permit for which the application is made. B. Describe the land on which the proposed work is to be done by legal description, street address, or similar description that shall readily identify and clearly locate the proposed work. C. Indicate the type of work or improvement intended. D. Be accompanied by plans, diagrams, computations and specifications, and other data as required in these STANDARDS AND SPECIFICATIONS. E. Be accompanied by a Traffic Control Plan as defined in these STANDARDS AND SPECIFICATIONS. F. State the valuation and the quantities of the work to be performed. G. Be signed by the Applicant or his authorized agent, who may be required to submit evidence to indicate such authority. H. Submit a starting and completion date. I. Provide other data and information as may be required by the City Engineer. J. If grading includes over-excavation and recompaction for structures, comply with additional requirements of Section 162.01 Preliminary Reports and Section 162.02.05 Earthen Cut/Fill Investigation Report of these STANDARDS AND SPECIFICATIONS. K. Include all applicable fees. CAPITAL IMPROVEMENT PROJECTS AND OTHER BROOMFIELD PROJECTS MAY BE EXEMPT FROM FEES BY BROOMFIELD, IF APPROVED BY THE CITY ENGINEER. 151.02 Permit Issuance The application, plans, specifications and other data filed by an Applicant for a permit shall be reviewed by the City Engineer. The plans may be reviewed by other Broomfield departments. If the City Engineer finds that the work described in an application for a permit, including plans and other data, conforms to the requirements of these STANDARDS AND SPECIFICATIONS, other pertinent laws and ordinances, and that all required fees have been paid, a permit may be issued. Permitted plans shall have a signed City Engineer Statement. Refer to Section 161.02. General Requirements of these STANDARDS AND SPECIFICATIONS. The approved plans and specifications shall not be changed, modified, or altered without authorization from the City Engineer, and all work shall be performed in conformance with the approved plans. One set of approved plans, specifications, and computations shall be retained by Broomfield, and one set shall be maintained at the work site at all times during the progress of the work. A pre-construction conference may be required prior to the issuance of any permits for construction. Attendance shall include the City Engineer, Broomfield Representatives / ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-25 Inspectors, the Developer/Owner, Design Engineer, General Contractor, Sub-Contractors and others as appropriate. The City Engineer shall be notified two working days (forty-eight [48] hours) before construction is to begin. The issuance of a permit shall not be construed to be a permit for, or an approval of, any violation of any of the provisions of these STANDARDS AND SPECIFICATIONS or of any regulations of this jurisdiction. No permit presuming to give authority to violate or cancel the provisions of these STANDARDS AND SPECIFICATIONS is valid. The issuance of a permit based on plans, specifications or other data shall not prevent the City Engineer from requiring the correction of errors in the plans, specifications and other data, or from stopping construction operations, which are in violation of these STANDARDS AND SPECIFICATIONS or any other regulations of this jurisdiction. 151.03 Permit Expiration Every permit issued by the City Engineer under the provisions of this section shall expire if the work authorized by the permit is not substantially complete by the date noted on the permit. Before the work can be recommenced, a new permit shall be obtained. The fee required shall be one-fourth (1/4) of the amount required for a new permit to do the work, provided: no changes have been made or required by Broomfield in the original plans and specifications; and, the period of suspension or abandonment of the work has not exceeded one year from the permit completion date. If substantial changes have been made or required by Broomfield during this period, or more than one year has expired, the Applicant shall pay a new, full permit fee. Any Applicant holding a valid permit may apply, in writing, for an extension of the completion date noted on the permit. The request shall be based on good cause, and shall be acceptable to Broomfield. The City Engineer may extend the completion date for up to six months without an additional fee, provided that circumstances beyond the control of the Applicant have prevented completion of the work. No permit shall be extended more than one time. 151.04 Permit Suspension or Revocation The City Engineer may suspend or revoke any permit issued under the provisions of these STANDARDS AND SPECIFICATIONS. Suspension or revocation of a permit may occur when: the permit is issued in error, is based on incorrect information supplied by the Applicant, or the permit has been issued in violation of any ordinance or regulation of any of the provisions of these STANDARDS AND SPECIFICATIONS. No refund of permit fee shall be made for a revoked or a suspended permit. 152.00 Weekend, Holiday and After Hours Work Permit An Applicant for a Weekend, Holiday and After Hours Work Permit shall complete an application on a form furnished by the Community Development Department, Engineering Division a minimum of two working days [forty-eight (48) hours] prior to the anticipated ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-26 starting date, except in case of emergency. Weekend, holiday or after hours work shall only be permitted for construction which is specifically covered by an approved Public/Private Improvement Permit (PPIP), Grading Permit, or Over-Excavation Permit. Weekend and holiday work hours shall be from 8:00 A.M. to 5:00 P.M. only. NO WORK SHALL BE PERMITTED ON SUNDAY WITHOUT THE SPECIFIC WRITTEN APPROVAL BY THE CITY ENGINEER. All applicable Broomfield Ordinances shall be strictly adhered to during the approved work period. All work shall comply with approved plans, contract documents, these STANDARDS AND SPECIFICATIONS and all other Broomfield requirements. No work shall be permitted without written approval by the City Engineer or the Construction Inspection Supervisor. 153.00 Permit Fees 153.01 Plan Review Fees The permit fee shall be calculated from unit fee rates published on the permit application form. Fees shall be calculated on a cumulative basis. The permit fee shall be paid in full at the time the plans and specifications are approved by the City Engineer and the permit is issued. FOR DEVELOPMENTS GREATER THAN EIGHTY (80) ACRES, THE INSPECTION PERMIT FEE SHALL INCREASE BY SIXTY-FIVE (65) PERCENT. The additional fee shall fund private contract inspection hired by Broomfield to supplement Broomfield inspection of developments. In addition to the permit fee, the plan review fee shall be paid in full at the time the plans and specifications are approved by the City Engineer and the permit is issued. The plan review fee shall be fifty (50) percent of the permit fee. A permit application shall expire if no permit is issued within one hundred eighty (180) days following the date of the application. Plans and other data submitted with the expired permit application may be returned to the Applicant or destroyed by the City Engineer. The permit issuance period may be extended by the City Engineer for a period up to one-hundred eighty (180) days. An extension shall be based upon a written request from the Applicant showing that circumstances beyond the control of the Applicant have prevented action from being taken. A permit extension of one-hundred eighty (180) days from the expiration date noted on the permit may be granted without an additional fee. No application shall be extended more than once. To renew action on an application that has expired, the Applicant shall resubmit plans and pay a new plan review fee. An additional fee may be required to cut Broomfield streets, at the discretion of the City Engineer. The street cut fee shall be paid in full at the time the plans and specifications are approved by the City Engineer and the permit is issued. The fee for the installation of certain public utilities, i.e. underground electrical lines, gas lines, telephone cables, TV cables, etc., or construction of Broomfield’s Capital Improvement Projects, may be reduced or waived by the City Engineer. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-27 153.02 Investigation Fee Required for Performing Work Without a Permit All work for which the required permit has not been obtained shall cease upon written notice of the City Engineer. Following the issuance of a Stop Work Order by the City Engineer, an investigation shall be made before a permit is issued for un-permitted work. An investigation fee shall be collected whether or not a permit is subsequently issued. The investigation fee shall be equal to the amount of the plan review fee, the permit fee, and fees for the inspection time required for the investigation. The minimum investigation fee shall be the same as the minimum fee set forth in the permit application form. The payment of the investigation fee shall not exempt any person from compliance with all other provisions of these STANDARDS AND SPECIFICATIONS nor from any penalty prescribed by law. 154.00 Inspections All construction work for which a PPIP, Grading Permit, or Over-Excavation Permit is required shall be subject to inspection by the City Engineer or Broomfield Inspector/Representative, and certain types of construction shall have continuous inspection. It shall be the responsibility of the person performing the work authorized by a permit to notify the City Engineer or his authorized representative that such work is ready for inspection. Every request for inspection shall be filed at least one working day before such inspection is desired unless otherwise stated in these STANDARDS AND SPECIFICATIONS. An inspection request may be in writing or by telephone, at the option of the City Engineer. It shall be the responsibility of the person requesting an inspection required by these STANDARDS AND SPECIFICATIONS to provide access to and means for proper inspection of all work. All work shall be inspected by the City Engineer or his designated representative. The City Engineer has the authority to halt construction when, in his opinion, these STANDARDS AND SPECIFICATIONS and/or standard construction practices are not being followed, or the work is otherwise defective. Whenever any portion of these STANDARDS AND SPECIFICATIONS are violated, the City Engineer shall give the Contractor written notice listing deficiencies to be corrected and may order further construction stopped until all deficiencies are corrected. If the deficiencies are not corrected within the time limit specified in the notice, the City Engineer may invoke enforcement options authorized by the Broomfield Municipal Code and/or draw upon performance guarantees under which the work is being performed. FOR DEVELOPMENTS GREATER THAN EIGHTY (80) ACRES, BROOMFIELD MAY EMPLOY PRIVATE CONTRACT INSPECTION PROFESSIONALS TO SUPPLEMENT BROOMFIELD INSPECTION AT THE DEVELOPER’S COST. FOR SMALL COMMERCIAL DEVELOPMENTS, BROOMFIELD MAY REQUIRE THE DEVELOPMENT TO HIRE A QUALIFIED PRIVATE CONTRACT INSPECTION PROFESSIONAL OR A COLORADO REGISTERED PROFESSIONAL ENGINEER AT THE DEVELOPER’S COST TO CERTIFY TO BROOMFIELD THAT THE WORK ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-28 WAS COMPLETED IN ACCORDANCE WITH THESE STANDARDS AND SPECIFICATIONS. LANDSCAPING THAT IS PRIVATELY OWNED AND MAINTAINED BY A HOMEOWNERS ASSOCIATION (HOA) OR OTHER PROPERTY MANAGEMENT ENTITY SHALL BE DESIGNED AND CONSTRUCTED IN ACCORDANCE WITH THESE STANDARDS AND SPECIFICATIONS. COMPLIANCE TO THESE STANDARDS AND SPECIFICATIONS SHALL BE CERTIFIED BY A QUALIFIED THIRD PARTY APPROVED BY BROOMFIELD AND PAID BY THE DEVELOPER. BROOMFIELD SHALL ASSIST WITH INSPECTION OF THE IRRIGATION SYSTEM FOR THE LANDSCAPING. The procedure for final inspection and acceptance is specified in Section 200 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS or in the contract documents. 154.01 Additional Inspections and Reinspections The City Engineer may make or require additional inspections of any work as deemed necessary to ascertain compliance with the provisions of these STANDARDS AND SPECIFICATIONS and other provisions of the Broomfield Municipal Code. A reinspection fee may be assessed for each inspection or reinspection when the work identified for additional inspection or reinspection is not complete, or when identified corrections have not been made. Reinspection fees may be assessed when the permit is not in the possession of the permit holder at the work site, when the approved plans are not readily available to the Broomfield Representative/Inspector, for failure to provide access on the date for which inspection is requested, or for deviating from plans approved by the City Engineer. The Applicant shall request a reinspection in writing and shall pay the reinspection fee. Where reinspection fees have been assessed, no additional inspection of the work shall be performed until the required fees have been paid. This intent of this subsection is not to require a reinspection fee the first time a job is rejected for failure to comply with the requirements of these STANDARDS AND SPECIFICATIONS. The intent is to minimize the practice of requesting an inspection before a job is ready for an inspection or reinspection. 160.00 PLANS AND SPECIFICATIONS Plans, engineering calculations, diagrams and other data shall be submitted in one or more sets, as required by the City Engineer, with each application for a permit. Broomfield shall require that plans, computations and specifications be prepared and designed by a Colorado Registered Professional Engineer. Landscape plans shall be prepared and designed by a landscape architect. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-29 The preparation of the Record Documents, as required in Section 211.02 Record Documents of these STANDARDS AND SPECIFICATIONS, shall be based on field inspections performed under the direct supervision of the design engineer responsible for the original approved engineering construction drawings. Field inspection reports shall be submitted along with Record Documents. If the design engineer responsible for the original approved engineering construction drawings is changed prior to preparing Record Documents, the replacement design engineer shall agree in writing to accept the responsibility for final approval and acceptance of the public improvements. EXCEPTION: The City Engineer may waive the submission of plans, calculations, etc., if he finds that the nature of the work is such that a review of plans is not necessary to obtain compliance with these STANDARDS AND SPECIFICATIONS. 161.00 Construction Plan Requirements All construction plans shall be checked for conformance with the STANDARDS AND SPECIFICATIONS prior to approval by the Community Development Department, Engineering Division. This approval shall be for conformance to Broomfield design standards and other requirements. Engineering design shall remain the responsibility of the professional design engineer. One set (blueline or photocopy) of the final plans shall be submitted to the Community Development Department for review prior to approval. This set shall be returned marked with changes that are required or recommended. 161.01 Construction Plan Submittal Requirements Upon final approval by the City Engineer, submit the following: A. One set of the construction plans, unbound, 11” x 17” white paper, easily read font size, signed and sealed by a Colorado Registered Professional Engineer. Landscape and irrigation plans shall be sealed by either a licensed Landscape Architect or Professional Engineer. Each plan shall have the City Engineer Statement and signature line. See Section 161.02 General Requirements of these STANDARDS AND SPECIFICATIONS for the City Engineer Statement. Broomfield shall scan the plans into its “read-only” data file, and shall retain the original. The Developer or Engineer shall submit a second paper set (either 11” x 17” or 24” x 36”), signed and sealed by a Colorado Registered Professional Engineer, for signature by the City Engineer to be returned to the Developer. B. An AutoCAD digital copy of the construction plans. Confirm version acceptability with Broomfield’s GIS Division. “X-referenced” files shall be tied to Broomfield’s GPS network system. C. A completed Utility Tap Order form for all proposed domestic, irrigation, and sanitary sewer taps. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-30 The Contractor shall keep a set of the signed approved plans on the job site for the duration of the project. Should circumstances warrant changes to the approved plans or specifications, written approval shall be obtained from the City Engineer. Copies of approved revisions shall be given to the Developer or Contractor and the design engineer. It shall be the duty of the design engineer and the Contractor to record all changes on the Record Documents as they occur. Record Documents shall be submitted at the completion of the project in compliance with Section 200.00 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. 161.02 General Requirements Plans and specifications shall adhere to the following general requirements: A. Be developed for an 11” x 17” format. B. Have text with an easily read font size. C. Be drawn to scale. D. Have sufficient clarity to indicate the location, nature and extent of the work proposed. E. Provide sufficient detail to demonstrate conformance with the provisions of the STANDARDS AND SPECIFICATIONS and relevant laws, ordinances, rules and regulations. The following items shall be shown on all plans: A. Title Block (lower right-hand corner preferred) B. Scale (For 11” x 17” drawings, 1” = 100’ horizontal and 1” =10’ vertical for plans and profiles are preferred. These would be 1” = 50’ and 1” = 5’ respectively on a 22” x 34” format.) B. Date and revision C. Name of Professional Engineer or firm D. Professional Engineer's seal and signature E. Drawing number(s) F. City Engineer Statement Each set of construction plans shall include: A. Cover or title sheet that identifies the project, Developer and design professionals and date of the documents B. General Notes supplied by Broomfield and contained in this section. Additional project specific information may be provided as Supplemental Notes. C. Material lists identifying the type, size and quantity of materials to be installed D. Vicinity map with sufficient detail to locate the project E. Overall summary drawings at a reasonable scale = 100’ for example). The summary drawing(s) shall show all water, reuse water, sanitary sewer, storm drainage and street facilities to be completed, and other pertinent information that would add to the overall understanding of the project. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-31 161.02.01 City Engineer Statement The following City Engineer Statement shall be placed on all types of drawings, including landscape and irrigation plans. The City Engineer Statement shall be located in the lower right- hand corner near the title block. Following is the City Engineer Statement: “All work shall be constructed to City and County of Broomfield STANDARDS AND SPECIFICATIONS. This drawing has been reviewed and found to be in general compliance with these STANDARDS AND SPECIFICATIONS and other Broomfield requirements. THE ENGINEERING DESIGN AND CONCEPT REMAINS THE RESPONSIBILITY OF THE PROFESSIONAL ENGINEER WHOSE STAMP AND SIGNATURE APPEAR HEREON.” City Engineer (or Designee) Date 161.02.02 Parks Maintenance Superintendent Statement The following Parks Maintenance Superintendent Statement shall be placed on all landscape and irrigation plans. The Parks Maintenance Superintendent Statement shall be located below the City Engineer Statement. Following is the Parks Maintenance Superintendent Statement: “All work shall be constructed to City and County of Broomfield STANDARDS AND SPECIFICATIONS. This drawing has been reviewed and found to be in general compliance with these STANDARDS AND SPECIFICATIONS and other Broomfield requirements. THE DESIGN AND CONCEPT REMAINS THE RESPONSIBILITY OF THE PROFESSIONAL LANDSCAPE AND IRRIGATION SYSTEM DESIGNER WHOSE SIGNATURE APPEARS HEREON.” Parks Maintenance Superintendent (or Designee) Date 161.02.03 Variance Statement Any proposed variance from these STANDARDS AND SPECIFICATIONS shall be submitted as a written request to the City Engineer. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-32 Following is the Variance Statement (if necessary): The Applicant is requesting a variance from the City and County of Broomfield STANDARDS AND SPECIFICATIONS for the following: 1. (List all applicable items) City Engineer (or Designee) Date 161.03 Plan Details A. Vicinity map B. Key map / sheet index C. Legend containing all symbols used in the plans, usually located on a general or summary plan D. All proposed and existing buried infrastructure on a single plan. For areas where showing all proposed and existing infrastructure provides too much information to be readable at 1” = 50’ scale, provide “blow-up” details with a reduced scale for clarity = 20’ or 1” = 10’ for example). E. North arrow F. Property lines; indicate lots to be served by solid lines; other property lines dotted, all consistent with the project legend G. Ownership or subdivision information H. Street names and easements with width dimensions I. All other pertinent structures. Examples include, and are not limited to, houses, curbs, water courses, etc. J. Utility conflict areas K. Match lines L. References to detail sheets 161.04 Profile Details A. Vertical and horizontal grids with scales B. Ground surface existing (dotted) and proposed (solid) C. Existing utility lines where crossed, or in close proximity. The intent is to provide sufficient information to avoid conflicts with, and damage to existing utilities. Use “blow-up” details at a reduced scale for clarity D. Bench marks. All elevations shall be referenced to one or more of Broomfield’s Global Positioning System (GPS) Monuments. E. Existing manhole invert and rim elevations and identification number(s) F. Use “blow-up” details at reduced scale for clarity ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-33 161.05 Water Supply Construction Details In addition to the above general plan and profile details, all water supply construction plans shall include the following items: A. Proposed water mains – general plan: Provide a summary table with all pipe sizes, material specification reference (i.e. AWWA C900, etc.), pressure class, and approximate quantity by size and pressure class. B. Proposed water mains – plan and profile: 1. Diameter 2. Length 3. Materials and types of joints 4. Location dimensions including existing or proposed C. Fittings: 1. Tees 2. Crosses 3. Reducers 4. Bends 5. Plugs 6. Blow-offs 7. Air/vacuum valves 8. Restraints D. Valves, including existing E. Fire hydrant F. Plan, profile and complete details for off-site transmission mains, pump stations, special valves, and vaults, tanks, etc. G. Standard bedding detail (cross-section) H. Complete material list for each plan and profile drawing I. Sequence of construction 161.06 Sanitary Sewer Construction Details In addition to the general plan and profile details, all sanitary sewer construction plans shall include the following: A. Proposed sanitary sewer mains – general plan: Provide a summary table with all pipe sizes, material specification references (i.e. ASTM C-76, etc.), strength class, and approximate quantity by size and strength class. B. Proposed sanitary sewer mains – plan and profile 1. Diameters 2. Materials 3. Gradients 4. Flow direction arrows 5. Length between manholes C. Proposed manholes, cleanouts, and grease interceptors 1. Stationing and other number designation 2. Elevation of inverts in and out of manhole ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-34 3. Elevation of manhole rim D. Location control dimensions E. Manhole stub-outs F. Proposed future extensions G. Proposed wye and riser connection for services H. Proposed service connections or stub-ins I. Proposed underdrain system plan, profile and detail J. Standard bedding cross-section K. Proposed concrete encasement L. Proposed cut-off walls M. Complete material list for each plan and profile drawing N. Sequence of construction 161.07 Storm Drainage Construction Details In addition to the above general plan and profile details, all storm drainage construction plans shall include the following: A. Proposed storm drainage – general plan: Provide a summary table with all pipe or conduit sizes, material specification reference (i.e. ASTM C-76), strength class, and approximate quantity by size and strength class. B. Drainage area plan; an overall plan of the area under study showing: 1. North arrow 2. Contours (maximum two foot intervals) 3. Location and elevation of City bench marks 4. Property lines 5. Boundary lines (counties, districts, tributary area, etc.) 6. Streets and street names and approximate grades 7. Subdivision (name and location by section) 8. Existing irrigation ditches, including ditch name(s) and ownership(s) 9. Existing drainage ways including gutter flow directions 10. Drainage sub-area boundaries 11. Easements required 12. Proposed curbs and gutters and gutter flow directions 13. Proposed cross pans and flow directions 14. Proposed piping and open drainage ways 15. Underdrain system connections to storm sewer system 16. Flow calculations for and 100-year storm runoff 17. Path of 100-year storm runoff flows 18. Critical minimum finished floor elevations for protection from 100-year runoff 19. Proposed inlet locations and inlet sizes C. Proposed pipes: 1. Plan showing stationing and flow direction arrows 2. Profile 3. Hydraulic Grade Line ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-35 4. Energy Grade Line 5. Pipe diameter, length, material and strength class 6. Grades 7. Inlet and outlet details, including station number, structure designation, dimensions, and invert elevations 8. Manhole details including station number, manhole designation, diameter or dimensions, and invert elevations 9. Typical bedding detail D. Proposed open channels: 1. Plan showing stationing 2. Profile 3. Grades 4. Typical cross section(s) with major and minor storm event water surface elevations 5. Lining details 6. Water surface profile 7. Energy grade line E. Proposed special structures (manholes, headwalls, open channel structures, trash gates, etc.): 1. Plan 2. Elevation 3. Details of design and appurtenances 161.08 Street Construction Details In addition to the above general plan and profile details, all street construction plans shall include the following: A. Key map (sheet index) B. Overlot grading plan C. Typical sections of street construction showing structure, dimensions and pavement design(s) D. Existing irrigation ditches to be removed or piped E. Proposed curb, gutter and sidewalk F. Proposed crosspans including flow direction G. Storm drainage facilities H. Location and elevation of Broomfield GPS Monument bench marks. I. Horizontal curve data, with radii, tangents, points of curvature, intersection and tangency J. Stations and elevations of radius points (back of curb) K. Proposed profile of centerlines and flow lines of curb, and property line with horizontal stationing and percent slope L. Proposed edge drains, including depth, flow direction, discharge locations, cleanout locations, cross-section details M. Stations, and elevations of vertical curve P.C., P.I. and P.T. N. Percent slope of tangent lines ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-36 O. Limits of construction P. Show sufficient existing or future construction to assure continuity of construction Q. Stations and elevations of drainage facilities and other structures R. Street light and underground service cable locations S. Street sign locations 161.09 Area Grading Plan Details All construction plans shall include an Area Grading Plan that includes all pertinent information necessary to construct a structure on each lot. The Area Grading Plan shall follow the approved Drainage Plan. At a minimum, the following shall be included: A. Grading and drainage patterns of existing lots adjacent to subdivision B. Lot types B, Transitional Walkout (WO), Garden Level (GL), etc.) C. Lot corner elevations D. Building top of foundation elevations E. Elevations of ground outside of building to ensure proper drainage away from the foundation F. Elevations and grades of all drainage swales and side lot lines G. Elevations of all high points H. Drainage easements on and adjacent to subject property 161.10 Erosion Control Plan Details All construction plans shall include an erosion control plan as specified in Section 630.00 EROSION CONTROL of these STANDARDS AND SPECIFICATIONS. Erosion control plan drawings shall use the same base map as that for the Drainage Plan and shall include, at a minimum, the following information: A. A general location map with sufficient detail to identify drainage flow entering and leaving the development and general drainage patterns B. Major construction development, irrigation ditches, existing detention facilities, culverts, storm sewers) along the path of drainage C. Basins and divides identified with topographic contours D. Specifications and details for erosion control measures E. A transition grading/drainage plan for construction activities that are phased or sequenced. All residential developments shall require a transition grading plan. 161.11 Cut and Fill Plan All subdivisions shall include a cut and fill plan. The cut and fill plan shall use the same base map as the grading plan. An Earthen Cut/Fill Investigation Report that complies with Section 162.00 Engineering Reports of these STANDARDS AND SPECIFICATIONS shall be submitted for any project with proposed cuts and/or fills greater than three vertical feet. The plan shall include the following information: ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-37 A. Limits of cut and fill B. Depths of cut and fill (spot locations) C. Depth to groundwater at monitoring locations D. Slopes (percent) 161.12 Easement Widths Water, sanitary sewer, and storm sewer easements shall be a minimum of thirty (30) feet in width for buried utility lines up to ten (10) feet deep. For utility lines deeper than ten (10) feet, the easement width shall be calculated according to the formula shown in the Detail Drawings. 161.13 Specifications and Support Documentation The following items shall also be included with submitted construction plans: A. Reference on plans to Broomfield STANDARDS AND SPECIFICATIONS B. Reference on plans to other agency standards and specifications that are required or proposed C. Where reference to other commonly available standards and specifications shall not suffice, copies of specifications are to be provided D. Copies of written approval from other affected agencies as required E. Where work shall occur outside of the boundaries of the project (over lot grading, for example), copies of written approval from the adjoining private property owners shall be provided F. Soils and other test data and design calculations for street structural sections, drainage facilities and other appurtenances as required G. Digital copy of all reports, including graphics. 161.14 Irrigation and Landscape Specifications and Support Documentation The following requirements apply for submitted irrigation and landscaping plans: A. Submit sets of 24” x 36” and set of 11” x 17” scaled plans. B. Include ownership/dedication, development responsibility and maintenance responsibility information for each tract and outlot (on the coversheet). Specify acreages. C. Include grading plans. D. Show property lines. Property lines for tracts and outlots to be maintained by Broomfield shall be staked, and the stakes shall be maintained by the Developer or Contractor until Construction Acceptance of the public irrigation and landscaping improvements. E. Show irrigation and landscaping to be maintained by Broomfield on separate plan sheets from irrigation and landscaping to be maintained by a private entity, such as a Homeowners Association (HOA) or a property management company. If irrigation and landscaping owned by Broomfield is to be maintained by a private entity, it shall be shown on the plans with red lines and text. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-38 F. Include a signature box on the coversheet for approval by the Superintendent of Parks or designee. G. Include mower access ramps for median islands. H. Provide engineering shop drawings for all park structures, including benches, trash cans, shelters, playgrounds, backstops etc. I. Specify playground suface(s). J. Denote sidewalk radii. K. Design sidewalks to be flared at intersections. L. Include all applicable Detail Drawings from these STANDARDS AND SPECIFICATIONS. 161.15 Irrigation Construction Details In addition to general plan and profile details, all irrigation construction plans shall include the following items: A. Bold line types for irrigation and lightened line types for landscaping B. Zone information, including clock letters; zone numbers; valve, head and nozzle specifications; the number of heads per zone and the precipitation rate in GPM/GPH per zone If irrigation is not installed within one year of the date plans are approved by Broomfield, the Developer or Contractor may be required to re-submit irrigation plans to Broomfield for approval. 161.16 Landscape Details In addition to the above general plan and profile details, all landscaping plans shall include the following items: A. Plant ledger B. Plant counts C. Sightline triangles based on street speed limits D. Existing street lights, utility boxes, manholes and street signs E. Bold line types for landscaping and lightened line types for irrigation F. Delineated native areas and manicured areas G. Edger along bed areas adjacent to turf areas H. Mulch type (rock, cobble, wood mulch etc.) I. No small, angular areas of turf J. Drought tolerant bluegrass in passive parks and R.O.W. 162.00 Engineering Reports All engineering reports shall include on the title page: the type of report (preliminary or final); the project name; the preparer’s name, date, and firm; and P.E. seal of preparer. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-39 Preliminary and final engineering reports shall be organized to follow the general outline of required topics presented in the following sections. 162.01 Preliminary Reports The following preliminary reports shall accompany all PUD and preliminary plat applications: A. Utility Report (2 copies) B. Drainage Report (2 copies) C. Traffic Analysis Report (3 copies) D. Geotechnical Studies (2 copies) E. Earthen Cut/Fill Investigation Report (2 copies) F. Additional reports as required by the Broomfield Municipal Code G. A digital copy, in Acrobat Portable Format (pdf), that is identical to the hardcopy of all above reports and graphics shall be submitted. 162.01.01 Preliminary Utility Report Requirements Preliminary utility reports shall include the following information and data as a minimum: A. Sanitary Sewer 1. Layout and connection(s) to the Broomfield sanitary sewer system 2. Average and peak flow rate calculations B. Water System 1. Layout and connection(s) to the Broomfield water system 2. Potable water demand peak and average rate calculations 162.01.02 Preliminary Drainage Report Drainage report calculations and supporting data required as set forth herein shall be prepared in accordance with the UDFCD Urban Storm Drainage Criteria Manual. A preliminary drainage report shall include as a minimum, the following: A. General Information: 1. A map showing project location, description of the property, acreage, topography, identification of major drainageways involved, proposed type of development, access and maintenance responsibility, identification of wetlands and a reference to any flood hazard area delineation study and Drainage Outfall System Master Plan applicable to the site 2. A map of the tributary drainage basin determining the location and magnitude of flows from upstream of the site based on current development or zoning, which ever provides the highest runoff volumes 3. A conceptual drainage plan showing how intercepted and on-site flows shall be received and transported 4. Designated points of discharge from the site, accompanied by a general analysis of how existing facilities shall handle this discharge ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-40 5. Required rights-of-way for drainage easements and detention areas 6. A discussion of how site characteristics (soils, vegetation, erodibility) shall influence both wind and water erosion 7. A general discussion of the type of erosion control program necessary to prevent sediments from leaving the site B. Hydraulic Calculations: 1. Historic and proposed initial and major storm run-off quantities from the site under development. Evaluation of the historic drainage for the initial and major storm shall include: a. Basin length, slope, time of concentration, intensity (show intensity duration curves used), and flow rates. The evaluation of proposed run-off quantities shall be based on the developer’s plans for the site. An evaluation shall be performed for the same items listed for historic drainage to the extent that they are known or can be estimated. 2. Storm Water Detention: a. Storm water storage volume required b. Location of storage areas. The storage areas shall be shown and designated. If the ultimate land use of a parcel is not known, the storage volume required shall be numerically written with a statement designating how the required storage is to be apportioned as parcels of property are sold off for the ultimate development. 162.01.03 Preliminary Traffic Analysis Report Required information for the preliminary traffic report shall include, but not be limited to the following: A. Land use, site and study area boundaries B. Existing and proposed site uses C. Existing and proposed roadways and intersections D. Existing and proposed roadways and intersection capacities and volumes E. Trip generation and design hour volumes F. Trip distribution G. Trip assignments H. Existing and projected traffic volumes I. Levels of service of all effected intersections for the design hour J. Future traffic impact analysis K. Short term horizon - one year after occupancy L. 20-year planning horizon (DRCOG 20-year planning horizon) 162.01.04 Preliminary Geotechnical Report Requirements Geotechnical and soils investigation studies are required for foundation design, pavement design, earthen cut/fill analysis, and over excavation and compaction for structures. These categories ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-41 may be combined into one report when the purpose of the investigation includes these facets of design. Each topic shall be presented as a “stand alone” chapter in the report. A preliminary geotechnical report shall include the following information at a minimum: A. General Information: 1. Past and present land uses and features 2. Proposed use of the land when developed 3. Surface drainage characteristics 4. A general geologic report on the area and a discussion of the soil profiles and subsurface features 5. Potential areas of slope instability B. Unusual Land Uses and Conditions: Preliminary report shall identify all unusual land uses such as landfills, open dumps, wetlands, leach fields, areas of natural springs, faults, mines, etc. These shall be presented in a written and graphical format of suitable scale. C. Earthen Cut/Fill Investigation: 1. Earthen Cut/Fill Analysis: Refer to Broomfield Municipal Code Chapter 14-04-040 for all report requirements. Preliminary report shall identify grading of cuts and fills exceeding thicknesses of three feet on the property. The report shall define depths to groundwater prior to and after proposed grading. The report shall also identify the soil types, their density or consolidation state, ditches, utilities, and structural and morphological features such as fractures, slip planes, deformations, and/or hummocky topography, which indicate previous or potential land sliding, and any other potential unique conditions that could cause instability. 2. Over Excavation and Compaction for Structure Development: Preliminary report shall identify swell potential on the site and propose an established goal, method and procedure for minimizing and evaluating the risk to foundations, slabs on grade, and other flatwork in accordance with the foundations risk analysis required by the Uniform Building Code and as amended by the City and County of Broomfield. 162.02 Final Engineering Reports The following final reports shall accompany all site development plan and final plat applications: A. Utility Report (2 copies) B. Drainage Report (2 copies) C. Traffic Analysis Report (3 copies) D. Geotechnical Studies (2 copies) E. Earthen Cut/Fill Investigation Report (3 copies) F. Construction Traffic Routing Plan (2 copies) G. Additional reports as required by the Broomfield Municipal Code H. A digital copy, in Acrobat Portable Format (pdf), that is identical to the hardcopy of all above reports and graphics shall be submitted. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-42 162.02.01 Final Utility Report Final utility reports shall include the following information and data as a minimum: A. Sanitary Sewer 1. Layout and connection(s) to the Broomfield sanitary sewer system 2. Average and peak flow calculations 3. Maximum and minimum slope and velocity 4. Available existing capacity 5. Master plan map (24” x 36” preferred), drawn to a standard engineering scale, showing existing and proposed facilities, as well as all pertinent geographic and infrastructure features for the area around, and including, the proposed development B. Water 1. Layout and connection(s) to the Broomfield potable water system 2. Potable water demand (peak and average) 3. Fire flow demand 4. Peak instantaneous demand and meter sizing 5. Available pressure and capacity 6. Irrigation water demand. Note whether potable or reclaimed water is proposed for irrigation use. If connection to Broomfield’s reclaimed water system is proposed, provide a separate report containing all items listed for the potable system, except fire flow demand, regarding the use of Broomfield’s reclaimed water for irrigation. Include information demonstrating that the reclaimed water system has sufficient capacity to include the proposed use. 7. Network model of system serving development in both written format and digital format. The digital model shall be integrated with Broomfield’s water model, and the written discussion shall detail the impacts to the existing Broomfield system. 8. Master plan map (24” x 36” preferred), drawn to a standard engineering scale, showing existing and proposed facilities, as well as all pertinent geographic and infrastructure features for the area, around and including the proposed development 162.02.02 Final Drainage Report Drainage report calculations and supporting data required as set forth herein shall be prepared in accordance with the UDFCD Urban Storm Drainage Criteria Manual. A final drainage report shall include as a minimum, the following: A. Introduction: 1. Site Location (include a map at a useable scale) a. City, county, street grid b. Adjacent development 2. Site Description ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-43 a. Acreage b. Existing topography, ground cover, and use c. A discussion of how site characteristics (soils, vegetation, erodibility) shall influence both wind and water erosion 3. Existing drainage facilities, major channels, flood hazard zones, irrigation ditches, location of wetlands 4. Proposed project description 5. Flood hazard and drainage studies relevant to site B. Historic Drainage System: 1. Major Basin: a. Relationship to major basin channel b. Major basin drainage characteristics, topography, runoff 2. Sub-Basin and Site Drainage: a. Initial and major storm b. Offsite flows c. Existing drainage patterns: channelized or overland flow; volumes; points of discharge from site; effect of historic flows upon adjacent properties C. Proposed (Developed) Drainage System: 1. Criteria: a. Size of basin and subbasin b. Hydrologic method c. Design storm frequencies (initial and major) 2. Runoff: a. Developed flow rates and paths b. Erosion control methods for both high and low flow conditions 3. Detention: a. Volumes required and provided for major and minor storm events b. Release rates and method of release for major and minor storm events c. Excess storm water passage d. Depths of ponding in parking areas 4. Streets: a. Depth and velocity of flow for initial and major storms. b. Storm drainage system 5. Open channel flow: a. Type of channel (lining) b. Maximum depth and velocity c. Sediment control d. Erosion control methods for both high and low flow conditions 6. Storm sewers and culverts D. Rights-of-way Requirements: 1. Boundaries 2. Present and future ownership 3. Access and responsibility for maintenance ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-44 E. Analysis of Upstream and Effect: 1. Include changes in flow depth, stream velocity, and erosion rates to the next parcel of property under separate ownership, both upstream and Similar analysis shall be preformed and reported for all parcel(s) between the subject property and a recognized channel capable of handling the flow from the site being analyzed. F. Conclusions: 1. Discuss impact of proposed improvements. Discussion shall include benefits and adverse impacts with solutions to mitigate impacts. 2. Compliance with FEMA regulations for areas in the flood hazard zone. G. Detailed Calculations (Appendices): 1. Runoff (historic and developed) a. Separate time of concentration (Tc) for each design point (Rational Method) b. Runoff coefficient or permeability coefficient from Table 400-2 c. Existing drainage facilities carrying flows-shall include flow for entire tributary area for each design point d. Irrigation ditch flows 2. Detention: a. Storage Volumes required and provided b. Peak inflow to detention ponds for initial and major storms c. Peak discharge from detention pond based on outlet structure design for initial and major storms d. Outlet structure type/design e. Head at entrance f. Emergency overflow release design 3. Streets (refer to Section 6 of the Streets Chapter of the Urban Drainage Criteria Manual): a. Depth and velocity of flow for both initial and major storm. b. Inlet capacities and depths at inlets 4. Open Channel Flow: a. Roughness coefficient b. Trickle channel c. Depth and velocity for initial and major storms d. Channel protection e. Minimum freeboard f. Hydraulic grade line 5. Hydraulic Structures (pipes, culverts, inlets, etc.): a. Culvert capacity using standard nomographs b. Storm sewer capacity at each design section c. Inlet capacity d. Flow depth or headwater depth at inlet e. Drops f. Weirs g. Streets, gutters, and crosspans ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-45 162.02.03 Final Traffic Analysis Report The final traffic analysis report shall include, but not be limited to the following: A. Site location and study area boundaries B. Existing and proposed site uses C. Existing and proposed roadways and intersections D. Existing and proposed roadways and intersection laneage, capacities and volumes E. Trip generation and design hour volumes F. Trip distribution G. Trip assignments H. Existing and projected traffic volumes I. Critical lane capacity analysis, where required J. Traffic signal analysis including warrant analysis and progression analysis with existing and proposed signal locations K. Levels of service of effected intersections for the design hour L. Traffic accident investigations of existing conditions and what effect proposed development shall have M. Parking lot analysis and traffic circulation analysis, if necessary, in commercial and industrial areas N. Future traffic impact analysis: 1. Short term horizon - one year after occupancy 2. 20-year planning horizon (DRCOG 20-year planning horizon). O. Traffic signage and striping plan P. Compliance/deviations from Broomfield’s latest transportation master plan Q. Sight obstructions, visibility and line of site analyses R. Master plan map (24” x 36” size preferred), drawn to a standard engineering scale, showing existing and proposed facilities, as well as all pertinent geographic and infrastructure features for the area around, and including, the proposed development 162.02.04 Final Geotechnical Report Geotechnical and soils investigation studies are required for foundation design, pavement design, earthen cut/fill analysis, and overexcavation and compaction for structures. These categories may be combined into one report when the purpose of the investigation includes these facets of design. Each topic shall be presented as a “stand alone” chapter in the report. A subsurface investigation for foundation and/or pavement design shall include the following information and data as a minimum: A. General Information: 1. Past and present land uses and features 2. Proposed use of the land when developed 3. Structure type 4. Historic characteristics of groundwater for the area 5. Surface drainage characteristics ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-46 6. A general geologic report on the area and a discussion of the soil profiles, subsurface features and bedrock characteristics 7. Potential slope instability based on proposed cuts and fills. Quantify the potential settlement to structures, roads, utilities and other improvements in fill areas and discuss proposed mitigation techniques. B. Investigation Details: 1. Type of equipment used in obtaining data 2. Date of drilling 3. Boring logs which show: the elevation of the existing ground; the elevation of the top of each soil stratum encountered and the soil classification of each stratum encountered; the water level at the time of boring and the level at a later date; and standard penetration test results for each soil stratum. Each hole shall be referenced to a fixed benchmark. 4. A sketch of the tested area accurately showing the locations of the borings C. Site Conditions/Foundation Design: 1. Specific information including swell potential of the soil and the effect on foundations 2. Recommendations regarding foundation types and any special procedures that may pertain to construction 3. The effect of ground water on construction and methods to deal with any problems that may exist 4. Recommendations regarding allowable soil bearing pressures and unconfined shearing strength 5. Methods of prevention of swell and shrinkage of expansive soils and minimizing their effect on structures 6. Recommendations regarding pavement design, including pavement thickness, subgrade stabilization, locations for edge drains and twenty (20) year design life criteria 7. Natural moisture content of the soil strata 8. Specifications for any unusual or special construction materials required D. Unusual Land Uses/Conditions: 1. Identify all unusual land uses such as landfills, open dumps, wetlands, leach fields, areas of natural springs, faults, mines, etc. These shall be presented in a written and graphical format of suitable scale. 162.02.05 Earthen Cut/Fill Investigation Report Refer to the Broomfield Municipal Code Chapter 14-04-040 for all report requirements. The following information shall be included in the Earthen Cut/Fill Investigation Report for any proposed vertical elevation change greater than three feet. A. Existing topographic information B. Existing groundwater depths, one soil boring in any area requiring a cut of 5,000 cubic yards or greater ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-47 C. Ditches, utilities, structural and morphological features such as fractures, slip planes, deformations, and/or hummocky topography that indicate previous or potential land sliding, and any other potential unique conditions that could cause instability D. Proposed topographic information map identifying cut and fill areas with color identification at three-foot increments E. Proposed goals/reasons to modify existing topographic conditions. The City and County of Broomfield Master Plan requires sensitivity to the existing topographic conditions and shall not allow artificial mounding to enhance views or create walkout lots. F. Design and construction procedure and design for earthen cut and fill areas shall include at a minimum: 1. Full-time geotechnical engineering observation and testing 2. Clearing the job site of all surface material including trees, brush, and rubbish prior to work 3. Scarifying any area to be filled eliminating any opportunity for the excavated surface either to become a weak slip plane for ground displacements, or to obscure fractures, slip planes and any other structural features that could cause instability 4. Soil benching limits and methods in fill areas to eliminate any potential for the development of instability along actual or potential slip planes in excessively steep slopes 5. Surface and subsurface water routing to eliminate potential saturation of material in any cut or fill areas 6. Compaction requirements in fill areas identifying material types, moisture requirements, maximum fill layer thicknesses prior to compaction, and compaction requirements 7. Material requirements for placement of fill, if soil needs to be graded and stockpiled for use in specific areas 8. Moisture content and density criteria for the specific materials and loading conditions associated with fills beneath foundation footings, basements, floor slabs, and near surface flatwork 9. Compaction equipment including recommendation for types of equipment and procedure for use on the site 10. Testing requirements including frequency. Moisture content and density testing shall be done at varying depths in fill areas to assure proposed construction methods are successful 11. Seasonal limitations on placement of fill material 12. Summary report of the above information bound and submitted to Broomfield at the completion of the work. The summary report shall include an as-built “area grading plan” at a useable scale that shows cut areas, fill areas, cut and fill elevations, both surface and buried cut and fill slopes, and other site specific information as required. G. Construction procedure for over-excavation and recompaction for structures shall include the following at a minimum: 1. Report detailing the goal and desired outcome of the work ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-48 2. Excavation shall extend at least twenty (20) feet on all sides outside of proposed building envelope to protect structure and future concrete flat work 3. Guidelines for work including items suggested and required in item above. 4. Slab on grade risk analysis prior to the earthen cut and fill on 30 percent of the lots broadcast over the work area 5. Slab on grade risk analysis following over-excavation and recompaction for structure lots as required by the Uniform Building Code and as amended by Broomfield 6. Summary report which includes: a. Project goal b. Prior to over-excavation and recompaction, slab on grade risk analysis c. Project guidelines and testing results d. Following over-excavation and recompaction, slab on grade risk analysis e. Summary table comparing slab on grade risk analyses before and following over-excavation and recompaction. f. Certification by Project Geotechnical Engineer that: earthen cut/fill requirements were followed; all requirements have been met; and any lots which may be allowed to have slabs on grade have been identified 7. Procedures for structure construction to ensure that material removed from an over-excavation and recompaction area for foundation construction is replaced to the requirements for item above, and a checklist is developed and certified by the builder prior to issuance of the certificate of occupancy that material around the foundation has been replaced to the requirements for item above 8. The builder shall create a monitoring program for a minimum of ten (10) percent of the structures on the site. The monitoring program shall, at a minimum, measure slab to beam movement and provide visual inspection of flat work during the builder warranty period for the structure. The details and data of the monitoring program shall be available upon request. 162.02.06 Construction Traffic Routing Plan Construction traffic within Broomfield shall proceed over a truck route or on such routes as are designated by the City Council at the time the development is approved. A construction traffic routing plan shall be provided along with the Final Engineering Reports at the time approval for the development is sought. ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-49 170.00 DEFINITIONS AND ABBREVIATIONS 171.00 Definitions Whenever the following terms are used in these STANDARDS AND SPECIFICATIONS, they shall be defined as follows: A. Approved By Broomfield - Shall mean approved by the City Engineer or designee. B. Bonds - Performance, labor or material payment bonds, irrevocable letters of credit and other instruments of security furnished by the developer or Contractor and his surety in accordance with the Subdivision Agreements or other Agreements with Broomfield. C. City or Broomfield - The City and County of Broomfield acting through the Community Development Director or Public Works Director or authorized designee. D. City Code - The latest, officially adopted Broomfield Municipal Code. E. Common Facilities - Facilities serving or held in common title by the owners or occupants of two or more dwelling units or commercial or industrial enterprises and covered by these STANDARDS AND SPECIFICATIONS. F. Contractor - A person that undertakes to construct, alter, move, demolish, repair, replace, excavate or add to any public or private improvements or common facilities covered by these STANDARDS AND SPECIFICATIONS. G. Days - Calendar days unless otherwise specified. H. Developer - The person or persons legally responsible to Broomfield for construction of improvements. For Capital Improvement Projects, Broomfield is the Developer. I. Director of Public Works - Broomfield's Director of Public Works or his authorized designee. J. Engineer - The City Engineer or authorized designee. K. Equipment - All machinery and equipment, together with the necessary supplies for upkeep and maintenance, and tools and apparatus necessary for the proper construction and acceptable completion of the work. L. gpcd - Gallons per capita per day M. gpm - Gallons per minute N. GRC - Galvanized rigid conduit. O. Inspector - The authorized representative of the Engineer assigned to make detailed inspections of construction work to assure compliance with these STANDARDS AND SPECIFICATIONS and the plans as approved by Broomfield. P. MGD - Million gallons per day Q. Plans - Profiles, cross sections, and drawings, and supplemental drawings, approved by Broomfield, which show the locations, character, dimensions or details of the work. R. psi - Pounds per square inch ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-50 S. Public Improvements - Improvements under the ownership or control of Broomfield including but not limited to the components of the water system, sewer system, street system, park system, and storm drainage system covered by these STANDARDS AND SPECIFICATIONS. The term also includes similar improvements being built in connection with a subdivision, which are intended to be dedicated to Broomfield. T. PVC (Polyvinyl Chloride) - A strong, tough plastic based on resins made by the polymerization of vinyl chloride or copolymerization of vinyl chloride with minor amounts (not over 50%) of other unsaturated compounds, which are fashioned into sheets, tubing, pipe, conduit, containers, insulation, etc. U. Work Hours - Seven A.M. until seven P.M. of the same day, Monday through Friday. V. Special provisions - Special directions, provisions or requirements peculiar to the project and not otherwise detailed or set forth in the specification. W. Standards and Specifications - The body of directions, provisions, and requirements contained herein, describing the method or manner of construction and the qualities and quantities of the materials and work to be furnished. X. Substantial Completion - That date, as determined by the City Engineer, when the construction project or a specified part thereof is sufficiently completed, in accordance with these STANDARDS AND SPECIFICATIONS, so that the project or a specified part can be utilized for the purposes for which it is intended. Y. Supplier - An individual, firm or corporation having a direct contract with a developer or Contractor or with any subcontractor for the manufacture or furnishing of any part of the supplies and/or materials to be used at or incorporated in, work at the site. 172.00 Abbreviations A. AASHTO - American Association of State Highway and Transportation Officials. B. ACI - American Concrete Institute C. AISC - American Institute of Steel Construction D. ANSI - American National Standards Institute E. APWA - American Public Works Association F. ASA - American Standards Association G. ASTM - American Society for Testing and Materials H. AWG - American Wire Gauge I. AWWA - American Water Works Association J. BPR - Bureau of Public Roads K. CDOT - Colorado Department of Transportation L. FCC - Federal Communications Commission M. IMSA - International Municipal Signal Association N. IPCEA - Insulated Power Cable Engineers Association O. ITE - Institute of Transportation Engineers P. NEC - National Electrical Code as approved by the American Standards Assoc. Q. NEMA - National Electrical Manufacturers Association R. NFPA - National Fire Protection Association ---PAGE BREAK--- TITLE, SCOPE AND GENERAL CONDITIONS SECTION 100 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 100-51 S. UBC - Uniform Building Code T. UDFCD - Urban Drainage and Flood Control District U. UPC - Uniform Plumbing Code V. UL - Underwriters Laboratories, Inc. W. USDA - United States Department of Agriculture 173.00 Terms Whenever, in these STANDARDS AND SPECIFICATIONS, the words “as ordered”, “as directed”, “as required”, “as permitted”, “as allowed”, or words or phrases of like import are used, it shall be understood that the order, direction, requirement, permission, or allowance of Broomfield is intended. Similarly, the words “approved”, “reasonable”, “suitable”, “acceptable”, “approved”, “properly”, “satisfactory”, or words of like effect and import, unless otherwise specified herein, shall mean approved, reasonable, suitable, acceptable, approved, proper, or satisfactory in the judgment of Broomfield. Whenever, in these STANDARDS AND SPECIFICATIONS, the words “City Engineer” or “Director of Public Works” are used, it shall be understood that Broomfield employee named therein shall be whoever is designated by the City Manager or whoever may be the authorized designee of the City Engineer or the Director of Public Works. 174.00 Specifications by Reference All specifications, i.e., ASTM, ACI, etc. made a portion of these STANDARDS AND SPECIFICATIONS by reference shall be the latest edition or as approved by the Broomfield City Council and contained in the Broomfield Municipal Code. Throughout these STANDARDS AND SPECIFICATIONS, any section referenced shall be deemed to include all sub-sections of that section. Any portion of these STANDARDS AND SPECIFICATIONS that may be applicable to any other section, whether referenced or not, shall apply. ---PAGE BREAK--- ORIGINAL SIGNED DRAWINGS ARE ON FILE AT THE CITY & COUNTY OF BROOMFIELD!!! ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- City and County of Broomfield PUBLIC/PRIVATE IMPROVEMENT PERMIT Page 1 of 2 Name of Applicant (include contact person Address: 24 hour emergency phone: Date: Company: Project Manager: Contractor Address: Phone: License Address (include subdivision name:) Description of Work: Construction Drawings: Grading Plan: Traffic Control Plan: Drainage Plan: Geotechnical Report: Truck Routing Plan: State Highway Utility Permit: State Highway Access Permit: ROW/Easement Dedications: Railroad/Ditch Company Permission: Applicant Information Contractor Information Proposed Construction or Work Activity Temporary Construction Equipment to be located in R.O.W. The following are attached with this Permit Application for Review From : To: Requested dates to perform the proposed work Permit Number: Storm Drainage Sanitary Sewer Water Mains Street Surface Parks $ 0.26/L.F. $16.00/EA. $ 0.19/L.F. $ 0.08/S.Y. $16.00/EA. $0.26/L.F. $16.00/EA. $0.26/L.F. $3.20/EA. $3.20/EA. $3.20/EA. $0.16/S.Y. $0.16/S.Y. $0.03/S.Y. PERMIT QUANTITIES AND FEES Park Access Permit: Pipes: Inlet Structures: Earth Channels: Detention Ponds: Manholes: Pipe: Valve: Fire Hydrant: Blow Offs: Pipes: Manholes: Asphalt: Concrete: Parks: Unit Fee Quantity Unit Fee Quantity Fee Fee Inspector: 24 hour emergency phone: Oil / Gas Well Abandon. Cert.: Permit Expiration Date: Warranty: Renew: New: Estimated Construction Cost: (Office Use Only) ---PAGE BREAK--- City and County of Broomfield PUBLIC/PRIVATE IMPROVEMENT PERMIT Page 2 of 2 No Fee : Concrete $0.19/L.F. $0.19/L.F. $0.19/L.F. $0.19/L.F. Dry Utilities: Bore only. Do not cut street pavement. Preconstruction Meeting is required before work may start. PERMIT APPROVAL CONDITIONS Call Engineering Inspection before any work begins (303) 438-6378 Maintain 10' horizontal separation from existing utilities and 18" at all crossings. Street pavement is less than 5 years old. Special requirements apply: Use #57 or #67 ( 3/4" - 1 1/2") fractured rock or flow-fill . Flow-fill required. Mix design must be approved prior to use. Sidewalk removal area needs to be cold patched if concrete is not immediate. Staff Approval: Approval Date: (For City Use Only) PERMIT QUANTITIES AND FEES (continued) All work must be done per approved engineering plans and Broomfield Standards and Specifications. x No work shall proceed beyond the end date specified on the permit without approval from the City Engineer. x The Public/Private Improvement Permit must be on the job site at all times. x All disturbed areas including landscape must be restored to original or better conditions within two weeks of job completion. (weather permitting) x All traffic control must be in place before work begins. x Traffic Control plan must meet MUTCD Standards. x x Bikepath/sidewalk cannot be closed during construction. Infra-red heat treatment of patch required. Sidewalks: Cross Pans: Drive Cuts: Curb/Gutter: Certificate of Tapability required before tapping main. Other Traffic Eng. Approval: Approval Date: Other Unit Fee Quantity All work shall be limited to Mon. - Fri. 7:00 AM to 7:00 PM unless written authorization from City Engineer is obtained. x Date Paid: Fee The Applicant and Contractor agree to be bound by the provisions of this permit, the Broomfield Standards and Specifications, the Manual on Uniform Traffic Control, approved plans, or any other Ordinance, Law, Rule or Regulation, and that this Permit shall be invalid if, during the performance of the work, a violation of any of the above ensued. By signing this Public/Private Improvement Permit, the Applicant accepts full responsibility for damage done to public or private property (this may include, but is not limited to, street pavement, sidewalk, curb and gutter, landscaping, and utilities); and further understands that he/she will be held financially liable for all required repair work. Applicant's Signature: City Engineer's Approval: Date: Date: Inspection Total ($15 min): Plan Review Fee (50% of Insp., $5 min): Total: Street Cut fee: $0.00 Contractor shall provide certification in accordance with Ord. No. 1698: Oil and Gas Wells Production Site Abandonment. Construction Inspection Close-out: Date: All exploratory potholing excavations shall be repaired per Broomfield Standards and Specifications. x Rev. 1/9/2007 (Office Use Only) Other fee: Area 80 Acres Contract Inspection Fee (area 80 acres $0.00 ---PAGE BREAK--- The City and County of Broomfield GRADING PERMIT Grading Permit Number: Contractor: Date: Applicant name: Property Owner: Development Name: Estimated volume of excavation/fill: Work Begin: Work End: Plan review performed by: Date: Drainage report reviewed by: Date: Date: Geology report reviewed by: Plan Review Fee: $0.00 Grading Permit Fee: $0.00 Permit Fee: $0.00 CY ALL WORK SHALL COMPLY WITH CURRENT BROOMFIELD STANDARDS AND SPECIFICATIONS When required: A grading permit shall be required as specified in the Appendix, Chapter 33, Section 3306, of the Uniform Building Code. Requirements: Each grading permit application shall be accompanied by the following information, as required in Section 3309.4 of the Uniform Building Code unless exempted in writing by the City Engineer: 1. Two sets of plans showing: vicinity map, property limits, accurate contours, detailed plans of all surface and subsurface drainage devices, finish contours, erosion control plans and details. 2. Drainage Report 3. Geology Report 5. Copy of Construction Stormwater Permit from the Colorado Department of Public Health and Environment (if required). 1. Plan review and grading permit will be valid for a maximum of one year. 2. If grading is in excess of 5000 CY, consult additional requirements in Section 3309.3 and 3317 of the Uniform Building Code. 3. No construction debris will be allowed in the fill. All existing debris on site will be stockpiled separately for removal. 4. Erosion control measures must be installed and maintained as shown on the approved erosion control plans. 5. The Contractor shall provide fugitive dust control arising from operations. The Contractor shall dustproof the work area by sprinkling with water or a water/calcium chloride mixture where necessary. 6. No dirt or mud will be left on the streets at the end of each operating day. No equipment will be allowed to be loaded or parked on any paved roadway. 7. Construction traffic will conform with routes as stated in Broomfield Ordinance No. 1159. 8. Contractor shall conform to requirements of the Construction Stormwater Permit. 9. Contractor shall comply with all federal and state environmental laws. Contractor shall make every effort to relocate wildlife prior to grading. All wetlands shall be protected by construction fencing during grading. PERMIT CONDITIONS Phone: Phone: License: 6. Copy of all other applicable federal and state permits. 10. Other: Disturbed Area: Ac. Site Address: Property Owner Contractor: City Engineer: 7. Certification in accordance with Ord.No. 1698: Oil and Gas Wells Production Site Abandonment. Paid Inspector: 4. Earthen Cut/fill Analysis Report and Construction Procedure (Grading of cuts and fills exceeding thicknesses of 3 feet on the property.) Earthen Cut/Fill Report and Construction Procedure reviewed by: Date: rev. 02/04 ---PAGE BREAK--- TABLE A-33-A---GRADING PLAN REViEW FEES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50cubic yards (38.2 in3) Or less . No fee 51 to 100 cubic yards (44) in3 to 76.5 m3) . $2330 101 to 1,000 cubic yards (77.2 in3 to 764.6 m3) 37.00 1,001 to 10,000 cubic yards (765.3 m3 to 7645.5 in3) 49.25 10,001 to 100,000 cubic yards (7646 .3 m3 to 76455 m3)-$49.25 for the first 10,000cubic yards (76453 m3), plus $24.50 for each additional 10,000 yards (76453 m3) or fraction thereof. 100,001 to 200,000 cubic yards (76 456 in3 to 152 911 m3)-$269 .75 for the first 100,000 cubic yards (76 455 m3), phas $13.25 for each additional 10,000 cubic yards (76453 in3) or fraction thereof. 200,001 cubic yards (152 912 m1) or more-$402 .25 for the first 200,000 cubic yards (152911 m3), plus $7.25 for each additional 10,000 cubic yards(7645 .5 m3) or fraction thereof. Other Fees: Additional plan review required by changes, additions or revisions to approved plans $5030 per hour* (minimum charge-one-half hour) 50r the total hourly cost to the jurisdiction, whichever is the greatest . This cost shall Indude supervision, overhead, equip- ment, hourly wages and fringe benefits of the employees involved. TABLE A-33-B-GRADING PERUfT FEES1 S0cubicyards(38.2m3)orless $2330 Sltol0ocubicyards(40in3to76$m3) 37 .00 101 to 1,000 cubic yards (77.2 m3 to 764.6 m3)-$37.00 for the first 100 cubic yards (763 m3) plus $1730 for each addition- al 100 cubic yards (76.5 in3) or fraction thereof. 1,001 to 10,000 cubic yards (765 .3 rn3 to 76453 m3)-$19430 for the first 1,000 cubic yards (764 .6 in3), plus $1430 for each additional 1,000 cubic yards (764.6 m3) or fraction thereof. 10,001 to 100,000 cubic yards (7646 .3 in3 to 76455 m3)-$325 .00 for the first 10,000 cubic yards (76453 in3), plus $66.00 for each addItional 10,000 cubic yards (7645.5 or fraction thereof. 100,001 cubic yards (76 456 in3) or more-4919.00 for the first 100,000 cubic yards (76 455 in3), plus $3630 for each addi- tional 10,000 cubic yards (7645.5 or fraction thereof. Other Inspections and Fees: 1. Inspections outside of normal business hours $50.50 per hour2 (minimum charge-two bows) 2. Reinspectlon fres assessed under provisions of Section 108.8 $50.50 per ho& 3. tnsnections for which no fee is specifically indicated $50.50 per hour2 (minimum charge-one-half how) 1The fee for a grading permit authorizing additional work to that under a valid permit shall be the difference between the fee paid for the original permit and the fee shown for the entire project. 20r the total hourly cost to the jurisdiction, whichever is the greatest. This cost shall include supervision, overhead, equipment, hourly wages and fringe benefits of the employees involved . ---PAGE BREAK--- The City and County of Broomfield OVER-EXCAVATION PERMIT Over-Excavation Permit Number: Contractor: Date: Applicant name: Property Owner: Development Name: Estimated volume of excavation/fill: Work Begin: Work End: Plan review performed by: Date: Drainage report reviewed by: Date: Date: Geology report reviewed by: Plan Review Fee: $0.00 Grading Permit Fee: $0.00 Permit Fee: $0.00 Date: City Engineer Approval CY ALL WORK SHALL COMPLY WITH CURRENT BROOMFIELD STANDARDS AND SPECIFICATIONS When required: A grading permit shall be required as specified in the Appendix, Chapter 33, Section 3306, of the Uniform Buildi Code. Requirements: Each grading permit application shall be accompanied by the following information, as required in Section 3309.4 the Uniform Building Code unless exempted in writing by the City Engineer: 1. Two sets of plans showing: vicinity map, property limits, accurate contours, detailed plans of all surface and subsurface drainage devices, finish contours, erosion control plans and details. 2. Drainage Report 3. Geology Report 4. Copy of Construction Stormwater Permit from the Colorado Department of Public Health and Environment (if required). 1. Plan review and grading permit will be valid for a maximum of one year. 2. If grading is in excess of 5000 CY, consult additional requirements in Section 3309.3 and 3317 of the Uniform Building Code. 3. No construction debris will be allowed in the fill. All existing debris on site will be stockpiled separately for removal. 4. Erosion control measures must be installed and maintained as shown on the approved erosion control plans. 5. The Contractor shall provide fugitive dust control arising from operations. The Contractor shall dustproof the work area by sprinkling with water or a water/calcium chloride mixture where necessary. 6. No dirt or mud will be left on the streets at the end of each operating day. No equipment will be allowed to be loaded or parked on any paved roadway. 7. Construction traffic will conform with routes as stated in Broomfield Ordinance No. 1159. 8. Contractor shall conform to requirements of the Construction Stormwater Permit. 9. Contractor shall comply with all federal and state environmental laws. Contractor shall make every effort to relocate wildlife prior to grading. All wetlands shall be protected by construction fencing during grading. PERMIT CONDITIONS Phone: Phone: License: 6. Copy of all other applicable federal and state permits. 10. Other: Disturbed Area: Ac. Site Address: Property Owner Contractor: City Engineer: 7. Certification in accordance with Ord.No. 1698: Oil and Gas Wells Production Site Abandonment. Paid Date: Inspector: 5. Over-Excavation and Re-compaction Report and Construction Procedure Over-excavation/ Recompaction Report Reviewed by: Date: rev. 02/04 ---PAGE BREAK--- TABLE A-33-A---GRADING PLAN REViEW FEES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50cubic yards (38.2 in3) Or less . No fee 51 to 100 cubic yards (44) in3 to 76.5 m3) . $2330 101 to 1,000 cubic yards (77.2 in3 to 764.6 m3) 37.00 1,001 to 10,000 cubic yards (765.3 m3 to 7645.5 in3) 49.25 10,001 to 100,000 cubic yards (7646 .3 m3 to 76455 m3)-$49.25 for the first 10,000cubic yards (76453 m3), plus $24.50 for each additional 10,000 yards (76453 m3) or fraction thereof. 100,001 to 200,000 cubic yards (76 456 in3 to 152 911 m3)-$269 .75 for the first 100,000 cubic yards (76 455 m3), phas $13.25 for each additional 10,000 cubic yards (76453 in3) or fraction thereof. 200,001 cubic yards (152 912 m1) or more-$402 .25 for the first 200,000 cubic yards (152911 m3), plus $7.25 for each additional 10,000 cubic yards(7645 .5 m3) or fraction thereof. Other Fees: Additional plan review required by changes, additions or revisions to approved plans $5030 per hour* (minimum charge-one-half hour) 50r the total hourly cost to the jurisdiction, whichever is the greatest . This cost shall Indude supervision, overhead, equip- ment, hourly wages and fringe benefits of the employees involved. TABLE A-33-B-GRADING PERUfT FEES1 S0cubicyards(38.2m3)orless $2330 Sltol0ocubicyards(40in3to76$m3) 37 .00 101 to 1,000 cubic yards (77.2 m3 to 764.6 m3)-$37.00 for the first 100 cubic yards (763 m3) plus $1730 for each addition- al 100 cubic yards (76.5 in3) or fraction thereof. 1,001 to 10,000 cubic yards (765 .3 rn3 to 76453 m3)-$19430 for the first 1,000 cubic yards (764 .6 in3), plus $1430 for each additional 1,000 cubic yards (764.6 m3) or fraction thereof. 10,001 to 100,000 cubic yards (7646 .3 in3 to 76455 m3)-$325 .00 for the first 10,000 cubic yards (76453 in3), plus $66.00 for each addItional 10,000 cubic yards (7645.5 or fraction thereof. 100,001 cubic yards (76 456 in3) or more-4919.00 for the first 100,000 cubic yards (76 455 in3), plus $3630 for each addi- tional 10,000 cubic yards (7645.5 or fraction thereof. Other Inspections and Fees: 1. Inspections outside of normal business hours $50.50 per hour2 (minimum charge-two bows) 2. Reinspectlon fres assessed under provisions of Section 108.8 $50.50 per ho& 3. tnsnections for which no fee is specifically indicated $50.50 per hour2 (minimum charge-one-half how) 1The fee for a grading permit authorizing additional work to that under a valid permit shall be the difference between the fee paid for the original permit and the fee shown for the entire project. 20r the total hourly cost to the jurisdiction, whichever is the greatest. This cost shall include supervision, overhead, equipment, hourly wages and fringe benefits of the employees involved . ---PAGE BREAK--- PAGE GN-1 of 4 GENERAL CONSTRUCTION NOTES 1. DEFINITIONS a. OWNER – Property owner. b. CONTRACTOR – As determined by bid. c. ENGINEER – Professional Engineer of record. d. BROOMFIELD – Authorized representative(s) of The City and County of Broomfield Engineering Division and Public Works Department; the agency of jurisdiction. CONTRACTOR shall have in CONTRACTOR's possession at all times one copy of construction documents stamped and signed by ENGINEER and BROOMFIELD. All work shall comply with the Broomfield Standards and Specifications, 2007 Edition. THE ENGINEERING DESIGN AND CONCEPT REMAINS THE RESPONSIBILITY OF THE PROFESSIONAL ENGINEER WHOSE STAMP AND SIGNATURE APPEAR ON THE CONSTRUCTION DOCUMENTS. CONTRACTOR shall report any discrepancies to ENGINEER and BROOMFIELD immediately. 2. Work Hours a. All work on the project shall be performed during regular work hours, 7:00 A.M. until 7:00 P.M., Monday through Friday. Restricted hours may be included with conditions of the City Council Resolution approving the project, or within the work permit. All work on the project shall comply with Broomfield Municipal Code Chapter 9.36. b. CONTRACTOR shall not perform work outside regular work hours or on Saturday, Sunday or any Broomfield observed holiday without receiving written consent from the City Engineer or designated representative. Request for work outside regular work hours shall be received two business days prior to the proposed date of the work. Refer to Section 150.00 PERMITS AND INSPECTIONS of the Broomfield Standards and Specifications. 3. Preconstruction Meetings a. OWNER shall schedule a preconstruction meeting with Broomfield engineering staff at least 3 business days prior to the start of construction. Those in attendance shall include: • OWNER • ENGINEER • BROOMFIELD • CONTRACTOR • Geotechnical Engineer • Surveyor • Any Other Affected Agencies ---PAGE BREAK--- PAGE GN-2 of 4 b. Construction documents with the BROOMFIELD review stamp and signature shall be distributed at the preconstruction meeting. c. There shall be a separate onsite preconstruction conference with BROOMFIELD Public Works at least 48 hours prior to connecting to existing BROOMFIELD utilities. 4. CONTRACTOR shall restrict construction activity to public right-of-way and areas defined as permanent and/or temporary construction easements, and areas under ownership of OWNER, unless otherwise authorized by the affected property owner and acknowledged by BROOMFIELD. Prior to beginning construction activities, CONTRACTOR shall obtain written agreements for ingress and egress to the work site from adjacent private property owners. Access to any adjacent private property shall be maintained throughout the construction period. 5. CONTRACTOR shall verify accuracy between work set forth on these construction documents and work required in the field. Any discrepancies shall be brought to the attention of ENGINEER and BROOMFIELD prior to start of construction. 6. ENGINEER shall coordinate any proposed changes with Broomfield. 7. CONTRACTOR shall be responsible for the following notifications: a. Utility Notification Center of Colorado, 1-[PHONE REDACTED]. Call two business days prior to digging, grading or excavating for the marking of underground member utilities. i. Location of existing utilities shall be verified by CONTRACTOR prior to construction. CONTRACTOR shall be responsible for location, support, protection and restoration of all existing utilities and appurtenances, whether shown or not shown on the approved construction documents. ii. Providing notification and receiving markings of underground member utilities in no way constitutes permission to perform construction. b. BROOMFIELD at (303) 438-6334 for locates of existing Broomfield utilities, including potable and non-potable waterlines, sanitary sewer lines, storm sewer lines, public irrigation lines and traffic control devices. Call two business days (48 hours) prior to the start of construction. Location of existing utilities shall be verified by CONTRACTOR prior to construction. c. BROOMFIELD utility customers for potential service outages and coordination with BROOMFIELD Public Works for determination of minimum time requirement. BROOMFIELD Public Works shall be notified two business days (48 hours) in advance to schedule an outage. d. BROOMFIELD 24 hours in advance for observations of work in progress. Observation and onsite visits are not to be construed as a guarantee or approval by BROOMFIELD staff of CONTRACTOR's work or contractual commitment. If work is suspended for any period of time after initial start-up, CONTRACTOR shall notify BROOMFIELD 2 business days (48 hours) prior to restart of construction. ---PAGE BREAK--- PAGE GN-3 of 4 e. BROOMFIELD office in the event of an emergency, at (303) 438-6380 during regular work hours or (303) 438-6400 after hours. f. BROOMFIELD at (303) 438-6380 and North Metro Fire Rescue at (720) 887- 8217, Ex. 2221 for any street closures and existing fire hydrants taken out of service, at least 2 business days (48 hours) prior to the start of construction. 8. For development work, OWNER shall obtain at OWNER’S expense, all permits necessary to perform the proposed work. 9. CONTRACTOR shall be responsible for all traffic control during construction: a. CONTRACTOR shall submit traffic control plans to BROOMFIELD for approval prior to construction. b. All signs, striping and traffic control devices shall conform to and placement shall be performed in accordance with the Manual on Uniform Traffic Control Devices (MUTCD), latest edition and CDOT M&S Standards, latest edition. c. Contractor shall be responsible for maintenance and cleaning of traffic control devices. d. CONTRACTOR shall maintain existing pavement markings during construction operations, in conformance with the construction documents and Broomfield Standards and Specifications. e. Removal of existing pavement markings shall be accomplished by a method that does not materially damage the surface or texture of the pavement or existing surfacing. The pavement markings shall be removed to the extent that they are not visible under day or night conditions. 10. When discharging groundwater, all dewatering methods shall be in conformance with all laws and regulations of the State—including obtaining a Colorado Discharge Permit System for Construction Dewatering Wastewater Discharge—and subject to the approval of BROOMFIELD. CONTRACTOR shall take all necessary and proper precautions to protect adjacent properties from any and all damage that may occur from stormwater runoff and/or deposition of debris resulting from any and all work. 11. CONTRACTOR shall restore any disturbed areas to equal or better condition than existed before construction. Drainage ditches or watercourses that are disturbed by construction shall be restored to the grades and cross-sections that existed before construction, unless otherwise shown on the construction documents. 12. CONTRACTOR shall carefully preserve benchmarks, property corners, reference points, stakes and other survey reference monuments or markers. In cases of willful or careless destruction, CONTRACTOR shall be responsible for restorations. Resetting of markers shall be performed under the direction of a Colorado licensed Professional Land Surveyor and as approved by BROOMFIELD. 13. CONTRACTOR shall immediately remove any construction debris and mud tracked onto existing roadways. CONTRACTOR shall repair any excavation or pavement failures caused by the construction. ---PAGE BREAK--- PAGE GN-4 of 4 14. CONTRACTOR shall be responsible for complying with all State and BROOMFIELD dust and erosion control ordinances. Construction vehicles shall use truck routes designated by BROOMFIELD. 15. All concrete and asphalt mixture designs shall be approved by BROOMFIELD prior to placement of concrete and asphalt. 16. Work in public streets shall be performed in a manner that provides minimum inconvenience to adjacent property owners and the general public. 17. All pavement cuts and exploratory potholes shall be repaired as required by BROOMFIELD. 18. No roadway shall be open cut unless approved by BROOMFIELD. 19. OWNER shall submit a paper copy of redlined construction documents to BROOMFIELD prior to the Construction Acceptance Inspection. Refer to Section 200.00 of the Broomfield Standards and Specifications for additional record document submittal requirements. 20. Prior to Construction Acceptance, ENGINEER shall submit a plan of proposed locations for installation of range points to BROOMFIELD for approval. Range points shall be set in accordance with the requirements of Articles 51 and 53 of Title 38 of the Colorado Revised Statutes, and as required by the Bylaws and Rules of Procedure of the Colorado State Board of Registration for Professional Engineers and Professional Land Surveyors. Range points shall be set in valve boxes that comply with the Broomfield Standards and Specifications with box lids marked “SURVEY POINT”, or as otherwise approved by the City Engineer. SUPPLEMENTAL CONSTRUCTION NOTES (Prepared by OWNER, Including Variances) ---PAGE BREAK--- ACCEPTANCE PROCEDURES SECTION 200 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 200-52 SECTION 200 ACCEPTANCE PROCEDURES 201.00 GENERAL CONDITIONS 210.00 211.00 Construction Acceptance 53 211.01 Construction Acceptance 53 211.02 Record 54 211.03 Application for Construction 55 211.04 Memorandum of Construction Acceptance 56 211.05 Duration of Warranty Period for Public Improvements and Facilities.............. 56 211.06 Warranty Performance 57 211.07 Construction Acceptance Maintenance Responsibility for Public Improvements and 57 212.00 Final Acceptance by City Council and Release From 58 212.01 Final Acceptance 58 212.02 Final Acceptance Work for Roadways 58 212.03 Final Acceptance by City 59 220.00 CONSTRUCTION AND FINAL ACCEPTANCE FOR CAPITAL IMPROVEMENT ---PAGE BREAK--- ACCEPTANCE PROCEDURES SECTION 200 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 200-53 SECTION 200 ACCEPTANCE PROCEDURES 201.00 GENERAL CONDITIONS Refer to Section 100 TITLE, SCOPE AND GENERAL CONDITIONS of these STANDARDS AND SPECIFICATIONS for additional requirements that apply to all projects within Broomfield. 210.00 SCOPE Broomfield generally accepts public improvements associated with the following types of projects: A. Residential Development B. Commercial / Industrial Development C. Capital Improvement Projects Broomfield shall issue two types of acceptances for public improvements: Construction Acceptance, which begins the warranty period and Final Acceptance, which ends the warranty period. Private improvements, such as parking lots or landscaping owned and maintained by a Homeowners Association or property management group, shall be constructed to comply with all applicable Broomfield STANDARDS AND SPECIFICATIONS. Private improvements shall not be accepted by Broomfield. 211.00 Construction Acceptance CONSTRUCTION ACCEPTANCE IS ISSUED BY THE CITY ENGINEER. 211.01 Construction Acceptance Inspection Upon completion of construction of public improvements associated with utilities, roadways, landscaping and/or irrigation, the Developer shall conduct an inspection and shall make all necessary corrections. Prior to requesting a Construction Acceptance inspection from Broomfield, all temporary structures, debris, mud and waste materials shall be removed. When public improvements to be accepted are complete and ready for inspection by the Broomfield Inspector/Representative, the Developer shall submit a written request to Broomfield. The request shall clearly state which public improvements are ready for inspection, and a complete and accurate set of blue line Record Documents shall be submitted to the City Engineer for approval. Refer to Section 211.02 Record Documents of these STANDARDS AND SPECIFICATIONS. ---PAGE BREAK--- ACCEPTANCE PROCEDURES SECTION 200 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 200-54 All variances from the approved construction plans shall be supported by documentation. All related testing certifications and other supporting documentation shall be submitted to the City Engineer for approval. All required certifications shall contain the signature and seal of a Colorado Registered Professional Engineer. Broomfield shall schedule a date and time for the inspection within five business days of the Developer’s request. Within five business days after the Construction Acceptance inspection, a list of deficiencies (punch list) shall be prepared by the City Engineer and presented to the Developer. Within ten (10) calendar days of receipt of this punch list, the Developer shall begin making corrections. ALL DEFICIENCIES SHALL BE CORRECTED BY THE DEVELOPER WITHIN THIRTY (30) CALENDAR DAYS OF RECEIPT OF THE PUNCHLIST. After the Developer has corrected the deficiencies, the Developer shall request a follow-up inspection from Broomfield. When the public improvements pass the Construction Acceptance inspection, the Developer and the Broomfield Construction Inspection Superintendent shall sign the punch list to indicate completion. The above time schedule may be extended only under special circumstances and with the written approval of the City Engineer. If all deficiencies are not corrected in the time period outlined herein, Broomfield has the right to draw upon the performance guarantee, as specified in the Subdivision/Improvement Agreement. 211.02 Record Documents The Record Documents shall represent the “as-built” condition of all site improvements, and shall be based upon the addenda, change orders and other data furnished. Every sheet of the Record Documents shall be attested to and sealed by a Colorado Registered Professional Engineer and/or Registered Professional Land Surveyor, and every sheet shall be stamped “RECORD DOCUMENT”. The following information shall be included in the Record Documents: A. All approved plan revisions that have occurred since the City Engineer approved the plans. B. For Roadways: 1. Elevation check at a maximum of 150 foot intervals in each flow line along the street, at the PCR of each radius, at the center and ends of each crosspan and at each grade break. 2. Elevation at the flow line on each side of storm inlets. 3. Elevations at all design points shown on the cul-de-sac plans. 4. All locations of pavement markings. ---PAGE BREAK--- ACCEPTANCE PROCEDURES SECTION 200 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 200-55 C. For Sanitary Sewer and Storm Sewer: 1. Any changes from the approved plans in materials or pipe sizes. 2. Elevation of all in and out inverts at manholes, inlets, and outlets. Distance between manholes, and between manholes and inlets or outlets. 3. Location of all sanitary sewer service connections. 4. Rim elevations on all manholes and drainage inlet structures. 5. Elevation checks every 100 feet in the flow line of all drainage channels. 6. Final detention pond volume and the final release rate per drainage criteria (as determined by a Professional Engineer). D. For Water Mains: 1. Any changes from the approved plans in materials or pipe sizes. 2. Horizontal verification of water valves, tees, crosses, and fire hydrants if changed from the approved plans. 3. Location(s) and type of restraint installed. 4. Location of all water service connections. E. For Public Landscaping and Irrigation Improvements: 1. List of all plant material installed, including size and quantities (as certified by a Landscape Architect). 2. Horizontal verification of all structures. Show pertinent physical features such as sidewalks, bike paths, fences, ponds, buildings, parking lots and athletic fields. 3. Horizontal verification of all irrigation pipes, irrigation heads, valve boxes, wiring, electrical boxes, controllers, meters and backflow protection devices. Noted information shall include all pipe sizes, zone numbers, valve locations, head types, valve types and model numbers and controller types and model numbers. 211.03 Application for Construction Acceptance After the public improvements have passed the Construction Acceptance inspection, the Developer shall complete an Application for Construction Acceptance of Public Improvements. It shall be submitted to the City Engineer with a signed copy of the completed Construction Acceptance inspection list within seven business days. The following items shall be submitted with the application prior to City Engineer consideration for Construction Acceptance: A. Two complete sets of 11” x 17” Record Documents. B. A complete AutoCAD compatible digital copy of documents accurately representing the completed project as constructed. C. Field Inspection Reports as required in Section 160.00 PLANS AND SPECIFICATIONS of these STANDARDS AND SPECIFICATIONS. D. A complete set of geotechnical engineering reports stamped and sealed by a Colorado Registered Professional Engineer. E. A Final Sworn Affidavit of Construction Cost F. Any other items or Special Provisions required by the Subdivision Improvement Agreement. ---PAGE BREAK--- ACCEPTANCE PROCEDURES SECTION 200 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 200-56 The City Engineer shall review the Application for Construction Acceptance of Public Improvements for accuracy and completeness. 211.04 Memorandum of Construction Acceptance Upon approval of the Record Documents and the Application for Construction Acceptance of Public Improvements, the City Engineer shall prepare and issue a Memorandum of Construction Acceptance to the Developer that states which improvements are issued Construction Acceptance. THE WARRANTY PERIOD SHALL BEGIN ON THE DATE OF ISSUE OF THE MEMORANDUM OF CONSTRUCTION ACCEPTANCE. Upon issuance of the Memorandum of Construction Acceptance, maintenance of the new public improvements and facilities shall become the responsibility of Broomfield, except for repairs and replacements which—in the opinion of the City Engineer—shall become necessary during the warranty period. During the warranty period, the City Engineer may issue the developer written notice requesting warranty repairs and/or replacements. The Developer shall begin and complete repairs and/or replacements within the time period specified on the written notice. Broomfield may make the repairs and replacements and/or draw upon the Developer’s warranty performance guarantee as specified in the Subdivision/Improvement Agreement. After Construction Acceptance has been issued, the City Engineer shall notify the Building Department that the public improvements have been completed in accordance with these STANDARDS AND SPECIFICATIONS and that Certificates of Occupancy may be issued. 211.05 Duration of Warranty Period for Public Improvements and Facilities WARRANTY PERIOD FOR PUBLIC IMPROVEMENTS AND FACILITIES Residential Commercial/Industrial C.I.P. Utilities 2 years 2 years Per Contract Roadways 2 years minimum. See additional warranty duration requirements below. 2 years minimum. See additional warranty duration requirements below. Per Contract. See additional warranty duration requirements below. Irrigation/ Landscaping 1 year 1 year 1 year **Refer to Section 220.00 CONSTRUCTION AND FINAL ACCEPTANCE FOR CAPITAL IMPROVEMENT PROJECTS of these STANDARDS AND SPECIFICATIONS. Note that an additional manufacturer warranty may be required for specific equipment. See equipment specifications. ---PAGE BREAK--- ACCEPTANCE PROCEDURES SECTION 200 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 200-57 If after two years from Construction Acceptance of roadways the development has not been issued at least ninety (90) percent of the Certificates of Occupancy, Broomfield may extend the warranty period one additional year. Refer to Section 212.02 Final Acceptance Work for Roadways of these STANDARDS AND SPECIFICATIONS. 211.06 Warranty Performance Guarantee Upon issuance of the Memorandum of Construction Acceptance, the City Engineer may release a portion of the performance guarantee, provided that the balance of the performance guarantee is sufficient to fund incomplete improvements and possible warranty replacements and repairs. A minimum of fifteen (15) percent of the certified public improvements cost for utilities, landscaping and irrigation construction and thirty (30) percent for roadway construction shall be held by Broomfield throughout the warranty period, unless otherwise stated in the Subdivision/Improvement Agreement or as required by the City Engineer. 211.07 Construction Acceptance Maintenance Responsibility for Public Improvements and Facilities RESPONSIBILITY FOR PUBLIC IMPROVEMENTS AND FACILITIES DURING WARRANTY Residential Development Commercial / Industrial Development Capital Improvement Projects** Broomfield Maintenance Broomfield Maintenance Broomfield Maintenance Utilities Developer Repairs and Replacement Developer Repairs and Replacement Contractor Repairs and Replacement Broomfield Maintenance Broomfield Maintenance Broomfield Maintenance Roadways Developer Repairs and Replacement Developer Repairs and Replacement Contractor Repairs and Replacement Irrigation Broomfield Maintenance Except for First Winterization and Spring Turn-on Broomfield Maintenance Except for First Winterization and Spring Turn-on Broomfield Maintenance Except for First Winterization and Spring Turn-on Developer Repairs and Replacement Plus First Winterization and Spring Turn-on Developer Repairs and Replacement Plus First Winterization and Spring Turn-on Contractor Repairs and Replacement Plus First Winterization and Spring Turn-on Broomfield Maintenance Broomfield Maintenance Broomfield Maintenance Landscaping Developer Repairs and Replacement Developer Repairs and Replacement Contractor Repairs and Replacement As shown below, if not specified in Contract. REFER TO SECTION 220.00 CONSTRUCTION AND FINAL ACCEPTANCE FOR CAPITAL IMPROVEMENT PROJECTS OF THESE STANDARDS AND SPECIFICATIONS. ---PAGE BREAK--- ACCEPTANCE PROCEDURES SECTION 200 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 200-58 212.00 Final Acceptance by City Council and Release From Warranty THE WARRANTY PERIOD DOES NOT EXPIRE UNTIL ALL WARRANTY REPAIRS AND REPLACEMENTS HAVE BEEN MADE AND APPROVED BY BROOMFIELD. FINAL ACCEPTANCE IS ISSUED BY THE CITY COUNCIL OF THE CITY AND COUNTY OF BROOMFIELD. 212.01 Final Acceptance Inspection Approximately two months before the end of the warranty period, the Developer shall submit a written request for a Final Acceptance inspection from Broomfield. The request shall clearly state which public improvements are ready for inspection. Broomfield shall schedule a date and time for the inspection within five business days of the Developer’s request. Within five business days after the Final Acceptance inspection, a punch list shall be prepared by the City Engineer and presented to the Developer. Within ten (10) calendar days of receipt of this punch list, the Developer shall begin making corrections. ALL DEFICIENCIES SHALL BE CORRECTED BY THE DEVELOPER WITHIN THIRTY (30) CALENDAR DAYS OF RECEIPT OF THE PUNCH LIST. After the Developer has corrected the deficiencies, the Developer shall request a follow-up inspection from Broomfield. When the public improvements pass the Final Acceptance inspection, the Developer and the Broomfield Construction Inspection Superintendent shall sign the punch list to indicate completion. The above mentioned time schedules may be extended only under special circumstances and with the written approval of the City Engineer. 212.02 Final Acceptance Work for Roadways Final Acceptance work for roadways includes repairs and/or replacements to concrete and asphalt, non-destructive deflection testing that complies with Section 937.00 Pavement Deflection Testing of these STANDARDS AND SPECIFICATIONS and the final mill and overlay. A Colorado Registered Professional Engineer shall submit a stamped and sealed copy of the non-destructive deflection testing report to Broomfield for approval. After all concrete and asphalt repairs have been made and re-inspected by Broomfield, the final asphalt overlay shall be installed in accordance with the approved non-destructive deflection testing report, and the Developer shall request a follow-up Final Acceptance inspection. The Developer shall begin and complete Final Acceptance work within a time period acceptable to Broomfield. The time period may be extended only under special circumstances and with the written approval of the City Engineer. If the Developer does not begin and complete all Final Acceptance work within this time period, Broomfield may draw upon the warranty performance guarantee, as specified in the Subdivision/Improvement Agreement. The City Engineer may direct the Developer to perform Final Acceptance work, contingent upon the percentage of Certificates of Occupancy issued to the development: ---PAGE BREAK--- ACCEPTANCE PROCEDURES SECTION 200 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 200-59 A. Development Issued at Least 80% of Certificates of Occupancy: If after three years from Construction Acceptance of roadways the development has been issued at least eighty (80) percent of the Certificates of Occupancy, the Developer shall request a Final Acceptance inspection in accordance with Section 212.01 Final Acceptance Inspection of these STANDARDS AND SPECIFICATIONS and shall perform Final Acceptance work. B. Development NOT Issued at Least 80% of Certificates of Occupancy: If after three years from Construction Acceptance of roadways the development has not been issued at least eighty (80) percent of the Certificates of Occupancy, 1. Broomfield may issue written notice to the Developer to perform Final Acceptance work as described above. The Developer shall begin and complete Final Acceptance work within the time period specified on the written notice. OR 2. Broomfield may determine that the percentage of incomplete development (or insufficient percentage of issued Certificates of Occupancy) does not warrant completion of the Final Acceptance work. The City Engineer shall prepare a Memorandum and Resolution of Final Acceptance for City Council to consider whether Broomfield shall draw upon the warranty performance guarantee, as specified in the Subdivision/Improvement Agreement. With City Council approval to draw upon the warranty performance guarantee, it shall become the responsibility of Broomfield to complete Final Acceptance work when warranted. C. Less Than 80% Certificates of Occupancy Guarantee for Undeveloped Lots: In addition to the City Engineer drawing on the performance guarantee, City Council may require an additional letter of credit or bonding to guarantee protection of infrastructure for undeveloped lots 212.03 Final Acceptance by City Council After the public improvements have passed the Final Acceptance inspection or Broomfield has drawn upon the warranty performance guarantee and completed the public improvements, the City Engineer shall prepare a Memorandum and Resolution of Final Acceptance for City Council consideration. With City Council approval, Final Acceptance shall be issued, the warranty period shall expire, and the City Engineer shall release the balance of the warranty performance guarantee. ---PAGE BREAK--- ACCEPTANCE PROCEDURES SECTION 200 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 200-60 220.00 CONSTRUCTION AND FINAL ACCEPTANCE FOR CAPITAL IMPROVEMENT PROJECTS Additional inspection and acceptance procedures and requirements for capital improvement projects shall be specified in the contract documents. Maintenance of new improvements and facilities contracted by Broomfield shall become the responsibility of Broomfield, with the exception of repairs and replacements, which, in the opinion of the City Engineer, shall become necessary during the warranty period. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-61 SECTION 300 SOILS AND EARTHWORK 301.00 GENERAL CONDITIONS 310.00 311.00 Inspections 63 320.00 DEMOLITION, REMOVAL AND ABANDONMENT 320.01 64 320.02 65 321.00 Bridges, Culverts and Other Drainage 65 322.00 Pipe and 65 323.00 Pavement and Concrete 66 330.00 SITE PREPARATION 331.00 66 332.00 Staking and Grade 67 333.00 Grading Requirements 67 333.01 Grading Permit and/or Over-Excavation 67 333.02 Grading Methods 68 333.03 Cut and Fill Requirements 68 333.04 Topsoil 69 340.00 340.01 70 340.02 Grading 71 340.03 Borrow 71 341.00 Embankment 72 341.01 Preparation of Embankment Subgrade 72 341.02 Embankment 73 341.02.01 Embankments Twelve (12) Feet or Less in 74 341.02.02 Embankments Greater Than Twelve (12) Feet in 75 342.00 75 342.01 Excavated Material 76 342.02 Excess Excavation 76 343.00 Structure 76 ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-62 350.00 TRENCHING, BACKFILLING AND COMPACTING 350.01 Special Conditions 78 350.02 Removal of 78 351.00 Trench Excavation for 79 352.00 Trench Excavation for Pipelines and Service Lines 79 352.01 Preparation of Foundation for Pipe Laying 79 353.00 Bedding for Pipelines and Service 80 353.01 Bedding Compaction 81 354.00 Backfill for Pipelines and Service 81 354.01 Backfill 81 355.00 Compaction 82 360.00 ROADWAY EXCAVATION, BACKFILL AND COMPACTION 361.00 Subgrade 83 361.01 Over-Excavation for Expansive 84 361.02 Base Course (For Composite Sections) 85 361.02.01 Materials 85 361.02.02 86 361.03 Lime-Treated Subgrade 86 361.04 Proof-Roll Observation and 87 370.00 RESTORATION AND CLEAN UP ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-63 SECTION 300 SOILS AND EARTHWORK 301.00 GENERAL CONDITIONS Refer to Section 100 TITLE, SCOPE, AND GENERAL CONDITIONS of these STANDARDS AND SPECIFICATIONS for additional requirements that apply to all projects within Broomfield. 310.00 SCOPE All site work and earthwork shall comply with the requirements of these STANDARDS AND SPECIFICATIONS and any special criteria established by Broomfield. Site work shall be completed as shown on the approved engineering plans. Site work shall consist of demolition, removal, and abandonment; clearing and grubbing; overlot grading; removal of topsoil; site preparation; embankment subgrade preparation; embankment fill; excavation, trenching, bedding and backfill of pipelines and service lines; excess excavation; structure backfill; roadway excavation, backfill and compaction; borrow; and restoration and cleanup. All workmanship and materials shall be in accordance with the requirements of these STANDARDS AND SPECIFICATIONS and shall conform to the lines, grades, quantities, and the typical cross- sections shown on the approved plans, or as directed by the City Engineer. 311.00 Inspections Refer to Section 154.00 Inspections of these STANDARDS AND SPECIFICATIONS. Adequate inspections assure compliance to Broomfield requirements and are the basis for Broomfield’s recommendation that said improvements be accepted for maintenance and for release of performance guarantees. It is the responsibility of the Contractor to contact the City Engineer a minimum of one full working day (twenty-four [24] hours) in advance of the required inspections. Required inspections shall include: A. Erosion Control – Ensure that the Erosion Control Plan is adhered to and Best Management Practices (BMP’s) are properly installed and maintained. B. Testing – Verify that a Colorado Registered Professional Engineer (or designated representative), who practices the field of Geotechnical Engineering, is onsite and that adequate testing is performed. FULL-TIME OBSERVATION AND TESTING IS REQUIRED FOR OVER-EXCAVATION WORK. C. Certification – Verify that the extent and depths of proposed work is certified. Verify the final grade. The Contractor shall provide access to all Broomfield Inspectors/Representatives, and all other project quality control (QC) and/or quality assurance (QA) personnel throughout the earthwork process for observation and testing purposes. The Contractor shall not proceed with work until ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-64 the project Soils Engineer has performed adequate observations and testing, unless approved by the City Engineer. All testing and retesting to meet requirements and specifications shall be at the Contractor’s expense. 320.00 DEMOLITION, REMOVAL AND ABANDONMENT The Contractor shall remove—wholly or in part—and satisfactorily dispose of all foundations, signs, structures, fences, old pavements, abandoned pipelines, traffic control device materials and any other obstructions which are not designated on the approved plans or allowed to remain. Utilities and other items for which other provisions have been made for removal shall follow demolition; removal and abandonment procedures shown on the approved plans or as otherwise approved by Broomfield Removal of sign panels shall include all work necessary to remove the panel and its attachment hardware from the existing installation. Concrete sign post bases shall be removed. Pedestals and bases shall be removed to one foot below the surrounding ground or subgrade, and backfilled with suitable material. Where portions of structures shall be removed, the remaining parts shall be prepared to accommodate the new construction. The work shall be performed in such a manner that materials left in place shall be protected from damage. All damage to portions of structures to remain shall be repaired at the Contractor’s expense. Reinforcing steel that projects from a structure to remain shall be cleaned and aligned to provide an adequate bond with new construction. Dowels shall be securely grouted with an approved grout. Depressions which result from removal of structures, footings, and other obstructions, shall be filled and compacted with clean fill materials or an approved CLSM (“Flowable fill”) mixture so as to eliminate hazards such as cave-in or accumulation and ponding of water. Materials used for traffic detour structures supplied by the Contractor shall be the property of the Contractor. After the detour is abandoned, the Contractor shall completely remove the traffic detour structure materials and disposal of materials shall comply with Section 320.01 Disposal of these STANDARDS AND SPECIFICATIONS. After all demolition, removal and abandonment work is complete, the Contractor shall grade the entire contract area by properly filling, compacting, and leveling the site to existing adjacent grades or to lines and grades shown on the approved plans. 320.01 Disposal The Contractor shall make all necessary arrangements for obtaining suitable disposal locations. If disposal shall be at other than established dumpsites, the City Engineer may require the Contractor to furnish written permission from the property owner on whose property the materials and debris is proposed to be placed. Materials and debris shall be disposed of in a manner approved by the City Engineer. Burning shall not be allowed without prior written approval of the City Engineer, the Broomfield Health and Human Services department and the governing fire district. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-65 320.02 Salvage All salvageable material shown on the approved plans and any additional salvageable material marked by Broomfield shall be removed without unnecessary damage in sections or pieces which may be readily transported and shall be stored by the Contractor in locations approved by the City Engineer. The Contractor shall be required to replace any materials lost from improper storage methods or damaged by negligence. These materials include, but shall not be limited to, manhole frames and covers; inlet grates; valves and fire hydrants; landscape plant materials; fence materials; handrails; culverts; guardrail; walkway; roadway and traffic appurtenances (traffic signals and attached hardware, including mast arms and span wire) and irrigation systems and appurtenances. 321.00 Bridges, Culverts and Other Drainage Structures Bridges, culverts, and other drainage structures in use by traffic shall not be removed until a Traffic Control Plan has been approved by the City Traffic Engineer. Refer to Section 141.12 Traffic Control, Barricades and Warning Signs of these STANDARDS AND SPECIFICATIONS. Unless otherwise directed, the foundations or substructures of existing structures shall be removed down to one foot below natural ground surface or bottom of drainageway. Where such portions of existing structures lie wholly or in part within the limits of a new structure, they shall be removed as necessary to accommodate construction of the proposed structure. Steel, concrete, and wood bridges shall be dismantled. Steel members to be salvaged shall be match- marked by Broomfield or the Contractor with waterproof paint. 322.00 Pipe and Appurtenances All pipe and appurtenances to be taken out of service shall be completely removed or abandoned in place, as required by the City Engineer. Pipe designated to be reused shall be removed and stored, when necessary, to prevent loss or damage before relaying. Excavation required to remove pipe or appurtenances shall be backfilled and compacted in accordance with Section 350.00 TRENCHING, BACKFILLING AND COMPACTING of these STANDARDS AND SPECIFICATIONS. When pipe is to be abandoned in place, it shall be completely filled with fly ash slurry composed of approximately sixty-five (65) percent Class C fly ash and thirty-five (35) percent water, unless otherwise approved by the City Engineer. Each end of the pipe shall be capped with concrete. When removing appurtenances such as manholes, catch basins, inlets etc., any live lines connected to these appurtenances shall be properly bypassed and shall remain in operation until abandonment is complete. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-66 When appurtenances are to be abandoned in place, the remaining structure shall be lowered to a minimum of three feet below finished grade, and shall be filled with concrete with a minimum compressive strength of 3000 psi (at 28 days) to the top of the remaining structure and then backfilled and compacted to the required grades. 323.00 Pavement and Concrete Flatwork All concrete or asphalt to remain shall have a straight, true break line and a vertical face. Concrete or asphalt may be cut with a cutting wheel, jackhammer, or saw. The City Engineer may require that saw-cutting be performed. Any damage to adjacent concrete or asphalt to remain in place shall be repaired at the Contractor’s expense. The minimum depth of saw cuts in concrete shall be two inches. If areas cut for future placement of concrete or asphalt adjacent to existing asphalt or concrete are left exposed for longer than thirty (30) days or are subjected to inclement weather, the areas shall be evaluated by a Geotechnical Engineer and a recommendation shall be provided to Broomfield. An additional cut of at least six inches behind and/or below the existing structure—or until competent subgrade is encountered—may be required by the City Engineer. The Contractor shall be responsible for the cost of removal and replacement of all overbreak as determined by the City Engineer. 330.00 SITE PREPARATION The Contractor shall complete all work necessary to properly prepare the site as shown on the approved plans and as specified herein. The site shall be prepared in such a manner that facilitates subsequent soils or earthwork operations. Site preparation includes clearing, grubbing, grading, tree and shrub removal, native grass stripping and removing and disposing of all debris within the limits of the project and other such areas as may be indicated on the plans or required by the work. Site preparation procedures shall be performed to comply with the approved plans or as designated by Broomfield. Adjacent vegetation and other items to remain shall be adequately preserved from injury. 331.00 Clearing All sites to receive fill shall be cleared of organic materials, including root structures, at the Contractor’s expense. Vegetation shall be pulled or grubbed in such a manner as to assure complete and permanent removal. Branches of trees extending over the roadbed shall be trimmed to give a clear height of twenty (20) feet above the road bed surface. All surface objects and trees, stumps, roots and other protruding obstructions not designated to remain shall be cleared and/or grubbed as required. Non-biodegradable, solid objects located at least two feet below the final subgrade surface may remain at the discretion of the City Engineer. Broomfield may establish clearing lines and designate items and materials to remain. The Contractor shall preserve all materials and items to remain. Paint used for cut or scarred surfaces of trees or shrubs to remain shall be an approved asphalt base paint formulated especially for tree surgery. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-67 Except in areas to be excavated, stump holes and other holes from which obstructions are removed shall be backfilled with suitable material and compacted in accordance with these STANDARDS AND SPECIFICATIONS. The Contractor shall scalp areas where excavation or embankment shall be made. Scalping shall include the removal of organic material such as brush, roots, sod, grass, residue of agricultural crops, sawdust, and vegetable matter from the surface of the ground. Fill shall be placed on competent subgrade as determined by the project Soils Engineer. The Contractor shall excavate soft, yielding, over-saturated, or otherwise unsuitable soils prior to the placement of fill. Clearing shall be performed with due consideration and protection of the general public and public and private property. Any damage to streets, parking lots, utilities, plants, trees, buildings or structures on public or private property, or to bench marks and construction staking due to the negligence of the Contractor, shall be repaired and restored to its original condition at the Contractor’s expense. Areas proposed to be preserved shall be clearly staked or fenced off by the Contractor. It shall be the Contractor's responsibility to ensure that these areas are not damaged during the construction process. Any damaged areas shall be repaired or replaced at the Contractor's expense. 332.00 Staking and Grade Control Control and construction stakes shall be set by field parties under the supervision of a Colorado Registered Professional Engineer or a Colorado Registered Land Surveyor who shall be paid by the Contractor. These field parties shall be available to check field control and to provide assistance to the Contractor. A set of approved plans shall be kept on the job site at all times by the Contractor. It shall be the responsibility of the Contractor to maintain the alignment and grade shown on the approved plans. The alignment and grade elevation of forms shall be checked, and any necessary corrections shall be made before placing the concrete. When any form has been disturbed or any subgrade thereunder has become unstable, the subgrade shall be reconditioned or replaced in accordance with these STANDARDS AND SPECIFICATIONS. 333.00 Grading Requirements 333.01 Grading Permit and/or Over-Excavation Permit A Grading Permit and/or Over-Excavation Permit shall be required as specified in 151.00 Public/Private Improvement Permit (PPIP), Grading Permit, and Over-Excavation Permit of these STANDARDS AND SPECIFICATIONS. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-68 333.02 Grading Methods All areas disturbed during grading operations shall have the final graded area hydro seeded or revegetated with native grasses in accordance with the requirements of Section 1000 PARKS AND RECREATION CONSTRUCTION of these STANDARDS AND SPECIFICATIONS. SEEDING SHALL BE COMPLETED WITHIN SIXTY (60) DAYS OF THE GRADING COMPLETION AND NO LONGER THAN ONE HUNDRED EIGHTY (180) DAYS OF THE COMMENCEMENT OF GRADING OPERATIONS AT THE SITE. The Contractor shall comply with all dustproofing requirements of Section 141.11 Dustproofing of these STANDARDS AND SPECIFICATIONS for the duration of the project. Grading shall be performed by an approved means. Areas adjacent to structures and other areas inaccessible to heavy grading equipment shall be graded by approved manual methods. Grading of filled and unfilled areas shall be to the lines and grades indicated on the approved plans. Grading shall be performed in conjunction with all necessary clearing, grubbing, stripping, filling, and compacting operations. Final grading shall be performed to provide proper drainage for the overall site and away from site improvements that may be sensitive to moisture infiltration. In no case shall drainage from the project site be altered or controlled in a manner that may result in damage, or the potential for damage, to adjacent property or to any portion of the work from erosion or flooding. 333.03 Cut and Fill Requirements All areas with slopes greater than fifteen (15) percent shall be benched or modified by an approved method prior to receiving fill. Benching dimensions shall be determined by the project Soils Engineer. All fill shall be placed in a controlled state—tested for moisture and density—in locations designated in the approved plans and reports and in accordance with these STANDARDS AND SPECIFICATIONS, unless otherwise approved by the City Engineer. FILL MATERIALS SHALL NOT BE PLACED, STOCKPILED OR STORED IN AN AREA THAT IS NOT DESIGNATED ON THE PLANS OR APPROVED BY THE CITY ENGINEER. The Contractor shall comply with all federal and state environmental laws, such as the Endangered Species Act, Federal Emergency Management Act, Army Corps of Engineers Wetlands Regulations, and Division of Wildlife Regulations. Contractor shall make every effort to relocate wildlife prior to grading. Relocation plans shall be approved by Broomfield. All wetlands shall be protected by silt fencing and other required Best Management Practices (BMP’s) during grading operations and until disturbed areas are fully revegetated. Upon completion of work in which a Grading Permit or Over-Excavation Permit is required, the Contractor shall provide the following information, certified and sealed by a Colorado Registered Professional Engineer: ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-69 A. An “as-built” area grading plan which shows original ground surface elevations, as-constructed ground surface elevations, limits and depths of over-excavation, lot drainage patterns and locations and elevations of all surface and subsurface drainage facilities. B. An overlot grading summary report prepared by the project Soils Engineer which states that fill placement is in conformance to approved plans and reports and includes locations and elevations of field density tests (referenced from a permanent landmark or permanent control point), summaries of field and laboratory tests and any other substantiating data and comments regarding deviations from the approved plans and reports and how they relate to or affect recommendations in the approved Geotechnical Engineering Report and grading plan. C. A geological report prepared by an engineering geologist that includes a final description of the geology of the site, including any new information disclosed during the grading and how it relates to or affects recommendations in the approved Geotechnical Engineering Report and grading plan. 333.04 Topsoil The Contractor shall salvage within the project limits, or acquire when needed, loose friable loam (“topsoil”) reasonably free of admixtures of subsoil, refuse, stumps, roots, rocks, brush, weeds, heavy clay, toxic substances or other material which would be detrimental to the proper development of vegetative growth. Topsoil shall not be placed until the areas to be covered have been properly prepared and grading operations in the area have been completed. Topsoil shall be placed, spread and keyed to the underlying material at locations and to the thickness shown on the approved plans. Topsoil shall not be incorporated into any embankment fill or backfill material without prior approval of the project Soils Engineer and the City Engineer. 340.00 EARTHWORK Earthwork shall consist of excavation, disposal, shaping and compaction of all material encountered within the limits of the project, including but not limited to excavation of ditches and channels, surface boulders, muck, rock, concrete foundations, slabs, stripping, etc. Excavation shall be performed to the line and grade and typical cross-sections shown on the approved plans or as required by the City Engineer. Excavation, dewatering, sheeting, and bracing shall be performed so as to eliminate any possibility of undermining or disturbing the foundation of any existing structures, utilities, pavement and concrete flatwork. Free-running water shall be drained from all earthwork materials prior to construction of structures, utilities, or concrete flatwork construction. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-70 The City Engineer may require the Contractor to submit a proposed earth-moving diagram and map of proposed haul routes for approval. 340.01 Definitions A. Suitable Material - Any earthen material that consists of onsite or similar non- organic sands, gravels, clays, silts and mixtures thereof with a maximum size of six inches. Claystone fragments exceeding three inches in particle size are not to be incorporated in embankment material unless specifically approved by the project Soils Engineer and the City Engineer. B. Bedrock that breaks down to specified soil types and sizes during excavation, hauling and placement may be considered as suitable material. C. Unsuitable Material - Any earthen material that contains vegetable or organic silt, topsoil, frozen materials, trees, stumps, certain man made deposits, or industrial waste, sludge or landfill, lignite, or other undesirable materials. D. Unclassified Excavation - Any and all earthen materials encountered, including rocks and boulders, during construction. Rock formations that can be removed by ripping with a D-9 tractor in good repair with a single hydraulic ripper are considered as unclassified excavation. E. Embankment Construction - Earthwork including preparation of the subgrade upon which embankment material shall be placed; dikes within or outside right- of-way; placement and compaction of approved material within areas where unsuitable materials have been removed; and placement and compaction of embankment materials in holes, pits and other depressions to lines and grades shown on the approved plans. Only suitable materials approved by the project Soils Engineer shall be used in construction of embankments and backfills. Claystone fragments exceeding three inches in particle size are not to be incorporated in embankment material unless specifically approved by the project Soils Engineer and the City Engineer. F. Structure Excavation - Excavation of any and all materials over an area extending three feet out from the outer most bottom edge of a proposed structure, up to existing grade or top of proposed grade (whichever comes first) at a one to one (1:1) slope. Rock formations within this area that can be removed by ripping with a D-9 tractor in good repair with a single hydraulic ripper shall be considered structure excavation. G. Structure Backfill - Earthen material that is installed around and over any structure shown on the approved plans. Imported structure backfill (Class I) shall meet the general gradation of “Class 1 Structure Backfill Material” as specified in Section 703.08 of the CDOT Standard Specifications for Road and Bridge Construction. Onsite Class 2 structure backfill shall also meet the requirements of Section 703.08 of the CDOT Standard Specifications for Road and Bridge Construction. Materials which do not comply with these requirements may be used at the discretion of the project Soils Engineer and the City Engineer. H. Rock Excavation - Igneous, metamorphic or sedimentary rock formations that cannot be excavated with a D-9 tractor in good repair with a single hydraulic ripper. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-71 I. Borrow - Backfill or embankment material which shall be acquired from designated borrow areas to make up the deficient areas which cannot be completed from excavation within work limits. All sources of borrow material shall be approved prior to use by the project Soils Engineer and the City Engineer. J. Proof-Rolling - The application of test loads over a subgrade surface by means of a heavy pneumatic-tired vehicle to locate weak areas in subgrade. Refer to Section 361.04 Proof-Roll Observation and Testing of these STANDARDS AND SPECIFICATIONS. K. Bedding Material - Material that is installed under and around pipelines, rip-rap, low flow channels, and any other locations required by the City Engineer. The thickness and gradation of bedding materials shall comply with Section 352.00 Bedding for Pipelines and Service Lines of these STANDARDS AND SPECIFICATIONS. L. Stabilization Material - Material which shall be placed in over-excavation areas, areas with unsuitable in situ material, or areas with a high water table in order to stabilize the existing material. Thickness of stabilization material shall be determined and installed in the field, on a case by case basis. Gradation of stabilization material shall comply—at a minimum—with the “No. 4 Coarse Aggregate” specified in Section 703.02 of the CDOT Standard Specifications for Road and Bridge Construction, or other materials such as lime or flyash specified on the approved plans and approved by the project Soils Engineer. 340.02 Grading Tolerances All earthwork shall performed in such a manner that final grades after excavation, compaction of backfill, placement of rip-rap, construction of channel lining, etc. shall conform to the cross- sections shown on the approved plans. The final earthwork shall comply with the design elevations, with the following allowable tolerances: A. 0.03 feet within main drainage channel bottom limits B. 0.3 feet at the top of any embankment where a cut side slope intersects the existing grade C. 0.5 feet in all portions of the site not included in items a. or b. above. D. In addition to the above tolerances, positive surface drainage shall be provided on the entire site so that no depressions or ponds are formed, regardless of depth. It shall be the Contractor's responsibility to ensure that all portions of the site drain as shown on the approved plans. 340.03 Borrow It shall be the Contractor's responsibility to stockpile suitable materials for use in the project. Only after the Contractor estimates that sufficient suitable backfill material is stockpiled to complete all earthwork operations of the project, shall excavated material be removed from the project site. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-72 If the Contractor fails to preserve onsite, sufficient suitable material, and removes or disposes of suitable material, suitable material shall be recovered at the Contractor’s expense. If there is an insufficient quantity of suitable material available onsite, the Contractor shall provide additional suitable material, as defined in Section 340.01 Definitions of these STANDARDS AND SPECIFICATIONS. 341.00 Embankment Construction Embankment construction shall include placement, processing and compaction of all embankment material, and all related work required to ensure proper bond of materials with previously placed embankment material. 341.01 Preparation of Embankment Subgrade No excavation shall be performed in any area until the proposed work has been staked by the Contractor, cross-sections of existing ground are determined and plotted, and all survey elevations and cross-sections shown on the approved plans are reviewed and approved by the City Engineer. Excavation shall be performed to the lines and grades shown on the approved plans. The grade shall be maintained so that the surface is well drained at all times. When necessary, temporary drain systems shall be installed to intercept or divert surface water that may affect the work. Where an embankment shall be constructed, unsuitable material shall be removed from the surface. The cleared surface shall be plowed or scarified to a minimum depth of six inches. The embankment area shall adhere to the density and moisture content requirements shown in the following table, unless otherwise approved by the project Soils Engineer and the City Engineer: Soil Classification AASHTO M145 Relative Compaction By Standard Proctor ASTM D698 or AASHTO T99 (percent compaction) Relative Compaction By Modified Proctor ASTM D1557 or AASHTO T180 (percent compaction) Moisture Content Range (with respect to Optimum Moisture Content) A-1, A-2, A-3 - 95 -2 to +2 (based on AASHTO T180) A-4, A-6, A-7 95 - -1 to +3 (based on AASHTO T99) Where embankments shall be placed on slopes steeper than 4:1 (horizontal to vertical), benches shall be excavated into the slope by a method approved by the project Soils Engineer and the City Engineer. Such slopes include natural and previously constructed embankments. The benches shall be cut ten (10) feet horizontally into the existing slope to create a stepped bench ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-73 condition, and the vertical step shall not exceed four feet, unless otherwise approved by the project Soils Engineer and the City Engineer. All surfaces to receive embankment material shall be inspected and approved by the project Soils Engineer immediately prior to embankment material placement. 341.02 Embankment Material No embankment material shall be placed until approved in writing by the Owner. Earthmoving equipment, watering equipment, processing equipment and compaction equipment are the responsibility of the Contractor. Equipment shall be suitable for performing excavation and embankment work in accordance with these STANDARDS AND SPECIFICATIONS and the Contract schedule. If at any time the moisture-conditioning or processing equipment cannot apply moisture or process at a rate equal to or greater than the rate required to achieve an embankment material within the required size tolerances, uniformity, and moisture contents, embankment material placement shall be suspended at that area until it is demonstrated to the project Soils Engineer and the City Engineer that all questionable areas comply with these STANDARDS AND SPECIFICATIONS. Equipment shall be operated in accordance with manufacturer's recommendations and instructions and shall be maintained so that it delivers the rated energies and compactive efforts. IF EQUIPMENT IS DEEMED INADEQUATE, THE PROJECT SOILS ENGINEER AND/OR THE CITY ENGINEER MAY RECOMMEND THE USE OF LARGER OR DIFFERENT TYPES OF EQUIPMENT. After subgrade is properly prepared, the embankment filling operation shall begin in the deepest part of the area to be filled. Embankment material shall be placed and compacted in parallel layers until the finished rough grade is reached. Temporary gaps through the embankment shall not be allowed without approval of the City Engineer. All temporary slopes shall not be steeper than 4:l (horizontal:vertical). THE THICKNESS OF EACH LAYER SHALL NOT EXCEED SIX INCHES BEFORE COMPACTING. Embankment material shall be a homogenous mixture of suitable material. No particle size shall exceed six inches, and no claystone fragment shall exceed three inches. The characteristics of the material shall be in accordance with that of ‘suitable material’ as defined in Section 340.01 Definitions of these STANDARDS AND SPECIFICATIONS. The full depth of each layer shall be processed to ensure a satisfactory bonding surface for the next layer of embankment material. In order to achieve uniform moisture content throughout the materials in the layer, wetting or drying of the material and manipulation shall be performed. Placement of material shall not proceed until excessively wet material has been dried and overly dry material has been wetted with methods approved by the project Soils Engineer. Each layer of embankment shall be properly processed by disking or by other approved methods so that the water is distributed ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-74 uniformly throughout the layer prior to rolling and after compaction. In no case shall additional embankment material be placed until the underlying layer has been properly processed in accordance with these STANDARDS AND SPECIFICATIONS. Materials placed that do not comply with moisture and/or density specifications are subject to removal and replacement and/or reprocessing at the Contractor’s expense. The surfaces of previously placed embankment material and foundation areas that have not had material placed on them for a period of time sufficient to allow those surfaces to comply with the specified moisture content and/or density requirements, the surface material shall be re-processed until it complies with the requirements, prior to placement of additional material. If hauling equipment is used to obtain compaction, the Contractor shall route its equipment at all times, both when loaded and when empty, over the layers as they are placed and shall distribute the travel evenly over the entire width of the embankment. The equipment shall be operated in such a manner that hardpan, cemented soils, clay, or other chunky soil material shall be broken up into smaller particles and become incorporated with the other material in the layer. Rock Material In Common Embankment: Excavated material that contains solid rock consisting of cobbles, boulders or rock fragments (“rock material”) less than one cubic yard in volume; a maximum thickness of one and one-half (1½) feet; and a maximum dimension of six feet that cannot be processed by crushing, breaking or pulverizing, may be placed in embankments below ten (10) feet from the rough subgrade elevation with approval from the project Soils Engineer and the City Engineer. In no case shall claystone fragments larger than five inches in any dimension be incorporated into the embankment layers. Rock material does not include the claystone bedrock formations common throughout Broomfield. If placed, rock material shall be incorporated in layers no thicker than the thickness of the largest pieces. The rock material shall be carefully dispersed throughout the layers and throughout the embankment to avoid nesting. Rock fragments shall be spaced far enough apart to allow the Contractor's equipment to operate between the rock pieces. All voids shall be filled with fines material to obtain the required uniform density around the rock fragments. Embankment areas that contain rock material shall be compacted with adequate equipment and sufficient passes to ensure that the embankments meet all specified moisture and density requirements for common embankment before the next lift is placed. The Contractor shall perform a test fill to demonstrate satisfactory compliance with these specifications prior to placing rock material. The Contractor shall maintain the embankment during the warranty period. 341.02.01 Embankments Twelve (12) Feet or Less in Depth Compaction operations shall continue until each layer of embankment material for embankments less than twelve (12) feet in height is compacted to moisture and density requirements shown in the following table, unless otherwise required by the project Soils Engineer and the City Engineer: ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-75 Soil Classification AASHTO M145 Relative Compaction By Standard Proctor ASTM D698 or AASHTO T99 (percent compaction) Relative Compaction By Modified Proctor ASTM D1557 or AASHTO T180 (percent compaction) Moisture Content Range (with respect to Optimum Moisture Content) A-1, A-2, A-3 - 95 -2 to +2 (based on AASHTO T180) A-4, A-6, A-7 95 - -1 to +3 (based on AASHTO T99) 341.02.02 Embankments Greater Than Twelve (12) Feet in Height Compaction operations shall continue until each layer of embankment material for embankments greater than twelve (12) feet in height is compacted to the moisture and density requirements shown in the following table, unless otherwise required by the project Soils Engineer and the City Engineer. Soil Classification AASHTO M145 Relative Compaction By Standard Proctor ASTM D698 or AASHTO T99 (percent compaction) Relative Compaction By Modified Proctor ASTM D1557 or AASHTO T180 (percent compaction) Moisture Content Range (with respect to Optimum Moisture Content) A-1, A-2, A-3 - 96 -2 to +2 (based on AASHTO T180) A-4, A-6, A-7 100 - -1 to +2 (based on AASHTO T99) 342.00 Excavation All excavated areas shall be graded in a manner that allows adequate drainage and does not disturb material outside the limits of slopes. Excavated areas shall be within the tolerances noted in Section 340.02 Grading Tolerances of these STANDARDS AND SPECIFICATIONS. When practical, all suitable material removed from the excavation shall be used in the formation of embankments, for backfilling, and for other purposes. Materials that are considered unsuitable material (including rock) or surplus by the City Engineer shall be disposed of at the Contractor’s expense, in accordance with Section 320.01 Disposal of these STANDARDS AND SPECIFICATIONS. All water pumped or drained from the work shall be disposed of according to provisions of the Stormwater Discharge Permit (NPDES) in a manner satisfactory to the City Engineer, without undue interference with other work or damage to pavements, other surfaces, or property. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-76 342.01 Excavated Material Excavated material shall be placed so as to minimize the inconvenience to occupants traveling on streets and driveways or adjoining properties. Excavated material shall not be deposited on private property unless written consent of the property owner(s) has been filed with the City Engineer. Suitable excavated material shall be used as backfill, fill for embankments, or other parts of the work in accordance with the appropriate sections of these STANDARDS AND SPECIFICATIONS. Disposal of surplus material shall be in accordance with Section 320.01 Disposal of these STANDARDS AND SPECIFICATIONS. 342.02 Excess Excavation If in the opinion of the project Soils Engineer or the City Engineer, the material at or below the depth to which excavation for structures would normally be carried is unsuitable for the required installation, it shall be removed to such widths and depths as directed by the project Soils Engineer or the City Engineer and shall be replaced to provide a stable, non-yielding surface that is approved by the project Soils Engineer and the City Engineer. It is the sole responsibility of the Contractor to become familiar with the existing conditions and potential excess excavation at each project site. Geotechnical reports or other data provided by Broomfield may be used to assist in determining general site and soil characteristics. If, through failure or neglect of the Contractor to conduct the excavation work in a proper manner, the surface of the subgrade is in an unsuitable condition for proceeding with construction, the unstable material shall be removed and replaced with recycled concrete, structure backfill, or other approved material at the Contractor’s expense. The condition of the subgrade shall be approved by the project Soils Engineer and the City Engineer before any additional materials are placed. 343.00 Structure Backfill Structure backfill shall comply with Section 340.01 Definitions of these STANDARDS AND SPECIFICATIONS. Structure backfill material shall have a liquid limit not exceeding thirty- five (35) and a plasticity index less than fifteen (15), as determined by AASHTO T 89 and T 90, unless otherwise approved by the project Soils Engineer and the City Engineer. Areas adjacent to structures and other areas inaccessible to mobile compaction equipment shall be compacted with suitable power-driven hand tampers or other approved devices. Backfilling shall consist of placing materials in horizontal, uniform layers brought up uniformly on all sides of the structure. THE THICKNESS OF EACH LAYER OF BACKFILL SHALL NOT EXCEED SIX INCHES BEFORE COMPACTING TO THE REQUIRED DENSITY. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-77 Backfill material shall not be deposited against the back of concrete abutments, concrete retaining walls, or the outside of cast-in-place concrete structures until the concrete has developed a strength of not less than eighty (80) percent of the required design strength. Backfill placed within two feet of any structure shall be placed evenly on all sides to avoid unequal lateral pressures. Compaction equipment or methods that produce horizontal or vertical earth pressures which may cause excessive displacement or may damage structures, shall not be used. Unless otherwise shown on the approved plans or directed by the City Engineer, all sheeting and bracing used for structure excavation shall be removed by the Contractor prior to backfilling. The moisture content of the backfill material shall be carefully controlled. Excessive use of moisture that results in pumping, deflecting, or otherwise unstable material shall not be allowed, and all such material shall be removed and reprocessed or replaced. Dry, rocky, or otherwise poorly processed material shall also be rejected and replaced/reprocessed at the Contractor’s expense. Compaction shall not be performed or subsequent lifts placed until the backfill material has been properly processed and moisture-conditioned in accordance with these STANDARDS AND SPECIFICATIONS. In the event that suitable backfill material is not available on the site, the Contractor shall import Class 1 structure backfill materials as defined in Section 340.01 Definitions of these STANDARDS AND SPECIFICATIONS, or other material approved by the project Soils Engineer and the City Engineer. The Contractor shall not be required to excavate below the depths of excavation indicated on the approved plans to provide structure backfill material. Where pipe is connected to a structure to be backfilled, bedding and backfilling procedures shall comply with Section 353.00 Bedding for Pipelines and Service Lines and Section 354.00 Backfill for Pipelines and Service Lines of these STANDARDS AND SPECIFICATIONS. The Contractor shall uniformly process, maintain proper moisture in, and properly compact each lift throughout the backfilling process. All testing shall comply with Section 355.00 Compaction Testing of these STANDARDS AND SPECIFICATIONS. Structure backfill shall be compacted in conformance with the Moisture and Density Requirements for Embankment Materials table in Section 341.02 Embankment Material of these STANDARDS AND SPECIFICATIONS. Areas deficient in degree of moisture or compaction shall be reprocessed and recompacted at the Contractor’s expense 350.00 TRENCHING, BACKFILLING AND COMPACTING This work shall consist of furnishing all labor, materials, tools and equipment for trenching, bedding, backfill and compaction for all underground utilities (inclusive of “dry” utility trenches located under roadways or within roadway R.O.W.) as specified herein and shown on the approved plans. The excavation shall be made to lines and grades shown on the approved plans ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-78 and as established by the City Engineer. Except where shown otherwise on the approved plans and except where the City Engineer gives written permission to do otherwise, all trench excavation shall be made by open cut to the depth required to construct the pipelines as shown on the approved plans. All excavation shall be ‘unclassified’, as defined in Section 340.01 Definitions of these STANDARDS AND SPECIFICATIONS. All trenching shall be performed in accordance with all Occupational Safety and Health Administration (OSHA) requirements. These regulations are described in Subpart P, Part 1926 of the Code of Federal Regulations. All excavated material which meets the requirements for backfill materials shall be stockpiled in a manner which shall not contaminate the excavated material, and shall be located a sufficient distance from the trench to avoid overloading, to avoid obstructing sidewalks, driveways, or streets, and to provide the least possible interference with traffic. 350.01 Special Conditions A. Subsurface Investigation - Prior to the connection of any planned utility line to an existing line, the Contractor shall expose the existing utility at the points of connection in order to verify the elevations and materials of construction. The City Engineer shall be notified a minimum of two working days before such an investigation is performed. The Contractor shall also expose utilities as they cross each other to allow for verification of elevation and materials of construction. The City Engineer shall evaluate this information and provide revisions, if required, within three working days of the completion of the investigation. B. Underground Wire, Cable, Fiber Optic, or Similar Lines - Where underground wire, cable, fiber optic or similar lines are encountered, they shall be relocated as directed by the telephone service provider and in accordance with their specifications. The Contractor shall coordinate this work with all other phases of construction to avoid further conflicts. C. Gas and Electric Lines - Where underground gas and electric lines are encountered, they shall be relocated as directed by the gas and electric service provider and in accordance with their specifications. The Contractor shall coordinate this work with all other phases of construction to avoid further conflicts. 350.02 Removal of Water The Contractor shall provide and maintain adequate equipment to properly remove and dispose of all surface or ground water that enters the trench. Water shall be disposed of without damage to adjacent property and without being a nuisance to public health and convenience. The use of any sanitary sewer to dispose of trench water shall not be allowed. The trench shall be dry at all times during pipe installation. Dewatering shall be accomplished by well points, sumping or any other method approved by the City Engineer. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-79 351.00 Trench Excavation for Roadways When excavating in concrete or asphalt areas, the limits of the trench shall be string lined and the surface cut in a vertical plane by sawing, cutting wheel or jack-hammering. If the vertical edges of a trench in a roadway ravel during construction, they shall be trued to a vertical plane to a point twelve (12) inches outside the limits of excavation prior to milling and placing the resurfacing material, in accordance with the Detail Drawings. Surface materials such as concrete and asphalt shall be disposed of independently of the underlying soil. Suitable, non-contaminated base course and gravels shall be salvaged to be stockpiled, protected from contamination, and reused as suitable material for backfill. Unsuitable materials shall be disposed of by the Contractor in accordance with Section 320.01 Disposal of these STANDARDS AND SPECIFICATIONS. 352.00 Trench Excavation for Pipelines and Service Lines The width of the trench shall comply with the requirements set forth in these STANDARDS AND SPECIFICATIONS and shall be sufficient to allow pipe to be installed and backfill placed and compacted. The allowable trench width, regardless of the type of soil encountered, the depth of excavation or method of bedding densification, shall not exceed the outside diameter of the pipe barrel plus twenty-four (24) inches, or be less than the outside diameter of the pipe barrel plus twelve (12) inches when measured at any point below the top of the pipe bell, flange or collar. Where the width of the lower portion of the trench exceeds the maximum width herein stated, the Contractor shall furnish and install special pipe embedment or concrete encasement to protect the pipe from the additional loading. The type and quantities of special pipe embedment shall be determined by the pipe supplier, using trench loading criteria based upon saturated backfill weighing one-hundred twenty (120) pounds per cubic foot and allowance for other superimposed live loads. 352.01 Preparation of Foundation for Pipe Laying When the excavation is in firm earth, care shall be taken to avoid excavation below the established grade plus the required specified overdepth to accommodate the pipe bedding material. In case soft or otherwise unsuitable foundation material is encountered in the bottom of the trench, the project Soils Engineer and/or the City Engineer may require removal and replacement with stabilization material to provide a suitable foundation for the pipe. If the trench bottom is wet, the project Soils Engineer shall determine whether it is stable. The bottom of sumps utilized for dewatering shall be two inches minimum below the bottom of the trench excavation to prevent the upward flow of water into the excavation, which may result in unstable bottom conditions. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-80 353.00 Bedding for Pipelines and Service Lines All pipe shall be installed with sufficient bedding material to provide a minimum of six inches of separation between the subsoil and the barrel of the pipe, and shall extend to spring line. The bedding material shall be tamped under the haunches for the full length of the pipe barrel to ensure support for entire length of pipe. The pipe barrel shall be uniformly supported along the entire length of the pipe. Bedding material for all PVC, HDPE, CPP and DIP (“flexible pipe”) shall be material that complies with the gradation of “Fine Aggregate” as specified in Section 703.02 of the CDOT Standard Specifications for Road and Bridge Construction, well-graded sand or squeegee sand which complies with the following: WELL GRADED SAND Sieve size Total Percent Passing by Weight 3/8 INCH 100 No. 4 70 - 100 No. 8 36 - 93 No. 16 20 - 80 No. 30 8 - 65 No. 50 2 - 30 No. 100 1 - 10 No. 200 0 - 3 SQUEEGEE SAND Sieve size Total Percent Passing by Weight 3/8 inch 100 No. 200 0-5 Bedding material for all RCP (“rigid pipe”) shall consist of materials that meet the gradation of “No. 67 Coarse Aggregate” as specified in Section 703.02 of the CDOT Standard Specifications for Road and Bridge Construction Bedding material shall be placed to a depth of twelve (12) inches above the barrel section of all “flexible pipe” and shall be carefully tamped into place. All other pipe, unless otherwise noted, shall be bedded to spring line. Pipe shall be installed in accordance with these STANDARDS AND SPECIFICATIONS. Bedding for underdrain pipe or gravel for underdrain without pipe shall be well-graded washed rock ranging in size from one-half inch minimum to one inch maximum. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-81 353.01 Bedding Compaction All bedding material and suitable material placed to twelve (12) inches above the top of the pipe shall be carefully compacted to at least seventy (70) percent of maximum relative density in accordance with ASTM D4253 and 4254. 354.00 Backfill for Pipelines and Service Lines Suitable backfill shall be as defined in Section 340.01 Definitions of these STANDARDS AND SPECIFICATIONS. Clay and similar material with a liquid index in excess of thirty-five (35) and a plasticity index in excess of six as determined in accordance with AASHTO T89 and T90, shall not be considered suitable for backfilling in trenches located in improved streets, roads, highways and thoroughfares, unless approved by the City Engineer. When the excavated material is unsuitable for compaction, import material shall be approved by the project Soils Engineer and the City Engineer prior to placement. Refer to Section 822.02 Controlled Low Strength Materials (CLSM) of these STANDARDS AND SPECIFICATIONS for requirements of structure backfill (“Flowable Fill”) used to backfill pipeline and service line trenches. Materials used above the subgrade level shall comply with the requirements for sub-base and base course materials as defined in Section 600 HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION of these STANDARDS AND SPECIFICATIONS. Bracing installed to prevent cave-ins shall be withdrawn in a manner that shall maintain the desired support during the backfill operations. Driven sheet pilings shall be cut off at or above the top of pipe, and the portion below the cut-off line shall be left in the ground. 354.01 Backfill Compaction Trench backfill shall be placed in loose six inch lifts, processed and moisture-conditioned, and each lift thoroughly consolidated by tamping, vibrating, or a combination thereof, until the moisture content and the relative compaction complies with the values shown in the Moisture and Density Requirements for Embankment Materials table in Section 341.02 Embankment Material of these STANDARDS AND SPECIFICATIONS for the various soil classifications and relative compaction. For new landscape areas with trees, compaction shall be between eighty-five (85) and ninety (90) percent of the maximum Standard Proctor dry density in the top two feet of soils below finished grade. Where sidewalk or concrete trail will be constructed, soils shall be scarified, moisture treated and recompacted two feet wider than the footprint of the sidewalk or trail until the moisture content and the relative compaction complies with the values shown in the Moisture and Density Requirements for Embankment Materials table in Section 341.02.01 Embankments Twelve (12) Feet or Less in Depth of these STANDARDS AND SPECIFICATIONS. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-82 Backfill of utilities, pipes, culverts, or other miscellaneous structures located in areas that will not have a hard surface shall be placed in six inch lifts at ninety (90) percent of the maximum Standard Proctor dry density and within two percent of the optimum moisture content. All other requirements for particle size and processing shall be met. Processing, moisture-conditioning, and compaction shall be performed with equipment that is suitable for the specific field conditions. The equipment used shall be sufficient to obtain uniform processing, uniform moisture-conditioning, and uniform compaction throughout each lift of material placed. Vertical structures or other small, tight areas shall be compacted by hand or by equipment small enough to provide compaction within three inches of the structure (or in between dual utility lines). Use of CLSM may be approved by the City Engineer for such areas. It is the responsibility of the contractor to protect the installed pipe from damage resulting from compactive efforts. In no case shall soil compaction operations be performed within eighteen (18) inches (vertically) of rigid pipe or within twenty-four (24) inches (vertically) of flexible pipe; however, the material placed within this zone shall comply with the requirements of these STANDARDS AND SPECIFICATIONS. Flooding or jetting of trenches shall not be allowed without written approval from the City Engineer 355.00 Compaction Testing Compaction testing shall be performed at a minimum frequency of one test for every one- thousand (1,000) yds and no less than two tests per day for embankment fill materials. Compaction testing shall be performed at a minimum frequency of test per two-hundred (200) yds3 of backfill material or at least one test per two-hundred and fifty (250) lineal feet per lift, whichever controls. Sand cone testing or other means of verifying nuclear moisture and density test results shall also be performed. Testing shall be performed at various depths and locations, and at all vertical structures. The project Soils Engineer and/or the City Engineer may require additional testing around structures, manholes, valve boxes, etc. Field test results shall be submitted to the City Engineer within twenty-four (24) hours of the test or on the next working day. In no case shall fill or backfill be placed on materials that did not pass moisture and density testing. Moisture and density testing shall be performed by a qualified technician who works under the direct supervision of a Colorado Registered Professional Engineer. Final soil compaction reports shall be prepared and signed by a Colorado Registered Professional Engineer, and who is qualified to prepare such reports. Reports shall be submitted to the City Engineer within one week of the test. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-83 360.00 ROADWAY EXCAVATION, BACKFILL AND COMPACTION Prior to placement of street subgrade, base, paving and concrete materials, utilities shall be installed, utility service lines shall be stubbed to the edge of the R.O.W., and all trenches shall be backfilled and properly compacted. Roadway excavation shall be in accordance with ‘unclassified excavation’ as defined in Section 340.01 Definitions of these STANDARDS AND SPECIFICATIONS, except for areas of ‘rock excavation’, as defined in the same Section. Material and excavation for the roadway backfill shall comply with Section 341.02 Embankment Material of these STANDARDS AND SPECIFICATIONS. All roadway backfill shall be compacted to densities and moisture contents shown in the following table, unless otherwise required by the project Soils Engineer and the City Engineer: Soil Classification AASHTO M145 Relative Compaction By Standard Proctor ASTM D698 or AASHTO T99 (percent compaction) Relative Compaction By Modified Proctor ASTM D1557 or AASHTO T180 (percent compaction) Moisture Content Range (with respect to optimum) A-1, A-2, A-3 - 95 -2 to +2 (based on AASHTO T180) A-4, A-6, A-7 95 - -1 to +3 (based on AASHTO T99) Prior to placement and compaction of roadway fill, all existing rubble and organic material shall be removed down to existing ‘suitable material’, as defined in Section 340.01 Definitions of these STANDARDS AND SPECIFICATIONS. The existing suitable material shall then be scarified and roadway fill placed in accordance with Section 341.01 Preparation of Embankment Subgrade of these STANDARDS AND SPECIFICATIONS. 361.00 Subgrade Refer to Section 350.00 TRENCHING, BACKFILLING AND COMPACTING and Section 360.00 ROADWAY EXCAVATION, BACKFILL AND COMPACTION of these STANDARDS AND SPECIFICATIONS for backfill of concrete flatwork and structures. Refer to Section 934.00 Construction of Pavement Sections of these STANDARDS AND SPECIFICATIONS. Subgrade and subgrade treatments described herein shall consist of soils directly under pavements and concrete curb or sidewalk and shall conform to the lines, grades, and cross- sections shown on the approved plans. All work shall be observed and tested by the project Soils Engineer or representative. ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-84 The construction of subgrade shall consist of preparing the approved subgrade material to form a firm, stable foundation. Each layer of material shall be placed and spread so that after compaction it shall conform to the width and crown of the typical cross-sections. Soft and yielding material and portions of the subgrade which show deflection shall be scarified and recompacted or removed and replaced with base course or other material approved by the project Soils Engineer and the City Engineer, and compacted as specified herein. The wetting of subgrade layers shall be done with sprinkling equipment of a type that ensures uniform and controlled distribution of the water. All wetting shall be done by uniformly sprinkling each layer of material being placed with only the amount of water needed to obtain maximum density of the material. Concurrently with the wetting operations, the material shall be uniformly compacted by rolling. Rolling equipment shall consist of one or more of the following: rubber tired roller, sheepsfoot roller and flat wheel steel roller. After excavation and embankment construction are complete and the subgrade brought to final grade, it shall be rolled with a rubber-tired roller which is a minimum size of eight to twelve (12) tons and other compaction equipment as required to bring the subgrade to the density and moisture content shown in the following table, unless otherwise required by the project Soils Engineer and the City Engineer: Soil Classification AASHTO M145 Relative Compaction By Standard Proctor ASTM D698 or AASHTO T99 (percent compaction) Relative Compaction By Modified Proctor ASTM D1557 or AASHTO T180 (percent compaction) Moisture Content Range (with respect to optimum) A-1, A-2, A-3 100 - -2 to +2 (based on AASHTO T180) A-4, A-6, A-7 95 - -1 to +3 (based on AASHTO T99) No concrete or asphalt pavement, subgrade or base course shall be placed on unsuitable material. 361.01 Over-Excavation for Expansive Soils An Over-Excavation Permit shall be required in accordance with Section 151.00 Public/Private Improvement Permit (PPIP), Grading Permit and Over-Excavation Permit of these STANDARDS AND SPECIFICATIONS. Soils with a Plasticity Index over ten (10) and less than thirty (30) shall be over-excavated and recompacted to ninety-five (95) percent of maximum Standard Proctor dry density as ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-85 determined by ASTM D698 or AASHTO T99. The moisture content shall be maintained between the optimum moisture content and three percent over the optimum moisture content There shall be a minimum of twelve (12) inches of soil stabilization below the pavement section included as part of the depth of treatment, and the total depth of treatment shall be in accordance with the approved pavement design. Soils with a P.I. of thirty (30) or greater may require moisture treatment followed by pozzolan treatment (lime, cement, fly ash, kiln dust) or other subgrade stabilization method approved by the City Engineer. Refer to the Minimum Over-Excavation Requirements table below. Stabilized subgrade shall extend to the back of the sidewalk for streets with attached sidewalks, and to one foot behind the back of the curb for streets with detached sidewalks. The City Engineer may waive the pozzolan treatment requirement for onsite soils that have P.I.’s of thirty (30) or greater when the following conditions exist: • The soils have a moisture content between the optimum moisture content and three percent over the optimum moisture content • The soils have a maximum Standard Proctor dry density of at least ninety-five (95) percent, and • The soils exhibit a swell potential of less than two percent as determined under a two-hundred (200) psf surcharge. In lieu of subgrade stabilization, a composite section designed by a Colorado Registered Professional Engineer and consisting of at least twelve (12) inches of base course may be approved by the City Engineer. Unless otherwise recommended by the project Soils Engineer and approved by the City Engineer, the following minimum over-excavation requirements shall apply for expansive soils: Minimum Over-Excavation Requirements PLASTICITY INDEX DEPTH OF TREATMENT Local and Connector Streets Arterials 10-29 1 feet 2 feet 30-40 2 feet 3 feet > 40 4 feet 4 feet 361.02 Base Course (For Composite Sections) 361.02.01 Materials Base course subgrade shall consist of a foundation course composed of crushed gravel, recycled concrete or crushed stone and filler, constructed on the prepared subgrade. Material composed of uniform size particles, or which contains pockets of excessively fine or excessively coarse material, shall not be approved for use. Materials and construction shall be in accordance with the requirements of Section 304 of the CDOT Standard Specifications for Road and Bridge Construction. Gradation shall be Class 5 (1½” maximum) or Class 6 maximum), in ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-86 accordance with Table 703-2 of CDOT Standard Specifications for Road and Bridge Construction. 361.02.02 Construction All work shall be observed and tested by the project Soils Engineer or representative. The base course material, aggregate base or recycled concrete, shall be placed on the previously prepared subgrade at the locations and in the proper quantities to conform to the cross-sections shown on the approved plans and as directed by the City Engineer. Geotextile fabric shall be installed if required on the approved plans. Placing and spreading shall be done by means of a spreader machine, moving vehicle, motor grader, or by other approved equipment methods. The material shall be placed without segregation. Any segregated areas shall be removed and replaced with uniformly graded material at the Contractor's expense. The thickness of each base course layer shall not exceed six inches before compaction. If the required depth exceeds six inches, and is less than twelve (12) inches, material shall be placed in two or more lifts of approximate equal thickness. If uniform density cannot be obtained by six inch lifts, the maximum lift thickness shall not exceed four inches. Base course material shall not be placed on a dry or dusty soil foundation which could cause rapid dissipation of moisture from the base course material and hinder or preclude proper compaction. Excessively dry soil foundations shall have water applied to them and shall be reprocessed and recompacted. If, at any time, the subgrade construction is subjected to rain, snow or other significant events, the project Soils Engineer shall evaluate the affected areas prior to continuing with subgrade preparation and shall make a recommendation to the Contractor and to Broomfield. Rolling shall be continuous until the base course material has been compacted thoroughly in accordance with Section 304 of the CDOT Standard Specifications for Road and Bridge Construction. Water shall be uniformly applied during compaction to obtain the specified moisture content and to aid in consolidation. The surface of each layer shall be uniformly maintained during compaction operations. The prepared base course surface shall be smooth and free of ruts and irregularities, and shall be true to line and grade shown on the approved plans and as directed by the City Engineer. The base course shall be maintained in this condition by watering, drying, rolling, and/or blading until the asphalt or concrete flatwork is placed. The surface tolerance of the base course shall be in accordance with Section 301.04 of the CDOT Standard Specifications for Road and Bridge Construction. 361.03 Lime-Treated Subgrade When required, lime treated subgrade shall comply with Section 307 of the CDOT Standard Specifications for Road and Bridge Construction. Lime-treated subgrade shall extend to the ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-87 back of the sidewalk for streets with attached sidewalks, and one foot behind the back of the curb for streets with detached sidewalks, as shown in the Detail Drawings. Alternative methods of soil stabilization may be allowed with approval of the City Engineer. Soil mix design procedures shall comply with the CDOT Standard Specifications for Road and Bridge Construction. Sulfate testing shall be performed on streets to have lime-treated subgrade. The initial sampling and testing frequency shall be every five hundred (500) feet per lane. Each sample shall consist of soils evenly distributed in the top twenty-four (24) inches of the subgrade to be lime-treated. Where sulfates greater than 0.03 ppm or 0.003% by volume are discovered, additional sampling and testing within a one-hundred (100) foot radius of the “hot” soils shall be performed. Testing shall occur until the areas with sulfates greater than 0.03 ppm are isolated and removed. 361.04 Proof-Roll Observation and Testing Proof-roll observation and testing (proof-rolling) may be required to determine whether certain areas of subgrade meet compaction requirements. Where required by the City Engineer, proof- rolling shall be performed as designated with a water truck loaded to a minimum of 36,000 lb. Tires shall be inflated to a minimum of seventy (70) pounds per square inch and a maximum pressure of ninety (90) pounds per square inch. Air pressure in the tires shall be maintained within a tolerance of five pounds per square inch. Within the twenty four (24) hour time period prior to paving, subgrade compaction testing and proof -rolling with a water truck shall be required. After passing compaction tests, the Contractor and/or Owner’s representative shall proof-roll the areas. No proof-roll inspections shall be performed until all underground utility testing is complete. Subgrade areas failing compaction testing or proof-rolling shall be delineated and reprocessed and/or removed and replaced in a manner approved by the project Soils Engineer and the City Engineer. Such procedures may include over-excavation, scarification, moisture- conditioning, recompaction, and/or replacement with suitable materials that comply with the moisture and density requirements. In addition to complying with moisture and density requirements, all subgrade materials shall exhibit stability during proof-rolling. Additional compaction testing and proof-rolling may be required at the discretion of the City Engineer. All proof-rolling operations shall be at the Contractor’s expense. 370.00 RESTORATION AND CLEAN UP At all times during construction, the Contractor shall maintain the site, including partially finished structures, material stockpiles and other like areas, in a reasonable state of order and cleanliness. The grade and condition of all unsurfaced areas shall be restored to a condition equal to or better than the grade and condition immediately prior to construction, unless otherwise shown in the approved plans and approved by Broomfield. The Contractor shall restore or replace all seeded areas, sod, trees, landscaping materials, landscape irrigation systems, fences, and any other ---PAGE BREAK--- SOILS AND EARTHWORK SECTION 300 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 300-88 items, to a condition equal to or better than before the work began and to the satisfaction of the City Engineer. All grassed areas shall be reseeded or resodded in accordance with Section 1000 PARKS AND RECREATION CONSTRUCTION of these STANDARDS AND SPECIFICATIONS, and the Contractor shall be responsible for maintaining these areas until substantial growth occurs and Construction Acceptance. Refer to Section 200 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. All pavement and concrete flatwork shall be restored or replaced to a condition equal to or better than before the work began and to the satisfaction of the City Engineer. In the event of failure of the Developer or Contractor to complete work, correct deficiencies, or clean up a project site in a reasonable time period, Broomfield has the right to draw upon the performance guarantee, as specified in the Subdivision Improvement Agreement. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-89 SECTION 400 WATER SUPPLY FACILITIES 401.00 GENERAL CONDITIONS 401.01 Cross Connections 93 410.00 DESIGN CRITERIA 410.01 93 411.00 Design Flow 94 411.01 Potable Water Distribution 94 411.02 Non-Potable Water Distribution System 94 412.00 Operating Pressure 95 413.00 Fire Hydrant 95 414.00 Fire Lines 96 415.00 Distribution System 96 416.00 Valve Spacing and 96 417.00 Air Release and Vacuum Relief 96 418.00 Blow-off Valves and Drains 97 418.01 Blow-off 97 418.02 97 419.00 Pipe 97 419.01 Hydraulic Design 97 419.02 Location (Typical) 97 419.03 Horizontal and Vertical 98 419.04 Pipe 98 419.05 Relation to 98 420.00 GENERAL 421.00 98 422.00 Permits 99 423.00 Maintenance of Traffic 99 430.00 POTABLE, RAW AND REUSE WATER MAIN CONSTRUCTION..............99 431.00 Site Work and 99 431.01 Trenching, Backfilling and 99 431.02 Preservation of 99 ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-90 432.00 Materials 99 432.01 99 432.02 Pipe 100 432.03 Polyethylene Wrap for Ductile Iron Pipe and 101 432.04 Fittings 101 432.05 Gate 101 432.06 Butterfly 102 432.07 Pressure Reducing 102 432.08 Fire Hydrants 103 432.09 Valve 104 432.10 Air Release and Vacuum Relief 105 432.11 Irrigation Flow Control 105 432.12 Blow-off and Drain 105 432.13 106 432.14 106 432.15 Manhole Base Slabs and Base Beams 106 432.16 Sump Pits for Vaults and 106 432.17 Vent 106 432.18 Corrosion Protection 107 432.18.01 108 432.18.02 108 432.19 Tracer Wire and Warning Tape 108 432.20 Bedding 109 432.21 109 432.22 Plastic Liner Pipe 109 432.23 Steel Casings for 109 433.00 109 433.01 109 433.02 Alignment and 109 433.03 Protection of Existing Underground Utilities 110 433.04 Interruption of 110 433.05 Pipe Installation 110 433.06 Thrust Blocking, Restrained Joints and 110 433.07 Setting Valves and Fire Hydrants 111 433.08 Plastic Liner Pipe 111 433.09 Steel Casing and Carrier Pipe Installation 112 433.10 Cathodic Protection Test 112 433.11 Plugging of Dead Ends 112 433.12 Filling and Venting the 112 433.13 Disinfection and Flushing of Water 112 433.14 113 433.15 Concrete 113 434.00 Inspections 113 ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-91 440.00 WATER SERVICE LINE CONSTRUCTION 441.00 115 441.01 116 442.00 Equipment and Materials 116 442.01 Water Service 116 442.02 Water Service Saddles 116 442.03 Meters 116 442.04 (Left Blank Intentionally) 117 442.05 (Left Blank Intentionally) 117 442.06 Outside Meter 117 442.07 Inside Meter Setting and Remote 117 442.08 Meter Bypass 118 442.09 Meter Check 118 442.10 Valves for Use with Meters 118 442.11 Meter 118 442.12 Meter Yokes (Copper Setters) 118 442.13 (Left Blank Intentionally) 118 442.14 (Left Blank Intentionally) 118 442.15 Meter Pits and 119 442.16 Corporation Stops 119 442.17 Curb 119 442.18 Curb Stop Service Boxes 119 442.19 Brass Fitting 119 442.20 Backflow Preventers 120 443.00 Tapping the 120 450.00 PUMPING 451.00 120 452.00 Design 121 452.01 Pumps and Pump 121 452.02 Controls and Supervisory Control and Data Acquisition (SCADA) 121 452.03 Site Improvements 121 460.00 TRENCHING, BACKFILLING AND COMPACTING 470.00 HEALTH AND SAFETY 480.00 RESTORATION AND CLEANUP DETAIL DRAWINGS – SECTION 400 400-1 Air & Vacuum Relief Valve Vault 400-2 Temporary Blowoff ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-92 400-3 Transmission Main Drain 400-4 Fire Hydrants, Mains & Valves 400-5 Tracer Wire 400-6 PRV in a Vault (Plan) 400-7 PRV in a Vault (Section) 400-8 Commercial Vent Pipe 400-9 Residential Vent Assembly 400-10 Polyethylene Wrap 400-11 Insulators 400-12 Anode Test Station 400-13 Domestic Service Line – Outside Meter – 1” 400-14 Meter Pit - 1½” & 2” 400-15 3” and Larger Meter Plans & Sections 400-16 3” and Larger Meter Vault Dimensions 400-17 Service Line – Commercial Outside Meter 400-18 Irrigation Service Line – Meter – ¾“ & 1” 400-19 Thrust Blocking 400-20 Length of Restrained Pipe 400-21 Waterline Trench Detail 400-22 Meter / Flow Control Pit 400-23 Service Line – Remote Meter Register 400-24 Water Meter Setting 400-25 Inside Meter Settings – 1½” & 2” 400-26 Remote Register Meter Installation 400-27 Future Connections at Intersections 400-28 Adjustable Pipe Support 400-29 Outside Setting for ¾” & 1” Meters 400-30 Water Valve Box – Surface Detail 400-31 Tracer Wire Box 400-32 Fire Hydrant Guards 400-33 Concrete Encasement Detail 400-34 Water Line Lowering – Depth >10’ 400-35 Water Line Lowering – Depth <10’ 400-36 Blow-off Warning Sign 400-37 Fire Line Taps for 4” & Below ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-93 SECTION 400 WATER SUPPLY FACILITIES 401.00 GENERAL CONDITIONS Refer to Section 100 TITLE, SCOPE AND GENERAL CONDITIONS of these STANDARDS AND SPECIFICATIONS for additional requirements that apply to all projects within Broomfield. 401.01 Cross Connections CROSS CONNECTIONS SHALL NOT BE ALLOWED. For enforcement provisions, refer to Broomfield Municipal Code Chapter 13-07 regarding cross connection and backflow connection controls for the treated water system. 410.00 DESIGN CRITERIA 410.01 General All potable water distribution systems shall comply with the requirements of the STANDARDS AND SPECIFICATIONS for water main and service line construction and may include special criteria established by Broomfield for the overall hydraulics of the water utility system. Special criteria shall be outlined at pre-design meetings, as determined necessary by the City Engineer. The requirements set forth in the latest edition of the Denver Water Board Specifications shall apply for information omitted in these STANDARDS AND SPECIFICATIONS. These STANDARDS AND SPECIFICATIONS also cover design and construction of waterlines for the transmission and distribution of reuse water (tertiary treated effluent) and for the supply of raw water (water in its natural state, prior to any treatment and taken from a natural or impounded body of water) to maintain ponds as visual amenities. The area wetted with reuse water shall be designed to avoid picnic tables, drinking fountains and playground equipment. Reuse and raw water are intended for non-potable uses such as landscape irrigation, and are not intended for use on residential property and other areas with a potable water supply. These STANDARDS AND SPECIFICATIONS shall apply to all reuse waterlines from the connection to Broomfield’s tertiary treated effluent transmission main or existing reuse lateral to the points of use or application. Design of irrigation systems connected to the reuse water distribution system shall be in accordance with the applicable sub-sections of Section 1000 PARKS AND RECREATION CONSTRUCTION of these STANDARDS AND SPECIFICATIONS and shall include backflow prevention. Unless otherwise specified, the provisions of Section 370.00 RESTORATION AND CLEANUP of these STANDARDS AND SPECIFICATIONS shall apply to reuse and raw waterline installation. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-94 411.00 Design Flow Requirements 411.01 Potable Water Distribution System The design of the potable water distribution system shall be based on the following: UNIT WATER DEMANDS FOR FUTURE LAND USE Land Type Avg. Demand Max. Day/Avg. Day Max. Hr./Max. Day Residential 145 GPCD* 3.05 1.9 Commercial 1651 GPD/Acre 2.00 1.9 Industrial 1651 GPD/Acre 1.32 1.9 Park 3060 GPD/Acre 3.90 1.9 *Gallons Per Capita/Day Minimum residential population density, household density and land usage shall be as noted on the approved PUD and/or Plat, or as determined by the Broomfield Planner. Fire flows may be calculated from more than one hydrant, providing the hydrants used are directly accessible to all possible fire locations in the area served and not at the end of cul-de-sacs. Fire flows required by North Metro Fire Rescue shall be: A. Available fire flow shall be 20 psi residual minimum. B. Minimum fire flow (2 hour duration) for any newly developed areas: Single-family detached dwellings and duplexes 1,500 gpm All other buildings 3,500 gpm Note: Above fire flow requirements may be increased due to type of construction and size of building, per direction of the Fire Marshall. C. The Developer or Contractor is responsible for obtaining fire flow tests. Scheduling of tests shall be coordinated with the Broomfield Utility Maintenance division of Public Works. The design engineer is responsible for obtaining pressure test data, including supplying pressure measuring equipment. The design engineer is also responsible for arranging water valve and hydrant operation with the Utility Maintenance division of Public Works. 411.02 Non-Potable Water Distribution System Where reuse water is to be supplied at the necessary peak application rate, under system pressure, directly to the sprinkler heads, the following design criteria shall apply: A. Annual Irrigation Volume: Not less than 1.0 ac-ft/yr. or more than 2.5 ac-ft/yr. times total acres irrigated. B. Maximum Daily Irrigation Volume: 0.07 ac-ft per acre times total acres irrigated ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-95 C. Maximum Peak Flow Rate: 23.5 gpm per acre times total acres irrigated. Where reuse water shall first be discharged to storage prior to irrigation application, the following design criteria shall apply: A. Annual Irrigation Volume: Not less than 1.0 ac-ft/yr. or more than 2.5 ac-ft/yr. per irrigated acre. B. Maximum Irrigated Volume: 0.65 ac-ft per acre times total acres irrigated. C. Maximum Peak Flow Rate: 5.9 gpm per acre times total acres irrigated. For non-irrigation use (storage), maximum daily, maximum peak flow and annual volume rates shall be determined on a case by case basis. 412.00 Operating Pressure Requirements All areas shall be designed to provide a maximum static head of two-hundred ninety (290) feet or one-hundred twenty-five (125) psi and a minimum static head of one-hundred (100) feet or forty- three (43) psi. Distribution systems shall also be designed to maintain a twenty (20) psi residual pressure during the required fire flow and a forty (40) psi residential residual during peak residential flows. The maximum pressure drop from static head to either fire flow or peak residential flow shall not exceed thirty (30) psi. Broomfield’s reuse water transmission main has a maximum static hydraulic grade line of elevation 5666 ft. Broomfield does not guarantee any minimum dynamic pressure at any point on the system. The Developer shall perform the necessary hydraulic analysis to determine design pressure for the project. THE DETERMINATION OF THE NEED FOR AND THE INSTALLATION OF A PRV SHALL BE THE RESPONSIBILITY OF THE DEVELOPER. 413.00 Fire Hydrant Spacing In single-family residential areas, fire hydrants shall be spaced a maximum of five-hundred (500) feet apart as measured along street curb line, and at an overall spacing that shall average not less than one hydrant to two-hundred thousand (200,000) square feet accessible to the fire hydrant throughout an individual subdivision. A hydrant shall be placed in the end of each cul-de-sac. Fire hydrants at the end of cul-de-sacs shall not be considered available for fire fighting purposes. In business, industrial, and high-density residential areas, hydrants shall be spaced not greater than three-hundred (300) feet apart or as approved by North Metro Fire Rescue. Hydrants shall be spaced not greater than one-thousand (1,000) feet along connector and arterial roadways without domestic water service lines. All fire hydrant locations and spacing shall be reviewed and approved by North Metro Fire Rescue. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-96 414.00 Fire Lines The property owner shall maintain all fire lines extending from the valve on the Broomfield water main. Valves on newly constructed fire lines shall be located on the tee at the main line. Fire lines are to be used exclusively for fire protection. Domestic water taps and irrigation taps shall not be allowed on the fire line. 415.00 Distribution System Layout Distribution mains and lateral lines shall be located as shown on the approved plans, and shall be a minimum of eight inch diameter pipe. Dead ends shall be minimized by looping whenever possible. Lines at ends of long cul-de-sacs shall be looped along lot lines to adjacent streets or in outlots whenever possible. If a utility easement is required, it shall be a minimum of thirty (30) feet wide. Dead ends shall be provided with a fire hydrant. Mains and laterals shall be extended to the boundaries of Filings or Phases and completely across the frontage of individual lots. 416.00 Valve Spacing and Marking Valves shall be placed with a maximum spacing of six-hundred (600) feet in all distribution mains and lateral lines. Spacing of valves in transmission mains may be greater than six-hundred (600) feet with the approval of the City Engineer. Valves shall also be placed at each fire hydrant. All waterline tees shall have a minimum of two valves. All waterline crosses shall have a minimum of three valves. For a succession of short blocks perpendicular to the direction of the distribution main and without residential or commercial services between them, one or more intersection(s) may have the valve in that direction omitted, but the six-hundred (600) foot maximum spacing requirement shall be maintained. Valves shall also be placed at each end of a waterline running through an easement on private property, on each side of a major creek or channel crossing, and on each side (at property lines extended) of a distribution line that provides service to a hospital, school or large industrial user. 417.00 Air Release and Vacuum Relief Valves Combination air and vacuum relief valves shall be installed at each high point in all distribution mains and at high points of lateral lines, as required by the City Engineer. Air and vacuum relief valves shall be installed in precast manholes or vaults fitted with air vents open to the atmosphere and in accordance with the Detail Drawings. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-97 418.00 Blow-off Valves and Drains 418.01 Blow-off Valves Provisions shall be included in the design to allow for the flushing of distribution mains and lateral lines at any low point in the system. Fire hydrants may be used for permanent blow-offs. For temporary dead end waterlines, a temporary blow-off valve may be permitted. The blow-off assembly shall be installed perpendicular to and on the downhill side of the waterline and shall drain to the nearest street gutter line or drainage channel. The blow-off assembly standpipe shall have a threaded end to accept a fire hose coupling. The top of the standpipe shall be between four and six inches below grade, in accordance with the Detail Drawings. 418.02 Drains Provisions shall be included in the design to allow for the draining of transmission lines. Refer to the Detail Drawings. 419.00 Pipe All pipe used for distribution mains and lateral lines having a diameter of twelve (12) inches or less shall be PVC pipe unless otherwise approved in writing by the City Engineer. Distribution mains in excess of twelve (12) inches in diameter shall be subject to approval and as directed by the City Engineer. The design engineer shall specify the pipe class as required for specific project conditions. 419.01 Hydraulic Design All pipes shall be designed to provide a maximum velocity of ten (10) feet per second. Distribution mains and lateral lines shall be designed using the Hazen-Williams friction coefficients and maximum head losses noted below: Pipe Size Hazen-Williams Friction Coeff. Max. Head Loss 8” - 12” C-100 2' per 1,000' 14” - 16” C-110 2' per 1,000' 20” C-130 1.5' per 1,000' Over 20” As directed by the City Engineer 419.02 Location (Typical) Water mains shall typically be located north or east of the centerline of the street, unless otherwise approved by the City Engineer. At street intersections, valves shall be located at the extension of property lines. Fire hydrant gate valves shall be placed near the main. All fire hydrants shall have a restrained connection directly to the tee off the main. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-98 In all instances, water mains shall extend to the boundary line of the property or subdivision served, to the center of boundary streets or to the outside of paved areas, as noted on the approved plans. A water main serving one lot shall extend the entire length across the frontage of that lot. 419.03 Horizontal and Vertical Alignment Methods of deflection of PVC and ductile iron pipe joints shall be in accordance with manufacturers’ recommendations only. Pipe shall not be bent. For horizontal alignment changes, pipe may be deflected at pipe joints up to a maximum of one degree (1º). Fittings are required for deflections to cross under utilities, but the contractor may request a variance from the City Engineer to vertically deflect pipe joints a maximum of one degree (1º). Changes in direction of waterlines may require fittings. For a waterline lowering that is greater than ten (10) feet deep, construct a parallel line up to—but not including—the top forty-five degree (45o) bends. The parallel line shall be filled with water to prevent gaskets from drying out. Extra lubricant shall be used with the gaskets, and each end shall be sealed with a gasketed plug. Vents shall be used to ensure the entire parallel line is filled with water. If the pipe material is ductile iron pipe, it may be required to be cathodically protected. Install a valve at each end of the lowering. A hydrant shall be installed between one of the valves and the adjacent forty-five degree (45o) bend to facilitate flushing of the lowered section. Sleeves shall not be used for waterline lowering. Refer to the Detail Drawings. 419.04 Pipe Depths All water main pipe shall be installed with a minimum of four feet – six inches of cover from finished grade of street to the top of the pipe barrel. Proposed installations greater than ten (10) feet from finished grade require City Engineer approval. 419.05 Relation to Waterlines Refer to Section 516.00 Relation to Waterlines for additional requirements. 420.00 GENERAL PROVISIONS 421.00 General Construction of all water mains within Broomfield and all water service lines that connect to water mains within Broomfield shall be in accordance with these STANDARDS AND SPECIFICATIONS and the approved plans. These STANDARDS AND SPECIFICATIONS shall apply to new water system construction as well as to repairs to existing facilities. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-99 When special conditions are encountered or deviations from these STANDARDS AND SPECIFICATIONS are required by the City Engineer, and such changes are in the best interests of Broomfield, the decision of the City Engineer shall be final. 422.00 Permits Required A Public/Private Improvement Permit (PPIP) shall not be issued until the City Engineer has approved the water system plans. A pre-construction meeting with Broomfield inspection staff and the project engineer shall be scheduled and completed prior to the commencement of any construction. 423.00 Maintenance of Traffic When street cuts are required for water system construction or repairs to existing facilities, the following conditions shall be met to avoid interference with traffic: Street service cuts shall only be open between 9:00 a.m. and 4:00 p.m. Two-way traffic shall be maintained at all times around the construction area. A Traffic Control Plan (TCP) shall be prepared in accordance with Section 141.12 Traffic Control, Barricades and Warning Signs of these STANDARDS AND SPECIFICATIONS, and submitted to the City Engineer for approval prior to the commencement of construction. 430.00 POTABLE, RAW AND REUSE WATER MAIN CONSTRUCTION 431.00 Site Work and Earthwork Refer to Section 340.00 EARTHWORK of these STANDARDS AND SPECIFICATIONS. 431.01 Trenching, Backfilling and Compacting Refer to Section 350.00 TRENCHING, BACKFILLING AND COMPACTING of these STANDARDS AND SPECIFICATIONS. 431.02 Preservation of Monuments Refer to Section 141.00 Protection of Public, Private and Utility Interests of these STANDARDS AND SPECIFICATIONS. 432.00 Materials 432.01 General All references to the Denver Water Board Specifications cited in these STANDARDS AND SPECIFICATIONS shall mean the latest edition of the Engineering Standards of the Board of Water Commissioners of Denver, Colorado. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-100 Pressure classes or ratings specified for materials in this section are minimums. The pressure class or rating for all materials used in a water supply system design shall be adequate for the water system pressure requirements. 432.02 Pipe All pipe for water main construction shall be as described in Section 419.00 Pipe of these STANDARDS AND SPECIFICATIONS. Each pipe shall be marked with the class designation and size. A six inch wide detectable warning tape shall be installed above all pipe for the purpose of warning of location of buried pipeline, in accordance with the Detail Drawings. A No. 6 AWG solid, uninsulated copper wire shall be attached to all pipe for the purpose of future location, in accordance with the Detail Drawings. Installation of all pipe shall be in accordance with the manufacturers’ recommendations and these STANDARDS AND SPECIFICATIONS. PVC Pipe: All PVC pressure pipe for potable waterlines in sizes up through twelve (12) inch diameter shall comply with AWWA C900, pressure class 200 psi and wall thickness dimension ratio fourteen (DR-14) minimum. PVC pipe for non-potable waterlines in sizes up through twelve (12) inches in diameter shall comply with AWWA C900, pressure class 200 psi (DR-14) and shall be purple in color. The purple color shall be a factory pigment of the PVC material, and painting of the pipe material is not acceptable. PVC pressure pipe for potable waterlines in fourteen (14) inch through thirty-six (36) inch diameter shall comply with AWWA C905, pressure rating 165 psi (DR-25) minimum. For PVC pipe designed for a maximum safe operating pressure of 125 psi, or when required by the City Engineer, the minimum pressure rating shall be 235 psi (DR-18), or as determined by the design conditions. PVC pressure pipe for non-potable waterlines in fourteen (14) inch through thirty-six (36) inch diameter shall comply with AWWA C905, pressure rating 165 psi (DR-25) or 235 psi (DR-18). PVCO Pipe: Molecularly Oriented Polyvinyl Chloride (PVCO) pressure pipe for potable waterlines in sizes up through twelve (12) inch diameter shall comply with AWWA C909, pressure class 200 psi minimum. Ductile Iron Pipe: All ductile iron pipe shall comply with AWWA C151. Class designation shall be as shown on the approved plans or as designated by the City Engineer for each individual project. Joints shall be mechanical or push-on and shall comply with AWWA C111. Ductile iron pipe shall have a standard cement mortar lining that complies with AWWA C104 and a bituminous outside coating approximately one mil thick. Ductile iron pipe used in construction of hydrant laterals and fire lines shall be thickness Class 52. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-101 Ductile iron pipe used in construction of non-potable waterlines shall be Class 350. Ductile iron pipe (DIP) may be required for non-potable waterlines that have higher pressures and that are twelve (12) inches in diameter or less. Ductile iron, copper, steel or other non-potable pipe material not readily available in a purple color shall be encased in purple polyethylene (poly-wrapped). 432.03 Polyethylene Wrap for Ductile Iron Pipe and Fittings The polyethylene encasement material shall be in accordance with the Detail Drawings. 432.04 Fittings Ductile iron fittings shall comply with AWWA C110 and/or C153. Class designation shall be compatible with the pipe class designated for the project. Joints shall be mechanically restrained. Integral restrained joints that comply with AWWA C111 may be used with approval of the City Engineer. Rubber gasket joints shall comply with AWWA C111. A standard thickness cement mortar lining shall be applied to comply with AWWA C104. All fittings shall receive a bituminous outside coating approximately one mil thick or be lined and coated with fusion bonded epoxy coating to comply with AWWA C116. Mechanical joint restraint shall be wedge action, self-actuating, such as Megalugs. Restraints shall be protected in accordance with Section 432.18 Corrosion Protection Systems of these STANDARDS AND SPECIFICATIONS. NO ALL-THREAD SHALL BE USED. 432.05 Gate Valves ALL GATE VALVES FOR POTABLE AND RAW WATERLINES SHALL OPEN LEFT (COUNTER-CLOCKWISE), AND ALL GATE VALVES FOR REUSE WATERLINES SHALL OPEN RIGHT (CLOCKWISE). Gate valves in sizes four inches to twelve (12) inches shall be of the ductile iron body, non-rising bronze stem, resilient-seated type manufactured in accordance with AWWA C509 or AWWA C515. Class designation shall be compatible with the pipe class designated for the project. Valves shall provide zero leakage at operating pressures up through one hundred fifty (150) psi in both directions. They shall be furnished with a two inch square operating nut or hand wheel. End connections shall be furnished with all necessary joint materials and shall have a full opening flow way of equal diameter to the nominal size of the connecting pipe. The disc shall have an integrally cast ductile iron stem nut to prevent twisting or angling of the stem. The disc casting shall be open on one side so as to form no cavities for the accumulation of solids, and to permit the application of the protective coating. The sealing mechanism shall consist of a replaceable, contoured natural rubber disc seat ring, internally reinforced by a steel ring and molded separately from the disc. The seat ring shall be secured to the disc with self- locking stainless steel screws and shaped so that it cannot be installed improperly. The seat ring shall seal against an accurately formed machined surface in the valve body. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-102 Valves shall be provided with three O-ring stem seals, with two placed above and one below the thrust collar. The two upper O-rings shall be replaceable with the valve fully open and under pressure. The area between the O-rings shall be filled with a lubricant to reduce friction and to lubricate the O-ring each time the valve is operated. An anti-friction washer shall be placed above the thrust collar to further minimize operating torque. Structural design of the valve shall be such that if excessive torque is applied to the stem, failure of the pressure retaining parts shall not occur. Stem failure under such conditions shall occur externally at such a point as to enable the stem to be safely turned by use of a pipe wrench or other such readily available tool after exposure of the valve. The stem shall then be replaceable through removal of the two-bolt stuffing box. Coatings shall be equal to or exceed AWWA C550. All internal ferrous metal surfaces shall be fully coated and holiday free to a minimum thickness of four mils. The coating shall be a two-part thermosetting epoxy suitable for field over-coating and for touchup without special surface preparation or extreme heat. The supplier shall furnish detailed performance tests of adhesion, hardness and abrasion resistance of the furnished coatings. Coatings shall have a successful record of performance in valves, pipe or other allied equipment for a minimum of ten (10) years. 432.06 Butterfly Valves ALL BUTTERFLY VALVES FOR POTABLE AND RAW WATERLINES SHALL OPEN LEFT (COUNTER-CLOCKWISE), AND ALL BUTTERFLY VALVES FOR REUSE WATERLINES SHALL OPEN RIGHT (CLOCKWISE). All valves having a nominal diameter of fourteen (14) inches or greater shall be geared butterfly valves designed for direct burial and shall comply with AWWA C504, Class 150-B. Class designation shall be compatible with the pipe class designated for the project. Valves shall be of the tight-closing, rubber seat type with rubber seats which are bonded to the valve body. No metal-to-metal sealing surfaces shall be permitted. Valves shall provide zero leakage at the pressure rating of the pipe in either direction. Valve discs shall rotate ninety (90) degrees from the full open position to the tight shut position. Coatings shall be equal to or exceed AWWA C550. Valve bearings shall be sleeve-type, corrosion-resistant and self- lubricating with the load not to exceed twenty-five hundred (2,500) psi. Valve operators shall be the traveling nut type designed to withstand three-hundred (300) foot- pounds of input torque at full open or closed positions without damage to the valve or operator. Valve operators shall be fully gasketed, grease packed, designed to withstand submersion in water to ten (10) psi and operate with a two inch square nut. 432.07 Pressure Reducing Valves All pressure reducing valves shall be 150 Class suitable for a working pressure of 250 psi. Distribution main and lateral line pressure reducing valves shall be installed in a vault and contain parallel valves for high and low flow ranges. Piping shall be ductile iron through the vault walls and extend three feet past the vault walls in accordance with the Detail Drawings. Oil filled differential gauges shall be installed with brass or stainless steel ball valves. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-103 Pressure reducing valves shall be installed at location(s) noted on the approved plans. The valve shall be capable of maintaining a constant pressure regardless of varying inlet pressure and shall be hydraulically operated and diaphragm-actuated with a globe or angle pattern. It shall contain a resilient, rubber disc having a rectangular cross-section contained on three and one-half (3-½) sides by a disc retainer, forming a tight seal against a single removable seat insert. The diaphragm assembly, containing a valve stem, shall be fully guided at both ends by a bearing in the valve cover and an integral bearing in the valve seat. This diaphragm assembly shall be the only moving part and shall form a sealed chamber in the upper portion of the valve, separating operating pressure from line pressure. The diaphragm shall consist of nylon fabric with rubber and shall not be used as a seating surface. Packing glands and/or stuffing boxes are not permitted, and there shall be no pistons operating the valve or pilot controls. All necessary repairs shall be possible without removing the valve from the line. The valve shall be furnished with an indicator rod to show valve position. The pilot control shall be a direct-acting, adjustable, spring-loaded, normally open, diaphragm valve designed to permit flow when controlled pressure is less than the spring setting. The control system shall include a fixed orifice. This valve shall be similar in all aspects to a Clayton 90-91AB and/or a Clayton 90-01AS Pressure Reducing Valve (PRV) as manufactured by Cla-Val Co., or an approved equal. 432.08 Fire Hydrants Fire hydrants shall comply with ANSI/AWWA C502 for dry-barrel fire hydrants, and shall be listed by Underwriters Laboratories and Factory Mutual Research Corporation. Casting or other permanent marks shall be used to confirm that fire hydrants comply with these standards. Fire hydrants shall also comply with the following supplementary specifications: A. Fire hydrants shall be either Mueller Super Centurion 200-A-423 or Waterous Pacer WB-67-250. B. Hydrants shall be rated at 250 psi operating pressure and tested at 500 psi per Section 5.1 of AWWA C502. Production testing of each hydrant shall be performed at 500 psi to assure proper assembly and operation and detection of any imperfections. All iron parts as designated in Section 3.1.2 of AWWA C502 shall be ductile iron. C. Hydrants shall be designed for five feet pipe bury and shall not be buried below the first flange. The first flange shall be two to four inches above grade. A maximum of one riser shall be used, and if a riser is required, a break- away coupling shall be installed two to four inches above grade. INSTALLATION OF A HYDRANT RISER REQUIRES A SEPARATE, SPECIFIC INSPECTION. D. Nozzles shall be two 2-½” hose connections 180 degrees apart and one 4-½” pumper connection. All nozzles shall be at the same elevation. Nozzle threads shall be National Standard Fire Hose coupling screw threads as described in Appendix A of AWWA C502, unless otherwise specified. Nozzles caps shall be provided with chains and gaskets. Nozzles caps shall have the same nut ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-104 configuration as the hydrant-operating nut. Nozzle shall be reverse threaded into the upper barrel and mechanically locked in place. E. Hydrant main valves shall be 5-¼” minimum and shall be of the full compression design, opening against and closing with the pressure. The main valve seat ring shall thread into a bronze sub-seat, and all gaskets sealing the seat ring shall be on a bronze-to-bronze seating surface. The seat ring threads shall not serve as pressure seal. The entire valve and rod assembly shall be removable by use of a small lightweight seat removal wrench. F. The drain valves shall allow complete drainage of all residual water in the hydrant. The circumferential drain passage inside the hydrant shall be bronze on all surfaces. The draining system of the hydrant shall be bronze with a sliding bronze drain valve. Sliding drain valves made of rubber, plastic or leather shall not be allowed. G. Hydrants shall be the breakaway types with a frangible groundline and rod coupling designed to break upon traffic impact to prevent further damage to the hydrant and connecting pipe. The frangible coupling shall allow the upper section to be rotated to any desired position. Couplings which employ lug devices or a breakaway barrel are not acceptable. Frangible bolts are not allowed. H. Hydrant operating nuts shall be ductile iron and shall be pentagonal in shape, 1½” point to flat. The operating nut shall also function as a weather shield. HYDRANTS SHALL OPEN LEFT (COUNTER-CLOCKWISE). I. The operating mechanism shall utilize two O-ring seals between the revolving nut and bronze-sheathed upper section of the valve rod. The top of the rod shall also be fitted with a travel stop nut to limit downward travel on the rod. All- weather grease shall be used to provide permanent lubrication. A thermoplastic or Teflon thrust ring shall be used to reduce friction while opening the hydrant. J. The hydrant inlet shall have mechanical joint restraint which shall be accomplished by use of wedge action, self-actuating fittings. K. The buried portion of the hydrant shall have a bituminous coating to comply with AWWA C116. All ferrous metal parts shall be coated to comply with AWWA C500. The bonnet and nozzle cap shall be given one shop coat of yellow color heavy duty alkyd enamel paint that complies with Federal Color No. 13538 Specifications. The remaining above ground portion of the fire hydrant shall also be shop painted chrome yellow. 432.09 Valve Boxes All buried valves shall be provided with a valve box. Valve boxes shall be gray cast iron, ASTM A48, three piece adjustable screw boxes with a round or oval base and a five and one-fourth (5-¼) inch screw-type shaft suitable for depth of cover as required. Box lids shall be marked “WATER”. All valves set at greater than normal depth shall have an extension stem provided and installed with the valve box so that the valve may be operated with a standard seven foot valve key. A valve operating nut at six feet or greater below final grade shall have an extension stem provided to bring the operating nut to a depth of four feet below final grade. Coatings shall ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-105 comply with AWWA C116. Boxes shall be Tyler Pipe screw-type cast iron valve box assembly Series 6860, or an approved equal. Reuse valve boxes shall be model number 3TCIDEN by Castings Inc., or an equal approved by the City Engineer. The lid shall be triangular with a purple finish and shall be marked “NON- POTABLE WATER”. 432.10 Air Release and Vacuum Relief Valves All combination air release and vacuum relief valves shall comply with AWWA C512. The large orifice of combination air valves shall allow air to escape during pipeline filling and to enter during drainage of the pipeline. The valve shall consist of a body, cover, baffle, float and seat. The float shall be stainless steel designed to withstand a maximum pressure of 1,000 psi. All materials shall comply with ASTM A126 and ASTM A240. Air release and vacuum relief valves shall be installed in a vault in accordance with the Detail Drawings. Galvanized piping or fittings shall not be allowed. 432.11 Irrigation Flow Control Valves Reuse water service lines shall be equipped with a flow control valve to limit flow to the maximum rate approved by Broomfield. Flow control valves shall be OCV Control Valves, “Rate of Flow Valve Series 120 G” or “Cla-Val Co Model 49-01”. If the design rate of flow exceeds a max:min ratio of 4:1, an OCV Series 120 G-4 flow control valve shall be used. Upon the Developer’s payment to Broomfield for the actual cost of the valve, the flow control valve shall be ordered and purchased by Broomfield and factory pre-set to the approved maximum flow rate. The pre-set flow rate shall not be field adjusted. The flow control valve shall be installed with the meter in a common vault in accordance with the Detail Drawings. 432.12 Blow-off and Drain Assemblies The temporary blow-off shall be through a two-inch ball valve with a two-inch gate valve operating nut, box, piping and cover. Unless otherwise approved in writing by the City Engineer, all piping shall be threaded copper and valves shall be brass. Galvanized piping and fittings are not allowed. Refer to the Detail Drawings. Permanent six inch drains for potable waterlines shall be approved in writing by the City Engineer and shall be constructed in accordance with the Detail Drawings. Six inch blow- offs for non-potable waterline flushing shall be constructed at all dead-ends and at other points deemed necessary by Broomfield. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-106 432.13 Vaults Vaults may be precast or cast-in-place and shall be constructed in accordance with these STANDARDS AND SPECIFICATIONS. Precast vaults shall be designed so that all joints and corners are waterproof. Precast and cast-in-place vaults shall be made waterproof after construction by use of sealants, epoxies, or other approved methods. The vault roof shall be designed to support the overhead fill, any surcharge and an H-20 traffic loading. Where the cover over the roof is less than two and one-half (2-½) feet or more than five feet, a cast-in-place vault is required. Cast-in-place meter vaults shall be in accordance with the Detail Drawings and shall be constructed of CDOT Class B concrete with steel reinforcement in accordance with the CDOT M&S STANDARDS. 432.14 Manholes Refer to Section 532.04 Manholes and Section 532.07 Cast and Ductile Iron Fittings of these STANDARDS AND SPECIFICATIONS. Lids shall be furnished with the word “WATER” cast on top. 432.15 Manhole Base Slabs and Base Beams Refer to Section 532.05 Manhole Bases and Base Beams of these STANDARDS AND SPECIFICATIONS. 432.16 Sump Pits for Vaults and Manholes Sumps with a gravity drain line or sump pump are required for vaults or manholes in areas where there is groundwater present and in all telemetry equipment and pressure regulating valve manholes and vault installations. Refer to the Detail Drawings. 432.17 Vent Pipes Vent pipes shall be used in all vaults and manholes to allow gases to escape. Installations that contain electrical equipment shall have a blower attached to the vent system. Vent pipes shall be field located at the nearest intersection of the street property line and the side lot line. Refer to the Detail Drawings. Above ground vent pipe shall be six and (6-5/8) inch O.D. galvanized steel pipe, Grade 40 that complies with ASTM A53. The vent screen shall be three-fourths inch No. 9- 11 flattened, expanded galvanized metal screen. Below ground vent pipe shall be six inch, schedule 40 PVC with glued joints. A PVC glued joint by standard pipe thread female adapter shall be used to connect the steel pipe to the PVC pipe at ground level. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-107 432.18 Corrosion Protection Systems When soil resistivity is less than two thousand five hundred (2,500) ohm-centimeters (OHM- CM), but greater than one thousand (1,000) OHM-CM, ductile iron pipe and fittings may be used but the ductile iron materials shall be protected against corrosion. Methods to provide corrosion protection of integral metallic parts of the water transmission system are as follows: A. Corrosion Resistant T-head Bolts and Nuts shall be 45,000 psi minimum steel with a fluoropolymer coating and shall be either “Cor-Blue” by NSS Industries or “Blue Bolt” by Birmingham Fasteners. B. Ductile Iron Pipe shall be furnished from manufacturer with cement mortar lining and bituminous coating. Pipe shall be double wrapped with polyethylene wrap and taped at each end. C. Butterfly and Gate Valves shall be furnished from manufacturer with a coating equal to or exceeding AWWA C550. Bolts and nuts shall either be epoxy or fluoropolymer coated. Valves shall be double wrapped with polyethylene and taped at each end. D. Mechanical Joint Tees, Bends, Caps, Plugs and all other fittings shall be furnished from manufacturer with cement mortar lining and bituminous coating. T-head bolts and nuts shall be corrosion resistant. Fittings shall be double wrapped with polyethylene and taped at each end. E. Mechanical Joint Restraint (Wedge action, self-actuating, such as Megalugs) for ductile iron pipe shall be furnished from manufacturer with a bituminous coating. Mechanical joint restraint for PVC pipe shall be furnished from the manufacturer with red primer coat. T-head bolts and nuts shall be corrosion resistant. Mechanical joint restraint shall be double wrapped with polyethylene and taped at each end. F. Polyethylene Wrap shall be eight (8)-mil minimum, close-laminated wrap and shall comply with the Denver Water Board Specifications Section MS-13. G. Damage to Epoxy and/or Other Material Coatings shall be repaired and inspected prior to installation. H. Polyethylene Wrapping and Taping shall be inspected by a Broomfield Inspector/Representative prior to backfilling. I. Record Documents shall provide coordinate locations of all metallic items, including but not limited to pipe, valves and fittings to “GPS backpack” accuracy. Refer to Section 200.00 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS for more information. J. Cathodic Protection for Steel Casings shall be protected from corrosion by a galvanic anode cathodic protection system when directed by the City Engineer. The galvanic anode cathodic protection system shall be comprised of two test stations placed at each end of each steel sleeve that shall connect galvanic anodes to the sleeve. The cathodic protection system shall be designed by a Colorado Licensed Professional Engineer, accredited by the National Association of Corrosion Engineers. Installation shall be performed ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-108 under the direction of a licensed Professional Engineer who is accredited by the National Association of Corrosion Engineers. Each cathodic protection system shall be tested under the direction of a Colorado Licensed Professional Engineer who is accredited by the National Association of Corrosion Engineers. A final, colored report on the installation and testing/monitoring procedures shall be prepared by a Colorado Licensed Professional Engineer who is accredited by the National Association of Corrosion Engineers and submitted to Broomfield. Metallic reuse pipe shall be electrically insulated at its connection to the transmission main. New runs of metallic pipe shall be designed for electrical continuity throughout the run, but shall be electrically insulated at connections with other pipelines. Bonding of joints shall be required. Ductile iron and steel pipelines shall be cathodically protected using the passive anode system. Cathodic protection test stations shall be provided and shall be shown on the approved construction drawings. 432.18.01 Insulators For metallic pipe, insulators shall be installed at the outlet end of the corporation stop. Insulators shall be Ford Service Insulators or an approved equal for water service lines, and shall be installed in accordance with the Detail Drawings. Refer to Denver Water Board Specifications Sections MS-21 and MS-22 for other insulators that may be required. Refer to Sections MS-27 and DD-9 for insulators for mechanical joint systems. Refer to the Detail Drawings. 432.18.02 Tape The polyethylene seams and overlaps shall be wrapped and held in place by means of two-inch wide plastic-backed adhesive tape. The tape shall be Polyken #900 (polyethylene), Scotchrap #50 (polyvinyl) or equal. The tape shall have adhesive that shall bond securely to both metal surfaces and polyethylene film. 432.19 Tracer Wire and Warning Tape A No. 6 AWG solid, uninsulated copper wire shall be attached to all pipes, including at least one carrier pipe inside a casing pipe, for the purpose of future location. If tracer wire is not attached to a carrier pipe, it may be cad-welded to both ends of a casing pipe and terminated in test stations within ten (10) horizontal feet from the ends of the casing pipe. Bundy KS17 copper split connectors, or equal, shall be used. Tracer wire shall be run along each fire hydrant assembly and brought to the surface in a test station located behind the fire hydrant. No tracer wire shall be allowed in valve boxes. Test stations shall be CP Test Services, Glenn Series Glenn-4 with locking lid, 3 ½” x or approved equal. A qualified tester shall verify continuity of tracer wire and a report shall be submitted to Broomfield with other Record Documents. UNINTERRUPTED CONTINUITY IS A REQUIREMENT FOR CONSTRUCTION ACCEPTANCE. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-109 All pipelines shall have a six inch wide, detectable, magnetic warning tape installed twelve (12) to eighteen (18) inches above all pipe, on top of the bedding, for the purpose of warning of location of buried pipeline. For potable and raw waterlines, the marker tape shall be blue in color with black lettering in a continuously repeating pattern with the words “CAUTION WATER LINE BELOW”. For non-potable (reuse) waterlines, the marker tape shall be purple in color with black lettering in a continuously repeating pattern with the words “CAUTION RECLAIMED WATER LINE BELOW”. 432.20 Bedding Materials Bedding materials shall comply with Section 353.00 Bedding for Pipelines and Service Lines of these STANDARDS AND SPECIFICATIONS. 432.21 Concrete All concrete shall comply with Section 800 CONCRETE MIX DESIGN AND CONSTRUCTION of these STANDARDS AND SPECIFICATIONS for Portland cement concrete construction. 432.22 Plastic Liner Pipe (Sliplining) Water main sliplining materials shall comply with Section 532.09 In-Place Rehabilitation of Existing Pipelines of these STANDARDS AND SPECIFICATIONS. 432.23 Steel Casings for Bores Steel casing pipe shall comply with Section 532.10 Steel Casings for Bores of these STANDARDS AND SPECIFICATIONS. 433.00 Installation 433.01 General All work shall comply with AWWA C600, AWWA C605, and to the pipe manufacturer's installation instructions, except as modified by these specifications. 433.02 Alignment and Grade Field parties, under the supervision of a Colorado Licensed Professional Land Surveyor or Professional Engineer, shall determine alignment and grade of the pipe and the location of fittings, valves, and hydrants. The required minimum depth of cover between the top of the pipe barrel and the finished street grade is four feet - six inches. The waterline shall be installed to the required lines and grades with fittings, valves, and hydrants at the required locations. Record Documents of waterline alignment, verified by a Professional Licensed Surveyor or a Professional Engineer, shall be furnished to the City Engineer to comply with ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-110 Section 200.00 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. Refer to Section 516.00 Relation to Waterlines for additional requirements. 433.03 Protection of Existing Underground Utilities The Contractor shall be held responsible for the protection of public improvements as stated in Section 141.00 Protection of Public, Private and Utility Interests of these STANDARDS AND SPECIFICATIONS. It shall be the Contractor's responsibility to replace all damaged public improvements at his own expense. 433.04 Interruption of Services Interruption of services shall comply with Section 141.04 Interruption of Services of these STANDARDS AND SPECIFICATIONS. 433.05 Pipe Installation Proper equipment, tools and facilities shall be provided and used by the Contractor for safe and efficient performance of the work. All pipe, fittings, valves, and hydrants shall be carefully lowered into the trench in such a manner as to prevent damage to pipe materials and to protect coatings and linings. Under no circumstances shall pipe or fittings be dropped or dumped into the trench. Any pipe or fittings that are dropped or dumped shall be removed from the work site and shall not be used. When buried, all ductile iron pipe fittings and appurtenances shall be protected with thick polyethylene wrap. Miscellaneous steel or other ferrous pipe for blow-offs, etc., shall be similarly protected. Refer to Section 200.00 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS for survey requirements for Record Documents of waterlines. The Broomfield Inspector/Representative shall be notified at least one working day (twenty-four [24] hours) in advance of when pipe is to be installed in any trench. No pipe shall be covered until a Broomfield Inspector/Representative has inspected the installation. Refer to Section 516.00 Relation to Waterlines for additional requirements. 433.06 Thrust Blocking, Restrained Joints and Fittings Thrust blocks and mechanical joint restraints shall be used at all valves, bends, fittings with mechanical connections and dead ends in accordance with the Detail Drawings. For high pressure or special circumstances, alternative restraint systems may be considered. Alternative restraint systems shall be approved by the City Engineer. The length of restrained pipe in the table shown in the Length of Restrained Pipe Detail Drawing is measured from the centerline of the fitting or valve and refers to the amount of pipe which shall be restrained. Mechanical joint restraint (wedge action, self-actuating, such as Megalugs) shall be used at all valves, bends, fittings with mechanical connections and dead ends. Tie rods shall not be used. The table shall also be used for the length of mechanical joint ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-111 restraint. Restraints shall be protected to comply with Section 432.18 Corrosion Protection Systems of these STANDARDS AND SPECIFICATIONS. Crosses shall be restrained in all applicable directions, and twelve (12) inch and smaller in-line valves and tees shall have mechanical joint restraint on each side of the fitting or valve. Thrust blocking shall be in accordance with the Detail Drawings. Care shall be taken to not block outlets, cover bolts, nuts, clamps or other fittings, and to ensure they are accessible. A bond breaker shall be placed between the pipe and the thrust block to aid in future removal. The thrust block shall bear against undisturbed earth. Forming for thrust blocks and anchors may be bulk-heading around the shape of the thrust block or anchor with wood, burlap, or reinforced paper sacks filled with sand or earth. Wood forms shall be removed before backfilling. Newly placed thrust blocks shall be allowed to set undisturbed for a minimum of twenty-four (24) hours prior to any backfilling, tamping or compaction, unless otherwise approved by the City Engineer. 433.07 Setting Valves and Fire Hydrants Hydrant runs shall not contain bends unless approved by the City Engineer. Valve boxes shall not be installed in curb and gutter, sidewalk or crosspans. Each hydrant shall have a six inch gate valve on the hydrant run and shall be connected to the main by a six inch ductile iron, polyethylene wrapped pipe. The valve shall be anchored to the swivel tee. Hydrants shall be set with the bury line at the established finished grade. Hose nozzles shall be set parallel to the curb with the pumper nozzle facing the curb. Hydrants shall be located at least eighteen (18) inches from center of hydrant to back of curb or sidewalk. If a riser is required, a break-away coupling shall be installed two to four inches above grade. Valves shall be provided with valve boxes centered and plumb over the operating nut of the valve. The boxes shall be supported to prevent any shock or stress from being transmitted to the valve. All valves shall be installed using a valve box adaptor to ensure proper centering of the valve box during backfill and to maintain valve box location. Valve boxes shall be maintained in this position during backfill. Valve box covers shall be set below the subgrade level to prevent damage during street construction and later adjusted to grade at the time of paving. If the top of the valve-operating nut is greater than six feet below finished grade, a valve nut extension shall be installed to bring the operating nut up to four feet below finished grade. Hydrants shall include a drainage pit with nine square feet of surface area and two feet of depth below the barrel of the inlet. Pits shall be backfilled with one and one-half (1-½) inch, washed, crushed rock to a level six inches above the barrel drain hole. A concrete thrust block shall be placed at the bowl of each hydrant in accordance with the Detail Drawings to prevent obstruction of the barrel drain hole. 433.08 Plastic Liner Pipe (Sliplining) ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-112 Installation of plastic liner pipe shall comply with Section 533.09 In-Place Rehabilitation of Existing Pipelines of these STANDARDS AND SPECIFICATIONS. 433.09 Steel Casing and Carrier Pipe Installation Installation of steel casing and carrier pipe shall comply with Section 533.10 Steel Casing and Carrier Pipe Installation of these STANDARDS AND SPECIFICATIONS. Tracer wire shall be taped to the carrier pipe before installation of carrier pipe supports and installed in the steel casing along with the carrier pipe. A test station, similar to those required at fire hydrants, shall be installed for the tracer wire in Broomfield R.O.W. near each end of the steel casing pipe. If tracer wire becomes discontinuous during installation of carrier pipe into casing pipe, tracer wire shall be welded to each end of the casing, with written approval of Broomfield. Uninterrupted continuity shall be tested in accordance with the requirements of Section 432.19 Tracer Wire and Warning Tape of these STANDARDS AND SPECIFICATIONS. 433.10 Cathodic Protection Test Stations Underground pipeline test stations shall be installed at locations shown on the approved plans and in accordance with the Detail Drawings. 433.11 Plugging of Dead Ends Temporary dead ends shall be installed with standard plugs or caps. Temporary dead ends shall be provided with blow-offs or fire hydrants, as required by the City Engineer. Permanent dead ends shall be provided with fire hydrants and valves. All temporary dead ends in undeveloped lots and open lands shall be marked with a blue post. 433.12 Filling and Venting the Line ONLY THE BROOMFIELD PUBLIC WORKS DEPARTMENT SHALL OPERATE VALVES. The line shall be slowly filled with water and all air expelled from the pipe. Care shall be taken that all available hydrants (including hydrant gate valves), air relief valves, and other vents are open during the filling of the line. Where hydrants or other vents are not available in the line, the Contractor shall use a temporary two inch blow-off for venting purposes. The rate of filling the line shall not exceed the venting capacity. 433.13 Disinfection and Flushing of Water Lines Disinfection and flushing shall be performed in accordance with the requirements of the Colorado Department of Public Health and Environment and shall comply with AWWA C651. The chlorine solution shall be retained in the water line for at least twenty-four (24) hours. A free chlorine residual at all hydrants and blow-offs shall be at least twenty-five (25) parts per ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-113 million (ppm) at the end of the twenty-four (24) hour period. If the test is unsatisfactory, disinfection shall be repeated until a twenty-five (25) ppm free chlorine residual is obtained. When cutting into or repairing an existing water line, disinfection and flushing shall comply with AWWA C651. Following chlorination, the water line shall be flushed through all hydrants and blow-offs until the water runs clear with no chlorine residual in excess of that carried in the existing system. As a minimum, the total volume of the water line being tested shall be flushed. THE CONTRACTOR SHALL BE RESPONSIBLE FOR METERING AND PAYING BROOMFIELD FOR WATER USED FOR FLUSHING. The Contractor shall take all necessary precautions to prevent the flow of strong chlorine solution into existing water facilities and shall be responsible for damages done by heavily chlorinated water. No water lines shall be placed in service or tapped until a written release is obtained from the City Engineer. Sodium thiosulfate shall be used when flushing water on the ground and to waterways that do not contain fish. Vita-D-Chlor Neutral, or approved equal, shall be used when flushing to waterways with fish. Flushing to the sanitary sewer shall only be allowed with permission from the Broomfield Wastewater Treatment Plant. The line shall be visually inspected for turbidity. If the inspection is unsatisfactory, the line shall be flushed again. If the turbidity test fails a second time, the line shall be re-chlorinated and then re-flushed. A twenty-four (24) hour bacteriological test for total coliform bacteria shall be performed by Broomfield. If the test is unsatisfactory, the line shall be flushed again. If the bacteriological test fails a second time, the line shall be re-chlorinated, re-flushed and re-tested. 433.14 Leakage Pressure and leakage tests shall be conducted to comply with AWWA C600 to a pressure of one hundred and fifty (150) pounds per square inch (psi) at the low point of the section being tested for the duration of two hours. The maximum length of line to be tested shall be one thousand (1,000) feet. All joints shall be watertight within tolerances allowed by AWWA C600. Leakage in excess of tolerances shall be located and made watertight by the Contractor. Pressure and leakage tests shall not be conducted until the line has passed all required disinfection and bacteriological tests. Reuse water systems with pressures greater than one hundred and fifty (150) pounds per square inch (psi) shall be tested to a pressure of two-hundred (200) pounds per square inch (psi) at the low point of the section being tested for the duration of two hours. 433.15 Concrete Vaults Refer to Denver Water Board Specifications Section MS-26. 434.00 Inspections ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-114 Refer to Section 154.00 Inspections of these STANDARDS AND SPECIFICATIONS. Adequate inspections assure compliance to Broomfield requirements and are the basis for Broomfield’s recommendation that said improvements be accepted for maintenance and for release of performance guarantees. It is the responsibility of the Contractor to contact the City Engineer a minimum of one full working day (twenty-four [24] hours) in advance of the required inspections. Required inspections shall include: A. Stockpiled Materials – Verify that materials meet STANDARDS AND SPECIFICATIONS and approved submittals, including but not limited to: bedding material, pipe, fittings, valves, valve boxes and fire hydrants. B. Excavation – Verify proper trench depths, shoring, spoil pile location, dewatering, and location and protection of existing utilities. C. Installation – Verify proper bedding depth, alignment and grade, clean pipe and lubricants. Check that chlorine tablets are affixed to the inside of pipe, and verify “slicing in” of bedding at haunches. Tracer wire is securely attached to the TOP of pipe, metallic fittings are wrapped with polyethylene, fittings have corrosion resistant bolts and nuts, and fire hydrants have proper drainage rock. Reuse waterlines shall be purple in color or have purple plastic wrap and warning tape. D. Thrust Blocks and Restraints – Verify proper size of concrete thrust blocks and adequate bond breaker, and proper torque of bolts for mechanical restraints. E. Backfill and Compaction – Verify proper methods of backfill and compaction, depths of lifts, moisture control, and backfill material free of large rock, organic or frozen material. F. Loading and Testing – Verify that loading and testing methods adhere to these STANDARDS AND SPECIFICATIONS. Load line, wait at least twenty-four (24) hours, test for high chlorine residual, flush, test for reduced chlorine residual and wait at least twenty-four (24) hours. The bacteriological (“clear water”) sample shall pass prior to pressure testing in accordance with these STANDARDS AND SPECIFICATIONS. G. Tie In – After successful testing, tie in dead end to loop the system. H. Service Taps – Verify proper tapping procedures. For direct taps, line is under pressure. For saddle taps, torque on the saddle is checked. Verify that there are no leaks at the corporation stop and the coupon has been removed. Verify copper service line has proper goose neck, the service line runs correctly to the yoke at the meter pit, and the water is on at the meter pit. I. Construction Acceptance – Refer to Section 200 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. General items include: ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-115 1. All temporary structures, debris, mud and waste materials shall be removed from public property. 2. All relative testing certifications and documentation shall be submitted to Broomfield. Include all compaction tests. Copies of originals are acceptable. 3. All curb stop boxes are raised to grade and checked for valve accessibility. 4. All water services shall be marked with a by saw cutting into the face of the curb where the service extends into the property. 5. All water valve boxes are at construction grade, straight and cleaned out to check for access to valve nut and ability to get a valve key on the nut and operate the valve. Verify that all valves that should be open are open. Tracer wire test stations shall be accessible. 6. All fire hydrants shall be checked for ability to be pressurized. J. Final Acceptance – Refer to Section 200 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. General items include: 1. Each water valve box shall be cleaned out to check for access to valve nut and the ability to get a valve key on the nut and operate the valve. All valves that should be open are open. Tracer wire test stations shall be accessible. 2. All fire hydrants shall be checked for ability to be pressurized. 440.00 WATER SERVICE LINE CONSTRUCTION 441.00 General All water service line locations shall be marked on the face of the curb by saw cutting a symbol where services cross under the curb. Water service lines shall be in a separate trench, except as approved by the City Engineer, and shall be a minimum of ten (10) horizontal feet from sewer service lines. Water service lines shall be a minimum of eighteen (18) vertical inches above any sanitary sewer crossing. All water service lines shall be stubbed into the lot either ten (10) feet beyond the back of the sidewalk or curb or five feet beyond any utility easement, whichever is greater, and shall be marked at the end of the water service with a wood 2x4 painted blue. The water service line at the curb stop shall be no deeper than five feet - six inches. Water service lines shall be a minimum of two feet inside the property line and shall not be located under a driveway unless approved by the City Engineer. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-116 441.01 Excavation All excavation shall comply with Section 342.00 Excavation of these STANDARDS AND SPECIFICATIONS. 442.00 Equipment and Materials 442.01 Water Service Lines Water service lines shall be sized to adequately supply the requirements of the property being served. The minimum size line shall be three-fourths inch. The acceptable material for a three-quarter inch to two inch service line is seamless copper tube. Three inch and greater diameter service lines may be ductile iron pipe or PVC pressure pipe. High density polyethylene pipe may be an acceptable material for water service lines installed between water meters and private structures, at the discretion of the City Engineer. All service pipes shall conform to one of the following specifications: A. Seamless copper tube designated as “Type K” (soft) shall be used for service lines three-fourths (3/4) inch through three inches. B. Ductile Iron Pipe or PVC pressure pipe complying with Denver Water Board Specifications may be used for three inch service lines, and shall be used for all service lines larger than three inches. C. High Density Polyethylene Pipe shall be PE 3408 (DR-11) with a minimum pressure rating of one hundred sixty (160) psi. PE 3408 may be used for service lines that are three-fourths inch through three inches in diameter and between a water meter and a private structure, as approved by the City Engineer. All pipe, fittings and joints shall comply with sections 605 and 605.20 of the International Plumbing Code. Water service lines shall be of the same type material from beginning to end, unless the appropriate insulator is installed at the junctions of dissimilar metals and unless approved by the City Engineer. 442.02 Water Service Saddles Water service saddles shall be required for all AWWA C909 PVC waterlines for water service taps and may be required on other PVC piping as determined by the City Engineer. Service saddles shall be brass or bronze and shall comply with AWWA C800. 442.03 Meters All meters shall be purchased from Broomfield and shall be installed, owned and maintained by the Broomfield Utilities Maintenance division. All single family residential meters shall be size 5/8” x unless otherwise approved by the City Engineer. No meter shall be installed until the City Engineer has approved the proposed installation. Permanent water meters shall be installed prior to issue of the Certificate of Occupancy. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-117 442.04 (Left Blank Intentionally) 442.05 (Left Blank Intentionally) 442.06 Outside Meter Settings All outside meters shall be installed in a horizontal position and housed in a manhole or vault in accordance with the Detail Drawings. The installation of the water meter shall comply with the following unless otherwise approved by the City Engineer: A. All meters not installed within the right-of-way shall require an easement dedication ten (10) feet wide and extending three feet behind the meter. B. The meter shall be installed in a pit, manhole or vault which shall allow free and easy access and adequate room for installation, inspection and maintenance, and shall provide protection from freezing. C. All fittings shall be brass or copper. D. A pressure regulator (Watts 25 AUB or equivalent) shall be installed on all water services before the meter is installed. E. A ball or gate valve shall be installed where the water service line enters the building and the meter is installed. 442.07 Inside Meter Setting and Remote Readers INSIDE METERS SHALL ONLY BE USED WITH SPECIAL APPROVAL BY THE CITY ENGINEER. All inside meter settings shall be installed in a manner which shall allow free and easy access and adequate room for installation, inspection and maintenance, and shall provide protection from freezing. Meters installed inside buildings shall not be more than eighteen (18) inches from the wall through which the water service line enters the building, unless otherwise approved in writing by the City Engineer. Inside meter settings shall not be allowed in crawlspaces, closets or other places where free and easy access is not provided. Meter sizes one and one-half (1½) inch and two inch installed inside buildings shall be provided with a floor drain. Refer to the Detail Drawings. Installation shall conform to the following: A. The meter setting shall be installed in the basement, a utility closet, or similar area, which shall allow free and easy access and adequate room for installation, inspection, and maintenance. B. The meter yoke shall be a minimum of twelve (12) inches and a maximum of four feet above floor level in a horizontal position and have a minimum of twelve (12) inches clearance from all surrounding obstructions. C. A ball or gate valve shall be installed on both the upstream and side of the water meter. D. A pressure regulator, adjustable from twenty-five (25) to seventy-five (75) psi shall be installed between the meter yoke and valve. The regulator shall be a Watts Model 25AUB or equivalent unless otherwise approved in writing by the City Engineer. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-118 E. All fittings shall be brass or copper. 442.08 Meter Bypass Line A bypass line shall be required for all one and one-half (1 ½) inch and larger meters, unless otherwise approved by the City Engineer, whether installed in an outside or inside setting. Bypass lines shall contain an independent control valve and shall not contain tees, plugs or other outlets, and shall be in accordance with the Detail Drawings. A bypass line may be required on services smaller than one and one-half (1½) inch if deemed necessary by the City Engineer. 442.09 Meter Check Valves Check valves shall be required on meters where any condition exists that could cause water to flow from the property to the main. 442.10 Valves for Use with Meters 1. Gate valves three inches and smaller for copper water service lines shall be brass, with non-rising stems and solid wedge disc, manufactured in accordance with ASTM B62, 125 WSP, 200 PSI WOG. Gate valves shall comply with AWWA C800 and shall be in accordance with the Detail Drawings. Valves larger than three inches for use with ductile iron water service lines shall be gate valves with cast iron bodies. All gate valves larger than three inches shall be supported by adjustable steel valve supports. 442.11 Meter Couplings All meters one and one-half (1½) inch and larger shall be installed with a coupling to allow for the removal of the meter without disturbing the pipe. Couplings shall comply with Denver Water Board Specifications Section MS-22. 442.12 Meter Yokes (Copper Setters) Meter Yokes (Copper Setters) shall be Ford Series 80, McDonald Series 31, Cambridge Series 6040 or Mueller Series P-2474 with an angle ball valve and a padlock wing on the inlet side of meter. Water service connections shall be compression fittings, with a “110”, “Cam Pack”, or “Mac Pack” type fitting and shall be vertical. 442.13 (Left Blank Intentionally) 442.14 (Left Blank Intentionally) ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-119 442.15 Meter Pits and Covers Meter pits for (5/8) inch meters shall be twenty (20) inches in diameter and forty- eight (48) inches deep and shall comply with ASTM D1505 and D746 and Denver Water Board Specifications. Meter pit covers shall be tight fitting with double lids for frost protection. Meter pit covers and domes shall have non-metallic, cap-type top lids, and the inner lids shall be plastic, aluminum or rubber. Aluminum shall have a polymer coating such as an epoxy. Meter pits and covers shall comply with Denver Water Board Specifications Section MS-23 and shall be in accordance with the Detail Drawings. Placement of meter pits shall be a maximum of five feet from the front property line. Meters not located in the right-of-way shall require an easement dedication ten (10) feet wide and extending three feet behind the meter. 442.16 Corporation Stops Corporation stops provide the connection for the water service line to the waterline. Services shall be a minimum of eighteen (18) inches from all pipe joints, fittings and valves. Corporation stops are also required in air and vacuum valve and large butterfly valve installations. Corporation stops are available in standard sizes 1½” and Refer to the Detail Drawings and Denver Water Board Specifications Section MS-21. Tapered threads other than the inlet thread of corporation valves shall comply with ANSI/ASME B1.20.1. Two spiral wraps of three mil PTFE (Teflon) tape shall be wrapped clockwise around the inlet threads on the closed corporation stops. Liquid sealants or other lubricants shall not be used. 442.17 Curb Stops Curb stops are required for meters one and one-half (1 ½) inch and larger. Curb stops are set on the service line on the inlet side of the meter pit and provide a means to shut off the service line. Placement of the curb stop and stop box can vary from a maximum of five feet outside the front property line to a maximum of five feet inside the front property line. Curb stops shall be buried a minimum of four feet – six inches and a maximum of five feet – six inches. Placement of the curb stop and stop box outside the front property line is preferred. Refer to the Detail Drawings and Denver Water Board Specifications Sections MS-21 and MS- 23. Curb stops shall not be installed under concrete or asphalt unless approved by the City Engineer and shall have a traffic approved curb box. 442.18 Curb Stop Service Boxes Curb stop service boxes shall be cast iron, Buffalo type. The bottom part shaped like an inverted straddling the service line, shall have a flanged bottom so as to support itself. Curb stop service boxes shall comply with Denver Water Board Specifications Section MS-22. Curb stop boxes shall be to grade and be accessible at the time of meter installation. 442.19 Brass Fitting Couplings Couplings for brass fittings may be flared or compression. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-120 442.20 Backflow Preventers Backflow preventers shall be installed on all commercial water service lines an on all residential water service lines that serve more than two units. Refer to Broomfield Municipal Code Chapter 13-07-100 Backflow Prevention Devices for additional requirements. 443.00 Tapping the Main ALL TAPS SHALL BE WET TAPS. SHUT DOWN OF ANY PORTION OF THE WATER SYSTEM SHALL ONLY BE ALLOWED WHEN UNCONTROLLED CIRCUMSTANCES DO NOT PERMIT A WET TAP. ANY SHUT DOWN OF THE WATER SYSTEM MUST BE APPROVED IN WRITING BY THE CITY ENGINEER. TAPPING OF AWWA C905 PIPE SHALL BE MADE WITH A TAPPING SADDLE. Broomfield’s Water Utility Department, unless otherwise approved by the City Engineer, shall complete tapping of all waterlines up to and including two inch diameter taps. Notification shall be given to the Water Utility Department two working days (forty-eight [48] hours) in advance of the tap in order to provide ample time to schedule the work. In those instances where Broomfield crews are not available to complete taps in a timely manner or when the tap in over two inches in diameter, the tap may be installed by a contractor or plumber licensed by Broomfield who specializes in the installation of water taps. BROOMFIELD SHALL BE RESPONSIBLE FOR MAINTAINING THAT PORTION OF THE WATER SERVICE LINE, CORP STOP AND METER AS SHOWN ON THE DETAIL DRAWINGS AND AS SET FORTH IN THE BROOMFIELD MUNICIPAL CODE. 450.00 PUMPING FACILITIES 451.00 General In locations where Broomfield's water distribution system may not be capable of providing adequate water pressure, Broomfield may require the construction of a pumping facility to provide proper service. Broomfield may not approve the installation of a pumping facility where, in the opinion of the City Engineer, such installation would be injurious to the operation, or future operation, of Broomfield's water system. The Developer shall provide the City Engineer with a set of design calculations and drawings for review and approval, as required under Section 160.00 PLANS AND SPECIFICATIONS of these STANDARDS AND SPECIFICATIONS. The pumping facility shall comply with all requirements of the Colorado Department of Health and of these STANDARDS AND SPECIFICATIONS. Broomfield shall require that the Developer prepare a set of mylar record document drawings and an electronic (AutoCAD) file of the pumping facility in accordance with Section 200.00 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. Upon completion of the pumping facility, the Contractor shall also provide Broomfield with two copies of an “Operation & Maintenance Manual” for the facility. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-121 452.00 Design Criteria 452.01 Pumps and Pump Station All pertinent portions of Denver Water Board Specifications Section 5.08 shall apply. Applicable portions of Denver Water Board Specifications Section 6.46 shall also be followed. A STANDBY GENERATOR, CAPABLE OF OPERATING THE ENTIRE STATION, SHALL BE PROVIDED. THE GENERATOR MAY BE HOUSED INSIDE A SEPARATE ALL- WEATHER ENCLOSURE. 452.02 Controls and Supervisory Control and Data Acquisition (SCADA) All new controls, telemetry equipment, and security equipment shall be compatible with and easily integrated into Broomfield's system. All pertinent portions of Denver Water Board Specifications Section 5.12 shall apply. Controls and SCADA systems are subject to review and approval by the City Engineer prior to installation. 452.03 Site Improvements Refer to Section 562.04 Site Improvements of these STANDARDS AND SPECIFICATIONS. 460.00 TRENCHING, BACKFILLING AND COMPACTING Trenching, backfilling and compacting shall comply with Section 350.00 TRENCHING, BACKFILLING AND COMPACTING of these STANDARDS AND SPECIFICATIONS. 470.00 HEALTH AND SAFETY SIGNAGE A sign reading “NON-POTABLE RECLAIMED WATER—NOT FOR DRINKING” shall be posted at all points where consumption of the water may be attractive to the public (yard hydrants, hose bibs, etc.), in areas of public use which receive reclaimed water and at all valves, control boxes and similar features. This requirement shall not apply to sprinkler heads. Signs reading “ATTENTION: IRRIGATED WITH RECLAIMED WASTEWATER. DO NOT DRINK FROM SPRINKLERS” shall be purchased from Broomfield and posted by the Developer at conspicuous locations in areas irrigated with reuse water. Where signage is not feasible (such as a valve box in a street), the above wording shall be engraved on brass tags riveted to the outside and inside of the component. A signage plan shall be submitted to Broomfield and approval for it obtained before connecting to Broomfield’s reuse or raw water system. These signage provisions apply to both new construction and cases where an existing irrigation waterline is connected to Broomfield’s reuse or raw water system. To the extent possible, reuse components such as valve box lids, valves, valve operators, control boxes, etc. shall be painted purple. Warning signs specified in the Detail Drawings shall be not less than one-eighth (1/8) inch thick, two inches high and four inches wide. ---PAGE BREAK--- WATER SUPPLY FACILITIES SECTION 400 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 400-122 “WARNING” shall be in red letters and other lettering shall be in black. Letter size and font shall be as approved by Broomfield. Signs shall be attached by stainless steel chain. Hose bibs and yard hydrant connections shall be coupling-type, (not threaded) to prevent use of common “garden” hose and possible cross-connections. 480.00 RESTORATION AND CLEANUP Restoration and cleanup shall be completed in accordance with Section 370.00 RESTORATION AND CLEANUP of these STANDARDS AND SPECIFICATIONS. ---PAGE BREAK--- ORIGINAL SIGNED DRAWINGS ARE ON FILE AT THE CITY & COUNTY OF BROOMFIELD!!! ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- 1/9/2007 Burt Knight ---PAGE BREAK--- 1/9/2007 Burt 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GENERAL CONDITIONS 510.00 DESIGN CRITERIA 511.00 127 512.00 Design 127 513.00 Hydraulic Design 128 514.00 Design 128 514.01 Sewer 128 514.02 129 514.03 Service 130 515.00 Location 130 516.00 Relation to 130 517.00 Underdrain Pipe 131 518.00 Grease, Oil and Grit Interceptor Design and Installation 131 518.01 Grease Interceptors 131 518.02 In-Floor and Under Sink Grease Traps – Requires Special 134 518.03 Oil Separators and Sand/Grit Interceptors 135 520.00 GENERAL 521.00 136 522.00 Permits 136 523.00 Maintenance of Traffic 136 530.00 SANITARY SEWER MAIN 531.00 Site Work and 136 531.01 136 531.02 Trenching, Backfilling and 136 531.03 Preservation of 136 532.00 Materials 137 532.01 Sewer Pipe 137 532.02 Underdrain Pipe 137 532.03 137 532.04 137 532.05 Manhole Bases and Base 138 ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-124 532.06 138 532.07 Cast and Ductile Iron 139 532.08 Bedding 139 532.09 In-Place Rehabilitation of Existing Pipelines 139 532.10 Steel Casings for 139 533.00 140 533.01 140 533.02 Alignment and 140 533.03 Protection of Existing Underground Utilities 140 533.04 Underdrain Pipe 140 533.05 Sewer Pipe Installation 140 533.06 (Left Blank Intentionally) 141 533.07 Connections to Existing Manholes 141 533.08 Construction of Manholes and 141 533.09 In-Place Rehabilitation of Existing Pipelines 142 533.10 Steel Casing and Carrier Pipe Installation 142 533.11 Wyes for Service 142 534.00 Testing and Inspection 143 534.01 Air Testing 144 534.02 Vacuum Testing Manholes 145 534.03 Deflection Testing 146 534.04 Infiltration and Exfiltration 146 535.00 Connection to Broomfield’s Sewer 146 540.00 SANITARY SEWER SERVICE LINE 541.00 Trenching, Backfilling and 146 542.00 Materials 146 542.01 Polyvinyl Chloride 146 543.00 147 543.01 147 543.02 Location and Alignment of 147 543.03 Crossing Sidewalk or Curb (Existing or 147 543.04 Service Stub-ins to Property 147 543.05 Tapping the 148 543.06 Pipe Installation 148 543.07 Industrial 148 543.08 Other Requirements 148 550.00 FLOW METERING AND SAMPLING STATION CONSTRUCTION.........149 551.00 149 552.00 Equipment 149 ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-125 553.00 Sampling Station 149 554.00 Grating 149 555.00 Weir Plates and 149 556.00 Station 150 557.00 Operation of Existing Facilities 150 558.00 Drawings and 150 560.00 SEWAGE LIFT 561.00 150 562.00 Design 151 561.01 Odor and Corrosion Control 151 562.02 Wet Well Construction 151 562.03 Pumps and Pump 151 562.04 Controls and Supervisory Control and Data Acquisition (SCADA) 152 562.05 Site Security and 152 570.00 RESTORATION AND CLEANUP DETAIL DRAWINGS – SECTION 500 500-1 Standard Manhole Plan 500-2 Standard Manhole Section 500-3 Shallow Manhole 500-4 Typical MH Base Channelization 500-5 Typical MH Base Channelization 500-6 MH/Pipe Water Stop Gasket 500-7 Manhole with Underdrain Cleanout 500-8 Drop Sewer Manhole 500-9 Outside Drop Manhole 500-10 Manhole Ring and Cover 500-11 Trench Detail 500-12 Underdrain Service Connection 500-13 Sanitary Sewer Tapping 500-14 Sewer Service Connection 500-15 Service Maintenance Line 500-16 Ditch Crossing 500-17 Clay Cut-off Wall 500-18 Concrete Cut-off Wall 500-19 Grease Interceptor 800 to 1250 gallons 500-20 Grease Interceptor 1250 to 3445 gallons 500-21 Flow Metering and Sampling Station ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-126 500-22 Abandonment of Sanitary Sewer Line Stub-out or Service 500-23 Steel Casing & Carrier Pipe Detail ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-127 SECTION 500 SANITARY SEWER FACILITIES 501.00 GENERAL CONDITIONS Refer to Section 100 TITLE, SCOPE AND GENERAL CONDITIONS of these STANDARDS AND SPECIFICATIONS for additional requirements that apply to all projects within Broomfield. 510.00 DESIGN CRITERIA 511.00 General All extensions of and/or additions to Broomfield sewer systems shall comply with the requirements of these STANDARDS AND SPECIFICATIONS for sewer main and service line construction. 512.00 Design Flow The design flow shall include the entire area tributary to the outfall point. The following wastewater flow rates, which include infiltration, shall be used: User Type Unit Wastewater Flow Rate Residential 90 gallons/capita/day Industrial 1,500 gallons/acre/day Commercial 1,000 gallons/acre/day Park/Recreation 50 gallons/acre/day Elementary Schools 13 gallons/student/day Jr. & Sr. High Schools 20 gallons/student/day Maximum residential population density, household density and land usage shall be as noted on an approved PUD and/or Plat, or as determined by the Broomfield Planner. Wastewater flow peaking factors shall be computed using the following equation: PF = 3.8/ (ADF)0.17 Where ADF = annual average daily flow in MGD The peaking factor shall not be less than two and one-half (2.5) or greater than five ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-128 513.00 Hydraulic Design Sewers ten (10) inches in diameter and smaller shall carry the peak design flow at a maximum flow depth of eighty (80) percent of the pipe diameter. Sewer mains twelve (12) inches in diameter and larger may be designed to flow full at the peak design flow rate. The minimum velocity at the peak design flow rate shall be two feet per second. Where actual flow shall be considerably below the design flow for several years, the City Engineer may require that the minimum velocity be attained by suitable grades at the partial peak design flow rate. Maximum allowable velocity shall not exceed ten (10) feet per second at eighty (80) percent flow depth in the pipe. Care shall be taken to design invert elevations at manholes in such a manner that the energy gradient is consistently falling in the direction of flow. In addition, when the velocity of an upstream sewer entering a manhole at peak flow is above critical velocity, the hydraulic gradient shall be computed to insure that a surcharge shall not occur at a service connection, and that the energy gradient shall remain level across the manhole. 514.00 Design Details 514.01 Sewer Mains Sanitary sewer mains shall be eight inch diameter or larger. Service connections shall be four inch diameter or larger. Six inch diameter sewer mains may be installed under special conditions where no more than four residential connections are to be made, if approved by the City Engineer. The following minimum grades (based on a Manning’s formula n = 0.015) shall apply: Sewer Diameter (Inch) Minimum Grade (Percent) 4 2.0 or 1/4 inch/foot 6 1.0 or 1/8 inch/foot 8 0.40 10 0.28 12 0.22 15 0.15 18 0.12 21 or larger As approved by the City Engineer When approved by the City Engineer for specific areas, a Manning’s n = 0.011 may be used and the above grades adjusted accordingly to maintain a minimum velocity of two feet per second. Sewer mains shall ordinarily have a minimum of eight feet of cover to finished ground surface. Sewer lines shall be designed to ensure a two percent minimum slope from one ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-129 foot below the bottom of the lowest foundation to the sewer service connection. Where pipe has less than feet of cover, provisions shall be made to protect the pipe from impact and loading. Sewer mains shall be extended at least ten (10) feet uphill from the lowest lot corner of the uppermost lot to be served adjacent to the sewer main. Sewer mains shall terminate in a manhole. Service connections shall not be made at manholes, unless otherwise approved by the City Engineer. All stub-outs for future extension of the sanitary sewer shall be terminated in a pre-cast manhole base. Where trunk or interceptor sewers are fifteen (15) feet or more deep, a shallow, local sewer shall be designed for house service connections, unless otherwise approved by the City Engineer. 514.02 Manholes Manholes shall be a minimum of forty-eight (48) inches diameter, and shall be provided at every change in direction, grade and connection to other sewer mains. The maximum spacing shall be four hundred (400) feet for lines fifteen (15) inches diameter or smaller and five hundred (500) feet for lines eighteen (18) inches diameter or larger. Where two or more pipes enter a manhole, the City Engineer shall approve the manhole design size. Sewer lines shall not be deflected between manholes, in line or grade. Manholes shall be forty-eight (48) inches diameter for lines eight inches to fifteen (15) inches in diameter, sixty (60) inches for lines eighteen (18) inches to twenty-one (21) inches in diameter, and seventy-two (72) inches for lines twenty-four (24) inches to thirty (30) inches in diameter. Special designed vaults are required for pipes greater than thirty inches 30”) in diameter. Where pipe slope is less than five percent, the manhole flow channel shall have at least two- tenths (0.2) of a foot elevation drop from the entering pipe invert to the exiting pipe invert. Where pipe slope is greater than five percent, the manhole flow channel shall match pipe slope. Where the difference in entering and exiting invert elevations is less than two feet, the channel shall be sloped uniformly between the pipe inverts. Where there is greater than two feet of difference between entering and exiting pipe invert elevations, a drop manhole shall be considered. Drop Manholes. When design and function dictate a drop manhole, written permission shall be obtained from the City Engineer. The design and proposed materials shall be approved by the City Engineer. BROOMFIELD PREFERS THE USE OF AN OUTSIDE DROP. Inside Drop Manhole Bowl Systems. An inside drop manhole may be allowed in special circumstances. When the entering pipe diameter is less than fifteen (15) inches and moderate flows exist, an inside drop type system may be provided with a forceline hood, and the manhole shall be a minimum of sixty (60) inches in diameter. When the entering pipe diameter is greater than fifteen (15) inches and moderate flows exist, or where odor and corrosion control are a concern, an inside drop vortex flow type system may be provided, and the manhole shall be sized accordingly. The use of an inside drop vortex flow type system requires written permission from ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-130 the City Engineer. The design, including proposed materials, shall comply with manufacturer’s specifications and must be approved by the City Engineer. The inside drop bowl system shall consist of a plastic composite collection device that facilitates the controlled drop of wastewater into the main stream flow of a sanitary sewer manhole. The bowl shall permit easy inspection and cleaning without the need to enter the structure. Stainless steel straps shall fully support the drop pipe. Drop ends shall be used to create a high quality transition from drop pipe to the flow channel. The bowl shall be marine grade fiberglass. The clamping pipe supports shall be 304 stainless steel with 18-8 stainless nuts and bolts. Bowl size shall be determined by entering pipe size and flow rates. Bowl shall be installed in accordance with manufacturer’s instructions. 514.03 Service Connections Wye or tee fittings shall be provided on the sewer main for service connections at each lot or building site shown on the plans. Fittings shall be angled upward so that the upper invert of one- eighth (1/8) bend connected to the fitting shall have an elevation equal to or higher than the inside crown of the sewer main. 6-inch clean-outs shall be installed at 75-foot intervals on all sanitary sewer services. Refer to Section 543.04 Service Stub-ins to Property Line of these STANDARDS AND SPECIFICATIONS. 515.00 Location Details Sanitary sewer lines, including manholes, shall be located a minimum of three feet from the edge of gutter pans. Sanitary sewer mains installed in local or connector streets shall typically be located west or south of the centerline of the streets, unless otherwise approved by the City Engineer. Service connections shall not be permitted to cross an arterial street. Where sanitary sewer mains are installed in easements, they shall ordinarily be located in the center of the easement, provided that manholes can be located to provide reasonable access for maintenance crews. 516.00 Relation to Waterlines Sanitary sewer lines shall be located a minimum of ten (10) feet horizontally from existing or proposed waterlines (clear separation). Where sewer lines cross waterlines, the sewer line shall have a minimum of eighteen (18) inches clear separation below the waterline. If this clearance is not feasible, the crossing shall be designed and constructed so as to protect the waterline. When minimum clearance is not feasible, minimum protection shall consist of the installation of an impervious and structural sewer. Sewer pipe shall be encased in reinforced concrete. The encasement shall be at least six inches thick around the entire pipe. Extend concrete encasement a minimum distance of ten (10) feet on either side of the waterline and to a sewer pipe joint. Ensure that encasement concrete does not prevent deflection at the pipe joint. In all cases, suitable backfill or other structural protection shall be provided to preclude settling and/or failure of the higher pipe. When minimum clearance is not feasible, the sanitary sewer pipe may ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-131 be installed in a steel casing in accordance with these STANDARDS AND SPECIFICATIONS if approved by the City Engineer. The City Engineer shall approve the crossing design. 517.00 Underdrain Pipe Underdrain pipe shall be installed at locations shown on the approved plans. Underdrain pipe shall be installed for all residential developments and shall connect to the peripheral drain systems for house foundations. Underdrain pipe shall be installed for commercial and industrial buildings where it is recommended by the Geotechnical Engineer. The underdrain system shall discharge to the storm sewer system, as approved by the City Engineer. Underdrain pipes shall be provided with clean-outs in each manhole. 6-inch clean-outs shall be installed on underdrain service at 75-foot intervals. Underdrain pipe shall be continued under manholes by use of suitable bends and other fittings and solid, un-perforated pipe. 518.00 Grease, Oil and Grit Interceptor Design and Installation 518.01 Grease Interceptors Grease interceptors shall be required for all food preparation establishments which could contribute or cause to contribute—directly or indirectly—any water or wastewater which contains oil and grease, including but not limited to restaurants, cafeterias, cafes, and fast food establishments. Additionally, grease interceptors shall be required for all schools, fraternal organizations, churches, hospitals, and daycare centers which have the capability to engage in food preparation. The grease retaining capacity of each grease interceptor in pounds of grease shall be equal to twice the rate of flow capacity in gallons per minute of wastewater so that the interceptor shall remove and retain ninety (90) percent of the grease discharged into it up to its required capacity of accumulated grease. Exceptions to the grease interceptor requirement shall be those facilities granted a written variance by the Industrial Pretreatment Program, following approval of the plan review process. Variances shall apply strictly to the named facility owner/operator located at the named facility address. Each business establishment for which a grease interceptor is required shall have an interceptor that serves only that establishment. Design and construction of grease interceptors shall be in accordance with the Detail Drawings. The design of oil and grease interceptors shall be constructed in accordance with the design approved by Broomfield and shall have a minimum of two compartments with fittings designed for grease retention. The minimum size for any grease interceptor shall not be less than eight-hundred (800) gallons. There shall be an adequate number of manholes to provide access for cleaning all areas of an interceptor, and a minimum of one per ten (10) feet of interceptor vault length. Manhole covers shall be gastight in construction and shall have a minimum opening dimension of twenty- ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-132 four (24) inches. In addition, an effluent sampling box shall be provided on all grease interceptors. In areas where traffic may exist, the interceptor shall be designed to have adequate reinforcement and cover. Each grease interceptor shall be easily accessible for inspection, cleaning, and removal of intercepted grease. The use of ladders and removal of bulky equipment shall result in violation of accessibility. The interceptor vault shall be located as close to the source as practical; however, it shall be outside the facility served. In no case shall a grease interceptor be installed in any part of a building where food is handled. The owner and lessee shall be jointly responsible for cleaning of the interceptor. It shall be maintained in efficient operating condition by regular removal of accumulated grease and solids. The removal of grease and solids shall be performed before the capacity of the interceptor is exceeded. The owner and/or lessee shall conduct, on a basis, an inspection on each interceptor. Records of these inspections shall be kept on site for a minimum of three years. Abandoned grease interceptors shall be pumped and filled as required for abandoned sewers and sewage disposal facilities. Existing sources not connected to grease interceptors and which contribute significant amounts of oil and grease shall be identified through inspection of the wastewater collection systems by the City and County of Broomfield. Once these sources are identified, they shall be required to implement Best Management Practices Plans (BMPP’s) to keep oil and grease out of the wastewater collection system. If the BMPP’s are not successful at the facility and the facility continues to contribute significant amounts of oil and grease to the wastewater collection system, as documented by field inspections, then the facility shall be required to install an adequately sized grease interceptor as determined by the sizing criteria described below. The sizing criteria for grease interceptors are as follows: (Turn-Over Rate) x (Categorical Use Factor) x 2.5 (gallons of water) x (Seating Capacity) The varying sizing applications are broken down into the following categories and formulas: ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-133 Category A - Restaurants/Cafeterias Full or limited service with the capability to serve or prepare 100 meals per day. Plumbing fixtures: one pot sink, one 2 or 3 compartment sink, one hand sink, one mop sink, one floor sink, one dishwasher, and one garbage disposal that is directed to the grease interceptor. Equipment: one grill, one fryer, one to three ovens FORMULA: 2.0 x 1.25 x 2.5 x Seating For each additional garbage grinder and dishwasher that is to be directed to the Grease Interceptor there shall be a factor of 0.25 added to the Categorical Use Factor For each additional “Wok” stove, deep fryer and grill there shall be a factor of 0.50 added to the categorical factor. Category B- Hospitals, Schools, Institutions and Care Facilities FORMULA: Hospitals/Schools 2.0 x .75 x 2.5 x bed usage or seating Institutions/Care facilities 2.0 x 1.0 x 2.5 x seating or bed usage These formulas shall be adjusted by the following when necessary: A value of .25 shall be added to the Categorical Use Factor for each dishwasher or garbage disposal directed to the Grease Interceptor above the number of one each. A value of .50 shall be added to the Categorical Use Factor for each additional deep fryer or grill above the number of one each. Category C- Deli Stores and Super Markets with Meat Cutting Capabilities and/or Bakeries, Retail and Wholesale Bakery Facilities and Butcher Shops FORMULA: (Hours of Operation) x 4.0 x 10 For each of the following conditions a factor of .50 is to be added to the Categorical Use Factor value of 4.0 when dealing with meat cutting: A. More than one floor drain. B. Complete cooking of meats. ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-134 When dealing with retail types bakeries or Super Markets that have bakery facilities in addition to a deli and/or meat cutting, the bakery shall be sized separately using the same formula as above with the deletion of the .50 adjustment and instead an addition of 1.5 shall be added to the Categorical Use Factor when dealing with bakeries that are wholesale only or are of the industrial classification. Category D-Food Courts or “Common” Interceptors Each case shall be sized by separating each of the potential contributors into its own category then combining the operations for a total interceptor size. Category E- Commissaries, Commercial Kitchens and Caterers Each facility must be sized on an individual, case by case basis. However, it should be noted that the minimum acceptable size for a commercial kitchen shall be fifteen-hundred (1,500) gallons. Category F-Food Manufacturing Types Each case is evaluated separately. Whenever a food manufacturing operation is evaluated, a control manhole shall be required in addition to the minimum of fifteen-hundred (1,500) gallons. 518.02 In-Floor and Under Sink Grease Traps – Requires Special Review Users may receive approvals to install an in-floor or under-the-sink grease trap for small volume facilities, provided that: 1) the grease trap is no more than fifty (50) gallons in liquid/operating capacity; 2) proper methods are implemented (e.g. absorb liquids into solid form and dispose into trash, collect grease in container and recycle, or contract a grease hauler) and 3) detailed records of these activities are maintained and are available for review upon request. The size of the trap depends upon the number of fixtures connected to it. The following table provides criteria for sizing grease traps: Total number of fixtures connected Required rate of flow, gpm Grease retention capacity, lbs 1 20 40 2 25 50 3 35 70 4 50 100 ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-135 518.03 Oil Separators and Sand/Grit Interceptors At repair garages, car washing facilities with engine or undercarriage cleaning capability, and at factories where oily and flammable liquid waste are produced, all oil-bearing, grease-bearing, and flammable wastes shall be discharged to a separator before emptying in the building drainage system or other point of disposal. Oil separators shall have a depth of not less than two feet below the invert of the discharge drain. The outlet opening of the separator shall have not less than an eighteen (18) inch water seal. Where automobiles are serviced, greased, repaired or washed or where gasoline is dispensed, oil separators shall have a minimum capacity of six cubic feet for the first one-hundred (100) square feet of area to be drained, plus one cubic foot for each additional one-hundred (100) square feet of area to be drained into the separator. Parking garages in which servicing, repairing or washing is not conducted, and in which gasoline is not dispensed, shall still require a separator. Areas of commercial garages utilized only for storage of automobiles are required to be drained through a separator. Sand/grit and similar interceptors for heavy solids shall be designed and located to provide ready access for cleaning, and shall have a water seal of not less than six inches. Commercial laundries shall be equipped with an interceptor with a wire basket or similar device, removable for cleaning, that prevents passage into the drainage system of solids one-half inch or larger in size, string, rags, buttons, or other materials detrimental to the public sewage system. Bottling plants shall discharge process wastes into an interceptor that shall provide for the separation of broken glass or other solids before discharging waste into the drainage system. Slaughtering room and dressing room drains shall be equipped with approved separators. The separator shall prevent the discharge into the drainage system of feathers, entrails and other material that could cause clogging. Separators shall be designed to not become air bound where tight covers are utilized. Each separator shall be vented where subject to loss of trap seal. Access shall be provided to each separator for service and maintenance. Separators shall be maintained by periodic removal or accumulated grease, scum, oil, or other floating substances and solids deposited in the separator. ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-136 520.00 GENERAL PROVISIONS 521.00 General All sanitary sewer main construction within the Broomfield system and all sanitary sewer service line construction connecting to Broomfield’s sewer mains shall comply with these STANDARDS AND SPECIFICATIONS and the approved plans. These STANDARDS AND SPECIFICATIONS govern new sanitary sewer service line construction and repairs to existing facilities within Broomfield. 522.00 Permits Required A Public/Private Improvements Permit (PPIP) shall not be issued until the City Engineer has approved the sanitary sewer line plans. 523.00 Maintenance of Traffic When street cuts are required for sanitary sewer facilities construction, maintenance of traffic shall comply with Section 141.12 Traffic Control, Barricades and Warning Signs of these STANDARDS AND SPECIFICATIONS. 530.00 SANITARY SEWER MAIN CONSTRUCTION 531.00 Site Work and Earthwork 531.01 General Site work and earthwork shall comply with Section 300.00 SOILS AND EARTHWORK of these STANDARDS AND SPECIFICATIONS. 531.02 Trenching, Backfilling and Compacting Except where otherwise approved in writing by the City Engineer, all existing arterial and connector streets shall have pipe installed by pushing or boring. Directional boring may be approved at the discretion of the City Engineer. Trenching, backfill and compaction shall comply with Section 350.00 TRENCHING, BACKFILLING AND COMPACTING of these STANDARDS AND SPECIFICATIONS. 531.03 Preservation of Monuments Refer to Section 141.00 Protection of Public, Private and Utility Interests of these STANDARDS AND SPECIFICATIONS. ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-137 532.00 Materials 532.01 Sewer Pipe Unless otherwise approved by the City Engineer, all sewer pipe and fittings shall be Polyvinyl Chloride (PVC) and shall comply with ASTM D3034 or F679 (SDR 35), or ASTM F794 and F949 for profile wall pipe. All pipe and fittings shall be subject to inspection by Broomfield. All joints shall be factory prepared compression type (elastomeric gasket joint), providing a watertight seal. SOLVENT CEMENT JOINTS SHALL NOT BE USED. For pipe installation depths greater than twenty-five (25) feet, pipe material and bedding conditions shall be determined by engineer design calculations and submitted for approval by the City Engineer. 532.02 Underdrain Pipe Unless otherwise approved by the City Engineer, all underdrain pipe and fittings shall Polyvinyl Chloride (PVC), white in color, and shall comply with ASTM D3034, SDR 35. Pipe shall be solid wall pipe unless groundwater is present, as indicated in the geotechnical investigation. If groundwater is present, underdrain pipe shall be perforated in the lower quadrant and shall be wrapped with a geotextile fabric to keep soil fines from entering the pipe. All underdrain service pipe shall also be perforated and wrapped as previously noted. Where underdrain is to be constructed under sewer mains, a clean out shall be provided at each manhole for the underdrain as shown in the Detail Drawings. Suitable fittings shall be provided for construction of the six inch clean-outs and bends at manholes. 532.03 Plugs A gasketed plug, as recommended by the pipe manufacturer, shall be provided to seal the end of a wye connection or a dead-end stub. Plug locations shall be marked below ground with a wood 2x4 and above ground with a steel T-post with green flagging. 532.04 Manholes All manholes shall be supplied with a Saint-Gobain REXUS or similar approved manhole cover and frame. Covers and frames shall be manufactured from ductile iron to comply with ISO 1083. Covers shall be hinged and shall incorporate a ninety (90) degree blocking system to prevent accidental closure. All covers shall be operable by one person with standard tools and shall be capable of withstanding a test load of 120,000 lbs. Frames shall be circular and shall incorporate a seating gasket. The flange shall incorporate bedding slots and bolt holes. Manhole bases may be constructed of cast-in-place concrete or pre-cast concrete. Pre-cast reinforced concrete risers (barrel sections) and tops shall comply with ASTM C478. Manholes shall be in accordance with the Detail Drawings. ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-138 The top of the manhole vault shall be a minimum of twelve (12) inches and a maximum of eighteen (18) inches below the finished street or ground surface elevation. Concrete extension risers or collars shall be used to bring the manhole ring and cover up to finished street or ground surface elevation. Manholes five feet deep or less shall be constructed as shallow manholes and shall be in accordance with the Detail Drawings. Cones shall be of the eccentric type. Steps shall have a minimum tensile strength of 38,000 psi, minimum yield strength of 35,000 psi, and an elongation of not less than ten (10) percent in two inches. Steps shall carry a load of one thousand (1,000) pounds when projected six inches from the wall and fifteen hundred (1,500) pounds when projected four inches from the wall without permanent deformation. Steps shall be one-half (1/2) inch diameter steel-reinforcing rods completely encapsulated in Copolymer Polypropylene as manufactured by M.A. Industries, Inc. or an approved equal. Steps shall be spaced in accordance with the Detail Drawings. The minimum distance from the finished ground (street) surface to the first step shall be twenty-four (24) inches, and the maximum shall be thirty (30) inches. Mortar for manholes shall be mixed in the following proportions by volume: One part Portland cement; one-half (1/2) part hydrated lime; and three parts sand or masonry cement. The cement, lime, and sand shall be thoroughly mixed dry and only enough water added to form a mortar of proper consistency. Mortar shall be used within one hour after mixing with no retempering permitted. Mortar that has taken a partial set is prohibited from use. 532.05 Manhole Bases and Base Beams The minimum slab thickness shall be six inches. The minimum reinforcement shall be #4 reinforcing steel at twelve (12) inches on center each direction or welded wire fabric, 4x4/W4xW4. The placing, fastening, splicing and supporting of reinforcing steel and wire mesh or bar mat reinforcement shall be in accordance with the approved plans, the Detail Drawings and the latest edition of “CRSI Recommended Practice for Placing Reinforcing Bars.” Splicing of the welded wire fabric shall be by lapping one space and securing the wire mesh together. All wire fabric shall conform to the requirements of the “Wire Reinforcement Institute, Inc.” Manhole base beams shall be pre-cast, reinforced concrete. The beams shall be twelve (12) inches wide by nine inches deep by eight feet long. 532.06 Concrete Concrete shall comply with Section 800.00 CONCRETE MIX DESIGN AND CONSTRUCTION of these STANDARDS AND SPECIFICATIONS. Type II Portland cement shall be used, unless otherwise recommended by the Geotechnical Engineer. Concrete encasement of sewer pipe shall comply with Section 516.00 Relation to Waterlines of these STANDARDS AND SPECIFICATIONS. ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-139 532.07 Cast and Ductile Iron Fittings All cast iron manhole rings and covers and other iron castings shall comply with ASTM A48. Fittings shall be in accordance with the Detail Drawings. Ductile iron rings and covers shall comply with ISO 1083. All metal bearing surfaces between the ring and cover shall be machined or fabricated to insure good seating. Manhole lids shall be provided with non-slip pattern in surface that lies flush with the elevation of the ring. Lids shall be furnished with the words “SANITARY SEWER” cast on top. 532.08 Bedding Materials Bedding materials shall comply with Section 353.00 Bedding for Pipelines and Service Lines of these STANDARDS AND SPECIFICATIONS. 532.09 In-Place Rehabilitation of Existing Pipelines In-place rehabilitation of existing pipelines may be by sliplining, pipe bursting or heat activated resin lining in accordance with plans approved by a Colorado licensed Professional Engineer. Sewer liner pipe and fittings shall be made of a polyethylene pipe compound that meets the requirements for Type III, Grade P34 polyethylene and complies with ASTM D1248 and D3350. Both resin and manufacturing plant shall be approved by the National Sanitation Foundation. Horizontal and vertical alignment tolerances shall be specified by the design engineer. 532.10 Steel Casings for Bores All carrier pipe through casings shall comply with ASTM C900, C905 or C909. Steel casing pipe for bores shall be seamless welded steel tubing having an inside diameter of at least four inches greater than the outside diameter of the bell or joint or mechanical restraint of the carrier pipe or mechanical restraint to be installed therein. The minimum wall thickness of the tubing shall be: Casing O.D. Min. Wall Thickness >24” 3/16” 27” 1/4” 30”- 36” 5/16” 42” 3/8” All carrier pipe joints shall have mechanical restraint inside the casing. Cathodic protection and casing end seals shall be specified per design engineer recommendations. Carrier pipe supports shall be glass reinforced polymer runners similar to the system shown in the Detail Drawings. The spacer system shall be designed and fabricated for the specific project and application for which they are furnished. The casing spacer system manufacturer must have a current ISO 9001:2000 Registered Quality Assurance Program. ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-140 Steel pipe may be re-used for a casing if it can be certified to meet these STANDARDS AND SPECIFICATIONS and is approved by the City Engineer. 533.00 Installation 533.01 General Installation of PVC sewer main shall comply with ASTM D2321. 533.02 Alignment and Grade Field parties, under the supervision of a Registered Professional Land Surveyor or Professional Engineer licensed to practice in the State of Colorado, shall determine alignment and grade of the pipe and the location of sanitary sewer system appurtenances. The sewer line shall be installed to the required lines and grades with appurtenances at the required locations. Record Documents of sanitary sewer system alignment, verified by a Professional Licensed Surveyor or a Professional Engineer, shall be furnished to the City Engineer to comply with Section 200.00 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. 533.03 Protection of Existing Underground Utilities The Contractor shall be held responsible for the protection of public improvements as stated in Section 141.00 Protection of Public, Private and Utility Interests of these STANDARDS AND SPECIFICATIONS. It shall be the Contractor's responsibility to replace all public improvements damaged at his own expense. 533.04 Underdrain Pipe Underdrains shall be installed where shown on the approved plans and as required by Section 517.00 Underdrain Pipe of these STANDARDS AND SPECIFICATIONS. The underdrain pipe shall be installed to a true line and grade and held in place with underdrain bedding material as shown on the Detail Drawings. 533.05 Sewer Pipe Installation Proper equipment, tools and facilities shall be provided and used by the Contractor for safe and efficient performance of the work. All pipe and sanitary sewer appurtenances shall be carefully lowered into the trench in such a manner as to prevent damage to pipe materials and to protect coatings and linings. Under no circumstances shall pipe or fittings be dropped or dumped into the trench. Any pipe or fittings that are dropped or dumped shall be removed from the work site and shall not be used. When buried, all ductile iron pipe fittings and appurtenances shall be protected with polyethylene wrap in accordance with the Detail Drawings. Miscellaneous steel or other ferrous pipe shall be similarly protected. Refer to Section 200.00 ACCEPTANCE PROCEDURES of these ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-141 STANDARDS AND SPECIFICATIONS for survey requirements for Record Documents of sanitary sewer lines. The Broomfield Inspector/Representative shall be notified at least one working day (twenty-four [24] hours) in advance of when pipe is to be installed in any trench. No pipe shall be covered until a Broomfield Inspector/Representative has inspected the installation. Sewer lines shall be constructed continuously up grade from an existing sanitary sewer except when otherwise approved by the City Engineer. Special care shall be taken to lay sewer pipe to exact line and grade with spigot ends pointing in the direction of flow. Sewer pipe shall be secured in place by installation of bedding material tamped under and along it up to a level of twelve (12) inches over the top of the pipe to comply with Section 353.00 Bedding for Pipelines and Service Lines of these STANDARDS AND SPECIFICATIONS. Backfill material shall be installed and compacted to comply with Section 354.00 Backfill for Pipelines and Service Lines of these STANDARDS AND SPECIFICATIONS. All sewers shall be kept thoroughly clean and free of gravel, dirt and debris. Whenever work ceases for any reason, the unfinished end of the pipe shall be securely closed with a temporary tight-fitting plug. 533.06 (Left Blank Intentionally) 533.07 Connections to Existing Manholes Modifications to existing manholes shall not jeopardize the structural integrity. Sewer pipe connections to existing manholes, where there is no pipe stubbed out, shall be made in accordance with the Detail Drawings. The Contractor shall core drill as small an opening in the existing manhole as necessary to insert the new sewer pipe. The existing concrete flow channel shall be chipped to the cross-section of the new pipe in order to form a smooth continuous flow channel similar to what would be formed in a new concrete base. Non-shrink grout shall be used to finish the new channel and invert and to seal the new sewer line so the junction is watertight. 533.08 Construction of Manholes and Clean-outs Manholes shall be constructed in accordance with the Detail Drawings. Concrete bases shall extend at least eight inches below the bottom of the pipe and at least two inches over the top of the pipe. The concrete manhole bench shall slope upward at least two inches per foot from the top of the pipe. Pipes connecting to cast-in-place manhole bases shall have a water stop in accordance with the Detail Drawings. A water stop gasket shall also be used for new connections to existing manholes. The manhole flow channel shall be made of concrete and shall conform exactly to the lower half of the pipe it connects. Changes in flow direction shall be constructed with as large a radius of ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-142 curvature as possible. Flow channels shall be finished with cement mortar and left smooth and clean. Pre-cast barrel sections shall not be placed on the base until after it has reached sufficient strength to provide support without damage. Asphaltic mastic (Ram-Neck) shall be applied between each pre-cast section bearing seat. All lifting holes and other imperfections in the interior manhole wall shall be filled with cement mortar. Manhole barrel joints shall be sealed with a double bead of asphaltic mastic and joint tape on the outside. Adjustment rings shall be sealed with non-shrink grout. All sewer clean-outs that are not contained in manholes shall be provided with a valve box and a “sewer” lid. 533.09 In-Place Rehabilitation of Existing Pipelines Refer to Section 532.09 In-Place Rehabilitation of Existing Pipelines of these STANDARDS AND SPECIFICATIONS. 533.10 Steel Casing and Carrier Pipe Installation Tunneling and boring operation methods shall be approved by the City Engineer. Excavation and casing installation shall be performed simultaneously. At no time shall the advancing edge of the casing trail the excavation by more that twelve (12) inches. The casing pipe shall be installed by boring or jacking upgrade from the outlet end. When excavation exceeds the advancing edge of the casing by more than twelve (12) inches or sloughing of the hanging wall occurs such that voids are created along or above the casing, external grouting of the casing shall be required. Grouting shall be accomplished by pumping at between five and ten (10) psi equal parts of Portland Cement and mortar sand mixed with sufficient water to provide a slump of less than two inches through grout holes in the casing until all voids are filled. Grout holes, one inch to two inches in diameter, shall be provided or drilled in the casing on four foot centers along the pipe arch and at eight foot centers along each spring line. As grouting advances each of the completed grout holes shall be plugged to a watertight condition. Following installation of forcemain carrier pipe in casing pipe, tracer wire shall be taped to the forcemain and welded to each end of the casing. Uninterrupted continuity shall be tested in accordance with the requirements of Section 432.19 Tracer Wire and Warning Tape of these STANDARDS AND SPECIFICATIONS. 533.11 Wyes for Service Connections Wyes shall be angled upwards so that the flowline of a forty-five (45) degree bend connected to the fitting shall have an elevation equal to or higher than the inside crown of the sewer main. Watertight plugs shall be installed in each service connection stub. Record Document measurements shall be made to reference the wye to the nearest manhole before ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-143 backfill. Record Documents shall comply with Section 200.00 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. 534.00 Testing and Inspection Refer to Section 154.00 Inspections of these STANDARDS AND SPECIFICATIONS. Adequate inspections assure compliance to Broomfield requirements and are the basis for Broomfield’s recommendation that said improvements be accepted for maintenance and for release of performance guarantees. It is the responsibility of the Contractor to contact the City Engineer a minimum of one full working day (twenty-four [24] hours) in advance of the required inspections. Required inspections shall include: B. Stockpiled Materials – Verify that materials meet STANDARDS AND SPECIFICATIONS and approved submittals, including but not limited to: bedding material, pipe, fittings, valves, valve boxes, and fire hydrants. C. Excavation – Verify proper trench depths, shoring, spoil pile location, dewatering, and location and protection of existing utilities. D. Installation – Verify proper bedding depth, alignment and grade, clean pipe and lubricants. Verify “slicing in” of bedding at haunches. E. Backfill and Compaction – Verify proper methods of backfill and compaction, depths of lifts, moisture control, backfill material free of large rock and organic or frozen material, and proper compaction effort and passing tests. Verify that sewer forcemain has warning tape. Verify that tracer wire has been installed on all carrier pipe contained in a casing and that it has a passing continuity test. F. Testing – Verify that testing methods comply with these STANDARDS AND SPECIFICATIONS. Verify that Broomfield has witnessed all low pressure air tests of pipe, vacuum testing of manholes and any other testing requirements such as deflection testing. Mandrel testing for flexible pipe with depths of cover equal to 20 feet or more must be witnessed by Broomfield. Mandrel testing shall be performed by a certified third party. Prior to Construction Acceptance, the Contractor shall conduct tests for water- tightness. Tests shall be completed under the observation of the Broomfield Inspector/Representative. Low pressure air testing of the sewer lines (including services) and vacuum testing of all manholes shall be required by the City Engineer. The Contractor shall provide all equipment and personnel necessary to perform the required tests. The Broomfield Inspector/Representative shall record times and pressure and vacuum readings during the test period. A test section shall not be any longer than the length of pipe between adjacent manholes. The City Engineer may require that the first two manholes, including the main between them, of all sewer projects be tested before further construction to permit initial observation of the quality of construction workmanship. The City Engineer may require additional testing during the course of construction if infiltration appears to be excessive or the quality of workmanship is questionable. ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-144 G. Construction Acceptance – Refer to Section 200 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. General items include: 1. All temporary structures, debris, mud and waste materials shall be removed from public property. 2. All relative testing certifications and documentation shall be submitted to Broomfield, including all compaction tests. Copies of originals are acceptable. 3. All sanitary sewer service locations shall be marked by saw cutting an or (or an or to indicate an underdrain system is present) into the face of the curb where the service extends into the property. 4. All sanitary sewer manholes are at construction grade, clean, and grouted with ladders straight. Verify that underdrain clean-outs are clear and capped and that all sanitary sewerlines have been jetted. Prior to requesting a Construction Acceptance inspection, the Contractor shall clean sanitary sewer mains and shall have the lines inspected with TV video equipment. A copy of the videotape and written report shall be submitted to Broomfield for review. Video shall also include an audio description of pipe and manhole deficiencies, and camera location during the inspection. Any sections that contain debris or obstructions shall be cleaned and re-videotaped. Video shall be continuous from manhole to manhole, and all notations shall correspond to the approved construction plans. If, after visual inspection of the sanitary sewer lines the City Engineer suspects that there is a problem, alignment, and/or deflection tests may be required at the Contractor’s expense. H. Final Acceptance – Refer to Section 200 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. 1. Verify that all temporary structures, debris, mud, and waste materials are removed from public property. 2. Verify that all sanitary sewer manholes are clean. Prior to Construction Acceptance, the Contractor shall jet rod the sewer lines, and a video inspection and written log shall be performed, recorded and submitted to Broomfield. The Broomfield Inspector/Representative shall review the recorded video and log for inadequacies in the system. If inadequacies are noted, the Contractor shall make repairs deemed necessary by the Broomfield Inspector/Representative. 534.01 Air Testing Pipeline Air testing shall comply with UNI-BELL UNI-B-6. The portion of the line being tested shall be termed “acceptable” if the time required in minutes for the pressure to decrease from 3.5 to 3.0 psig (greater than the average back pressure of any groundwater that may be over the pipe) shall not be less than the time shown for the given diameters in the following table: ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-145 SPECIFICATION TIME REQUIRED FOR A 0.5 PSIG PRESSURE DROP FOR SIZE AND LENGTH OF PIPE 3 4 2 Length Time 1 Minimum for for Pipe Time Minimum Longer Diameter (min: Time Length Specified Minimum for Length Shown (min:sec) (in.) sec) (ft) (sec) 100ft 150ft 200ft 250ft 300ft 350ft 400ft 450ft 4 1:53 597 .190L 1:53 1:53 1:53 1:53 1:53 1:53 1:53 1:53 6 2:50 398 .427L 2:50 2:50 2:50 2:50 2:50 2:50 2:51 3:12 8 3:47 298 .760L 3:47 3:47 3:47 3:47 3:48 4:26 5:04 5:42 10 4:43 239 1.187L 4:43 4:43 4:43 4:57 5:56 6:55 7:54 8:54 12 5:40 199 1.709L 5:40 5:40 5:42 7:08 8:33 9:58 11:24 12:50 15 7:05 159 2.671L 7:05 7:05 8:54 11:08 13:21 15:35 17:48 20:02 18 8:30 133 3.846L 8:30 9:37 12:49 16:01 19:14 22:26 25:38 28:51 21 9:55 114 5.235L 9:55 13:05 17:27 21:49 26:11 30:32 34:54 39:16 24 11:20 99 6.837L 11:24 17:57 22:48 28:30 34:11 39:53 45:35 51:17 27 12:45 88 8.653L 14:25 21:38 28:51 36:04 43:16 50:30 57:42 64:54 30 14:10 80 10.683L 17:48 26:43 35:37 44:31 53:25 62:19 71:13 80:07 33 15:35 72 12.926L 21:33 32:19 43:56 53:52 64:38 75:24 86:10 96:57 36 17:00 66 15.384L 25:39 38:28 51:17 64:06 76:55 89:44 102:34 115:23 42 19:74 57 20.942L 34:54 52:21 69:49 87:15 104:42 122:10 139:37 157:04 48 22:67 50 27.352L 45:35 68:23 91:11 113:58 136:46 159:33 182:21 205:09 If groundwater is higher than the top of the pipe, the test pressure is to be increased. An air pressure adjustment shall be added to the normal test starting pressure when groundwater is present. The height of groundwater in feet shall be divided by all readings. (For example, if the height of water is eleven (11) and one half (1/2) feet, then the added pressure shall be 5 psig. This increases the 3.5 psig to 8.5 psig, and the 2.5 psig to 7.5 psig. The allowable drop of one pound and the timing remain the same. In no case however, should the starting test pressure exceed 9.0 psig. Sections of pipe that fail the air test shall have the defects repaired and the pipe retested until the testing requirements are met. 534.02 Vacuum Testing Manholes Manholes shall be tested before the ring and cover and grade adjustment rings have been installed. All pipes entering the manhole shall be plugged and braced and a vacuum of ten (10) inches of mercury shall be drawn. The vacuum pump shall be turned off and the time monitored as the vacuum drops one inch. The vacuum shall not drop more than one inch for the duration of the time indicated in the following table: SPECIFIED TEST DURATION FOR DIAMETER OF MANHOLE (DURATION INDICATED IN MIN:SEC) MANHOLE DIAMETER (INCHES) 48” 60” 72” 1 1.15 1.45 ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-146 Manholes that fail the vacuum test shall have the defects repaired and the manholes retested until the testing requirements are met. 534.03 Deflection Testing Pipe When required, all flexible material sewer pipelines shall be tested for vertical deflection after placement and compaction of backfill if deemed necessary by the Broomfield Inspector/Representative. Method of testing shall be by deflectometer of the rigid GO/No-GO type device or an alternative method permitted by the City Engineer. Maximum allowable deflection shall be five percent of the pipe diameter. Any and all pipe with vertical deflection greater than the allowable shall be excavated, removed from the pipeline, replaced, backfilled and compacted and retested until the testing requirements are met. 534.04 Infiltration and Exfiltration Testing When required, infiltration and exfiltration tests shall be conducted to comply with UNI-BELL standards. Whenever the rate of infiltration or exfiltration is found to exceed the prescribed amount, the Contractor shall stop all construction. The Contractor shall make appropriate repairs by methods acceptable to the City Engineer and shall continue to test the conduit until it is proven satisfactory. BROOMFIELD SHALL NOT ACCEPT ANY SANITARY SEWER LINE WHERE INFILTRATION OR EXFILTRATION TESTS SHOW LEAKAGE IN THE SEWER LINE AND MANHOLES EXCEEDING FIFTY (50) GALLONS PER INCH DIAMETER PER MILE PER DAY BETWEEN ADJACENT MANHOLES. 535.00 Connection to Broomfield’s Sewer System Flow of any kind into the existing sewer system shall not be allowed until the sewer has been satisfactorily completed and approved for use by the City Engineer. 540.00 SANITARY SEWER SERVICE LINE CONSTRUCTION 541.00 Trenching, Backfilling and Compacting Trenching, backfilling and compacting shall be completed and shall comply with Section 350.00 TRENCHING, BACKFILLING AND COMPACTING of these STANDARDS AND SPECIFICATIONS. 542.00 Materials 542.01 Polyvinyl Chloride (PVC) Pipe and fittings shall comply with ASTM D3034. All joints shall be factory prepared compression type (elastomeric gasket joint), providing a watertight seal. A compression stop, as ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-147 recommended by the pipe joint manufacturer, shall be provided to seal the end joint of dead-end stubs. 543.00 Installation 543.01 General Installation of PVC sanitary sewer services shall comply with ASTM D2321 and to the pipe manufacturer’s installation instructions. 543.02 Location and Alignment of Service The sanitary sewer service may be constructed with one or more horizontal forty-five (45) degree bends between the house plumbing and the sanitary sewer main with the written approval of the City Engineer. Clean-outs shall be installed to comply with the International Residential Code (IRC), the International Plumbing Code (IPC) and as described herein. Unless specific approval is obtained in writing from the City Engineer, all sanitary sewer service lines shall have a minimum depth of three feet. At no time shall the service line be closer than three feet to a side property line, and no service line may be constructed through or in front of an adjoining property. Sewer service lines shall be typically located a minimum of ten (10) feet to the low side of the water service or as shown on the approved plans. Generally, services shall not be located under driveways. 543.03 Crossing Sidewalk or Curb (Existing or Proposed) In no instance shall a trench extend beneath an existing sidewalk or curb. The pipe shall be bored, jacked or tunneled through the earth under the sidewalk or curb. If the service line is installed prior to the placement of the sidewalk or curb, the trench shall be backfilled in accordance with Section 354.00 Backfill for Pipelines and Service Lines of these STANDARDS AND SPECIFICATIONS. 543.04 Service Stub-ins to Property Line Sanitary sewer service line locations shall be marked on the curb with an and with a line under it to indicate an underdrain system. All service stub-ins shall be stubbed into the lots, ten (10) feet minimum beyond the R.O.W. or utility easement. All service stub-ins shall be plugged and marked in accordance with Section 532.03 Plugs of these STANDARDS AND SPECIFICATIONS. BROOMFIELD SHALL BE RESPONSIBLE FOR MAINTAINING THE PORTION OF THE SERVICE LINE AS SHOWN ON THE DETAIL DRAWINGS. ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-148 543.05 Tapping the Main Where wyes have not been installed in the sewer main, sanitary sewer tapping saddles shall be used. Sewer tapping saddles shall be double strapped saddles with rubber gasket pipe sealant. A manhole shall be installed instead of a service tap when a six inch connection is to be made to an eight inch or smaller main. SERVICE TAPS DIRECTLY INTO A MANHOLE SHALL NOT BE ALLOWED WITHOUT THE WRITTEN APPROVAL OF THE CITY ENGINEER. 543.06 Pipe Installation In cases where the sewer service cannot be installed a minimum of ten (10) feet horizontally from a water service, concrete encasement of the sewer line shall be required. Installation of sanitary sewer lines shall comply with Section 533.00 Installation of these STANDARDS AND SPECIFICATIONS. In cases where the water and sewer service lines shall cross one another, installation shall comply with Section 516.00 Relation to Waterlines of these STANDARDS AND SPECIFICATIONS. 543.07 Industrial All buildings (warehouses, etc.) constructed as a shell, with the intention of only being used for subdivided suites for commercial purposes, shall be required to install service connections extending a minimum of six feet outside of the building with a clean-out for each set of proposed bathrooms or suites. All commercial and industrial facilities shall have a clean out on the outside of the building, located a minimum of three feet from the building, on the service connection. ALL COMMERCIAL AND INDUSTRIAL SERVICE FACILITIES SHALL COMPLY WITH CHAPTER 13.28 OF THE BROOMFIELD MUNICIPAL CODE. 543.08 Other Requirements Rainwater leaders, roof drains, surface drains or groundwater drains shall not be connected to the sanitary sewer system. Each sanitary sewer service system shall be separate from the drainage system. Grease, oil and grit traps shall be designed and installed where required by the provisions of the IRC. ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-149 550.00 FLOW METERING AND SAMPLING STATION CONSTRUCTION 551.00 General Except as otherwise specifically noted on approved plans, or specified herein, all materials and installation for flow measurement and sampling stations shall comply with Section 500.00 SANITARY SEWER FACILITIES of these STANDARDS AND SPECIFICATIONS. 552.00 Equipment Compatibility The Contractor shall, prior to procuring and installing any equipment, consult with Broomfield to ensure that the equipment purchased and installed is compatible in all respects to the existing sampling and flow measurement equipment owned and operated by Broomfield. Volumetric weir installation is subject to approval by Broomfield. 553.00 Sampling Station Manholes Manholes shall be constructed, complete with covers, fittings, and other appurtenances, in accordance with the Detail Drawings. 554.00 Grating All grating and grating treads shall be either structural fiberglass or aluminum. The design engineer shall submit design calculations and details appropriate for the application to be approved by the City Engineer. All grating shall lie flat with no tendency to rock when installed. Poorly fitted or damaged grating shall be rejected and shall be replaced by the Contractor. Steel frames cast in concrete to support grating shall be hot-dip galvanized after fabrication. 555.00 Weir Plates and Grooves Weir plates and guide grooves shall be fabricated from aluminum or fiberglass with edges accurately finished. Plates shall be provided with U-shaped lifting handles. Each groove opening shall be at least one-quarter inch wider than the thickness of the plate installed therein. Grooves shall have all interior surfaces smooth. Weir plate grooves shall be installed plumb and straight within a tolerance of three thirty-seconds (3/32) inch and with the opposite sides and bottom aligned in a single plane to prevent binding of the weir plate. If necessary to meet this requirement, a space shall be boxed out for guides and the guides grouted in place later. Weirs shall be v-notch weirs for flows ranging up to 0.15 MGD, and shall be an eighteen (18) inch wide Cippoletti weir with flows ranging from 0.15 to 0.5 MGD. Weir design shall be reviewed by the City Engineer to insure adequate flow measurement. A staff gauge shall be read in inches. ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-150 Once the weir is in place, no flow bypass around the weir shall be allowed. Weir plates and grooves shall be in accordance with the Detail Drawings. Volumetric weir installation shall be approved by the City Engineer. 556.00 Station Location The location of the flow measurement and sampling station shall be such that it is easily accessible at all times by Broomfield personnel. The City Engineer shall approve the location of the station. 557.00 Operation of Existing Facilities The operation of the existing sanitary sewer system shall not be interrupted or degraded by the sample station construction. 558.00 Drawings and Data Complete data and detailed drawings including all structural and miscellaneous metal items shall be prepared by a Registered Professional Engineer licensed to practice in Colorado and submitted to the City Engineer for review and approval prior to fabrication. The Developer shall provide Broomfield with a set of Record Documents that complies with 200.00 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. 560.00 SEWAGE LIFT STATIONS 561.00 General In those locations that cannot be served by gravity into the existing Broomfield system, Broomfield may approve the construction of a sewage lift station. The sewage lift station, as determined by the City Engineer, may be either a temporary or a permanent facility. The Developer shall provide the City Engineer with a complete set of design calculations and design drawings that comply with Section 160.00 PLANS AND SPECIFICATIONS of these STANDARDS AND SPECIFICATIONS for review and approval of the City Engineer. The sewage lift station shall satisfy all of the requirements of the Colorado Department of Public Health and the Environment (CDPHE) and these STANDARDS AND SPECIFICATIONS. The Developer's engineer shall prepare the “Application for Site Approval” for submittal to the Colorado Department of Health and to prepare a set of Record Document drawings of the sewage lift station that complies with Section 200.00 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. Upon completion of the lift station, the Contractor shall also provide Broomfield with two copies of an “Operation and Maintenance Manual” for the lift station. Lift station design shall not incorporate submersible pumps. ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-151 Whenever a lift station is required, a discussion with the Broomfield Engineering Division and the Public Works Department shall be required. A security system is required for all lift stations, and it shall be approved by Broomfield prior to installation. 562.00 Design Criteria 562.01 Odor and Corrosion Control The potential for odor generation shall be evaluated, and if recommended shall be provided at the lift station. The method of odor control shall be as determined by the City Engineer. The potential for corrosion shall be evaluated, and if recommended shall be provided at the lift station. The method of corrosion protection shall be as determined by the City Engineer. The manhole receiving the discharge from a forcemain shall be corrosion protected. The sewer system shall be evaluated for the need for odor control and corrosion protection, and, if recommended, facilities shall be included for odor control and corrosion protection. 562.02 Wet Well Construction The wet well shall consist of a cast-in-place reinforced concrete structure divided into two compartments. The two compartments shall be interconnected with a valve or gate. The dual compartments shall allow the draining of one compartment for cleaning or maintenance without affecting the operation of the station. A division box shall be provided upstream of the wet well to allow the sewage lift station flows to be directed into either or both of the wet well compartments. A removable screen, or heavy-duty grinder, as determined by the City Engineer, shall be provided in the inflow into each wet well compartment to collect debris. 562.03 Pumps and Pump Station Pumps shall be installed in a dry well adjacent to the wet well, and be of a type and design acceptable to Broomfield. SUBMERSIBLE PUMPS SHALL NOT BE ALLOWED UNLESS SITE CONDITIONS SPECIFICALLY WARRANT. THE USE OF SUBMERSIBLE PUMPS SHALL REQUIRE THE WRITTEN APPROVAL OF THE CITY ENGINEER. The pump station shall be designed utilizing a minimum of three pumps. Each pump shall be capable of pumping the peak design flow. Two pumps shall be located in the primary wet well. The third pump shall be located in the second overflow/maintenance wet well. All pump equipment shall be manufactured and supplied by the same company. The pump station shall be an above ground structure sized to accommodate all of the pumps, electrical ---PAGE BREAK--- SANITARY SEWER FACILITIES SECTION 500 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 500-152 equipment and controls required to operate the facility. The station shall be lighted, heated and well ventilated, and shall be designed for easy expansion if required by the City Engineer. The architectural finish of the station shall blend with that of the surrounding architecture as much as possible. A STANDBY GENERATOR, CAPABLE OF OPERATING THE ENTIRE STATION FOR A MINIMUM OF FOUR HOURS, SHALL BE PROVIDED AND LOCATED OUTSIDE THE BUILDING IN AN ALL WEATHER ENCLOSURE. 562.04 Controls and Supervisory Control and Data Acquisition (SCADA) Pump operation shall feature automatic sequencing of the pump operation to balance pump wear. Pumps shall be controlled by pre-determined wet well levels measured by mercury float switches. A SCADA system shall be incorporated into the system to automatically contact Broomfield in case of an emergency. The SCADA system shall be equipped with several channels so it shall be capable of differentiating between a variety of emergency conditions including high and low wet well levels, pump failures and power failure. The SCADA system shall be compatible with Broomfield's system and shall be reviewed and approved by the City Engineer prior to installation. The controls, SCADA equipment, miscellaneous electrical equipment and automatic power switch shall be installed in a control room located on the above ground floor of the pump station. 562.05 Site Security and Improvements Site security shall be provided based on site assessment and shall comply with Broomfield requirements. A six foot high chain link fence with barbless wire, or other approved material, shall be installed around the perimeter of the sewage lift station site. Upon completion of the lift station construction, all disturbed areas within the site shall be fertilized, seeded and mulched to comply with Section 1030.00 SEEDING SPECIFICATIONS of these STANDARDS AND SPECIFICATIONS. Depending on site location, landscaping improvements may be required by the City Engineer. 570.00 RESTORATION AND CLEANUP Restoration and cleanup shall be completed and shall comply with Section 370.00 RESTORATION AND CLEANUP of these STANDARDS AND SPECIFICATIONS. ---PAGE BREAK--- ORIGINAL SIGNED DRAWINGS ARE ON FILE AT THE CITY & COUNTY OF BROOMFIELD!!! ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-153 SECTION 600 STORM DRAINAGE FACILITIES 601.00 GENERAL CONDITIONS 610.00 STORM DRAINAGE DESIGN AND TECHNICAL 611.00 Design Methods 158 611.01 Minor and Major Design Storms 158 611.02 Storm Return 158 611.03 Rainfall Intensities 159 611.04 Runoff Computations, Colorado Urban Hydrograph Procedure 159 611.05 Runoff Computations, Rational 159 611.06 Runoff 159 612.00 160 612.01 160 612.02 Equation 161 612.03 Sequential 161 613.00 Design Standards 161 613.01 Open 161 613.02 Storm Sewers and Storm 163 613.03 165 613.04 Street Flow Capacities 166 620.00 GENERAL 621.00 168 622.00 Approved 168 623.00 Permits 168 624.00 Traffic Control 168 630.00 EROSION 631.00 169 632.00 Requirements 169 633.00 169 634.00 Erosion Control 169 635.00 Erosion Control 170 ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-154 640.00 STORM DRAINAGE 641.00 Site Work and 170 641.01 170 641.02 Trenching, Backfilling and 170 642.00 Materials 170 642.01 Pipe 170 642.02 Pipe 171 642.03 Manholes, Inlets and Sidewalk 171 642.04 Manhole Base Slabs & Base Beams 172 642.05 172 642.06 Cast and Ductile Iron 172 642.07 Bedding Material 172 642.08 Riprap and Filter Cloth 172 643.00 174 643.01 Alignment and 174 643.02 Protection of Existing Underground Utilities 174 643.03 Wet 174 643.04 (Left Blank Intentionally) 174 643.05 Storm Sewer Pipe 174 643.06 Connections to Existing Manholes 174 643.07 Construction of Manholes, Inlets and Sidewalk 174 643.08 Construction of Open Channels and Special Structures 175 643.09 Riprap and Filter Cloth 175 643.10 176 643.10.01 Pipe – Water Tightness 176 643.10.02 Pipe – 176 643.10.03 176 643.10.04 Infiltration and 176 644.00 Inspections 176 650.00 TRENCHING, BACKFILLING AND COMPACTING 660.00 RESTORATION AND CLEANUP 670.00 GRADING AND DETAIL DRAWINGS – SECTION 600 600-1 Erosion Control Plan Symbols 600-2 Straw Bale Barrier 600-3 Silt Fence Barrier 600-4 Curb Inlet Gravel Filter 600-5 Construction Staging Pad 600-6 Erosion Control Barriers – Residential ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-155 600-7 Roof Drain to Street 600-8 Storm Sewer Outlet 600-9 Storm Inlet Plan 600-10 Storm Inlet Section 600-11 Storm Inlet Section 600-12 Storm Inlet in Median 600-13 Storm Inlet Details 600-14 Trench Drain Detail 600-15 Time-Intensity-Frequency Curves 600-16 CUHP Design Storm 600-17 Underdrain Detail ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-156 SECTION 600 STORM DRAINAGE FACILITIES 601.00 GENERAL CONDITIONS Refer to Section 100 TITLE, SCOPE AND GENERAL CONDITIONS of these STANDARDS AND SPECIFICATIONS for additional requirements that apply to all projects within Broomfield. 610.00 STORM DRAINAGE DESIGN AND TECHNICAL CRITERIA All proposed construction plans and submittals shall be accompanied by a storm drainage analysis. Appropriate drainage system design shall be submitted for approval by the City Engineer for each phase of construction. Approval of the analysis and design is subject to the following conditions: A. Construction of the system shall commence within 365 days of the date of the approval. B. No construction has been completed on any adjacent property that may have affected the drainage pattern within the basin. New submittals may be required by the City Engineer. The proposed construction shall not damage upstream or properties. The planning and design of the drainage system shall not transfer the problem from one location to another. Except where specified in these STANDARDS AND SPECIFICATIONS, the procedure, criteria, and standards set forth in the latest revision of the Urban Drainage Flood Control District Storm Drainage Criteria Manual—hereby referred to as the UDFCD Manual—shall be instituted for the analysis of any drainage system. Current engineering practices and drainage methodology, as well as common sense, shall be involved with the analysis of any drainage system. The runoff analysis for a particular area shall be based on the natural, undisturbed land for that area. Any contributing runoff from upstream areas shall be based on the existing land use and topographic characteristics of those areas. Where a master drainage plan for a given area of Broomfield is available, proposed drainage systems shall conform to that plan. Consideration shall be given as to how the proposed master plan drainage systems shall tie into the existing upstream and drainage system. In areas where a master plan is not available, major drainageways and easements shall be located to provide continuity with existing drainage conditions. These drainageways and easements shall be shown on all drainage plans. ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-157 A CONSTRUCTION STORMWATER DISCHARGE (CDPS) PERMIT SHALL BE OBTAINED FROM THE COLORADO DEPARTMENT OF PUBLIC HEALTH AND ENVIRONMENT FOR DISTURBANCE OF ANY SITE LARGER THAN ONE ACRE. FOR CAPITAL IMPROVEMENT PROJECTS, THE CONTRACTOR IS REQUIRED TO OBTAIN A CDPS PERMIT. Permanent stormwater quality facilities shall be designed and constructed in accordance with the UDFCD Manual (Volume The Federal Emergency Management Agency (FEMA) floodplain boundaries are available from the City Engineer and shall be shown on all preliminary and final drainage plans. Refer to the Broomfield Municipal Code for permitted uses in the floodplain. All ponding facilities shall be of the detention type. Retention facilities shall only be allowed with the written approval of the City Engineer. Construction that shall impair surface or subsurface drainage shall not be approved. Broomfield reserves the right to issue and enforce more stringent criteria shall adverse conditions exist. Designs that vary from the criteria shall require written approval of a variance by the City Engineer prior to final approval of the plans. Natural topographic features shall be the basis of location for easements and future runoff calculations. Where defined, existing drainage patterns and slopes shall be used. The drainage facilities shall be able to handle the design flows with no erosion damage to the system. Streets shall not be used as primary floodways for major storm runoff. The amount of runoff in the streets shall not exceed the limits established in Section 613.04 Street Flow Capacities of these STANDARDS AND SPECIFICATIONS. For inlet and manhole details, refer to the CDOT M&S Standards. Details not covered by the CDOT M&S Standards are included in these STANDARDS AND SPECIFICATIONS. Stormwater detention facilities or natural drainageways are to be used whenever feasible. Any alteration to natural drainage patterns shall not be approved unless a thorough investigation and analysis shows no hazard or liability. The City Engineer shall have final authority over any system design. ALL DRAINAGE FACILITIES SHALL BE IN AN EASEMENT OR PUBLIC R.O.W. All drainage improvements shall be as natural in appearance as possible to be aesthetically pleasing. Maintenance access shall be provided for all drainage and flood control facilities. Irrigation ditches shall not be used as the outfall of any drainage basin. ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-158 611.00 Design Methods 611.01 Minor and Major Design Storms Every urban area has two separate and distinct drainage systems whether or not they are actually planned for and designed. One is the initial system, which corresponds to the minor (or ordinary) storm recurring at regular intervals. The other is the major system, which corresponds to the major (or extraordinary storm), which is unlikely to occur more often than once in one- hundred (100) or more years (“100-year storm”). Since the effects and routing of stormwaters for the major storm may not be the same as for the minor storm, all storm drainage plans submitted for approval shall be submitted in detail in two separate phases: one indicating the effects of the minor storm and the other showing the effects of the major storm. A. Minor storm provisions: The objectives of the minor storm planning are to minimize inconvenience, to protect against recurring minor damage, to reduce rising maintenance costs, to create an orderly drainage system and to provide a sociological benefit to the urban resident. The minor storm drainage system may include curb and gutter, storm sewer, swales, and other open drainageways and detention facilities. B. Major storm provisions: The major storm shall be considered the 100-year storm. The objectives of the major storm planning are to eliminate substantial property damage or loss of life and shall be as directed and approved by the City Engineer. Major drainage systems may include storm sewers, open drainageways and detention facilities. The correlation between the minor and major storm system shall be analyzed to ensure a well coordinated drainage system. 611.02 Storm Return Periods The minor and major storm design return periods shall not be less than those shown below: DESIGN STORM RETURN PERIODS Land Use or Zoning Design Storm Return Period Minor Storm Major Storm Residential 2-year 100-year Business 5-year 100-year Public Building Areas 5-year 100-year Parks, Greenbelts, etc. 2-year 100-year Open Channels and Drainageways - 100-year Detention Facilities 10-year1 100-year 1A two year storm return period shall be used if the detention facility does not have a water quality outlet. ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-159 611.03 Rainfall Intensities The rainfall intensities to be used in the computation of runoff shall be obtained from the Time- Intensity-Frequency Curves shown in the Detail Drawings. 611.04 Runoff Computations, Colorado Urban Hydrograph Procedure (CUHP) The CUHP method is generally applicable to basins greater than ninety (90) acres, and the CUHP is required for watershed areas larger than 160-acres. The procedures for the CUHP, as explained in the UDFCD Manual (Volume shall be followed in the preparation of drainage reports and storm drainage facility designs in Broomfield. The design storms to be used with the CUHP method are presented in the CUHP Design Storm for Broomfield in Section 611.03 Rainfall Intensities of these STANDARDS AND SPECIFICATIONS. 611.05 Runoff Computations, Rational Method The Rational Method shall be utilized for sizing storm sewers and for determining runoff magnitude for smaller watersheds. The limit of application of the Rational Method is approximately ninety (90) acres. When the drainage basin exceeds ninety (90) acres, the CUHP method shall be used. The procedures for the Rational Method, as explained in the latest edition of the UDFCD Manual (Volume shall be followed in the preparation of drainage reports and storm drainage facility designs in Broomfield. 611.06 Runoff Coefficients Rational method runoff coefficients: The runoff coefficient to be used in conjunction with the Rational Method shall not be less than those listed below: - This space intentionally left blank - ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-160 RUNOFF COEFFICIENTS FOR RATIONAL METHOD Frequency Land Use or Surface Characteristics Percent Impervious 2 5 10 100 Business Commercial Areas 95 .79 .81 .83 .88 Neighborhood Areas 85 .66 .68 .69 .75 Residential Single-Family * * * * * Multi-Unit (detached) 60 .37 .41 .46 .63 Multi-Unit (attached) 75 .51 .54 .58 .66 1/2 Acre Lot or Larger * * * * * Apartments 80 .57 .59 .63 .70 Industrial Light Areas 80 .57 .59 .63 .70 Heavy Areas 90 .71 .73 .75 .81 Parks, Cemeteries 5 .08 .18 .28 .52 Playgrounds 10 .11 .21 .30 .53 Schools 50 .34 .40 .46 .60 Railroad Yard Areas 15 .14 .24 .32 .54 Undeveloped Areas Historic Flow Analysis 2 (See "Lawns") Greenbelts, Agricultural 2 Offsite Flow Analysis (when land use not defined) 45 .31 .37 .44 .59 Streets Paved 100 .89 .90 .92 .96 Gravel 40 .28 .35 .42 .58 Drives and Walks 90 .71 .73 .75 .81 Roofs 90 .71 .73 .75 .81 Lawns, Sandy Soil 0 .00 .01 .05 .20 Lawns, Clay Soil 0 .04 .15 .25 .50 *Refer to the graphs in the Runoff Chapter of the UDFCD Manual. 612.00 Detention 612.01 General Onsite detention is required for all new development, expansion and redevelopment. The required minimum detention volume and maximum release rates at these volumes for the 2-year, 5-year and 100-year storms shall be determined in accordance with the procedure and data set forth in these criteria. If the pond does not include a water quality outlet, which controls about the one and one-half (1½) year storm, the pond shall be designed to release the two year historic rate. ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-161 Exemptions from the detention requirement may be granted if it can be demonstrated that the developed area does not adversely affect the major drainageways (assuming the entire drainage area is fully developed) and that the water quality is maintained. Offsite flows cannot be passed through the detention pond. Offsite areas shall be included in the drainage area contributing to the pond. In certain cases offsite flow can be routed around the detention pond. Parking lots that serve as detention storage ponds shall not have a storage depth of more than one foot. Parking lots that serve as detention storage ponds shall place notification signs that the area ponds during a rainfall event. The signs shall be permanent and high quality, and shall meet Broomfield’s specifications for traffic signs. 612.02 Equation Method The equation method found in the Storage section of the UDFCD Manual may be used to design detention ponds for drainage areas smaller than ninety (90) acres; however, if the calculated allowable release is greater than the historic runoff, a different method shall be used to determine the storage requirements. If the drainage area is larger than ninety (90) acres a CUHP/UDSWM analysis shall be used to design the detention ponds. 612.03 Sequential Detention The sequential detention method shall be used for ponds that drain into each other. The total drainage area cannot exceed ninety (90) acres. Use the Sequential Detention Form at the end of Section 600 of these STANDARDS AND SPECIFICATIONS to size sequential detention ponds. 613.00 Design Standards 613.01 Open Channels Except as modified herein, open channels shall be designed for the 100-year storm and shall conform to the UDFCD Manual. In addition, the channel design shall also be analyzed with respect to minor storm runoff. Whenever practical, the channel shall have slow flow characteristics, be wide and shallow, and be natural in its appearance and functioning. Channels shall be designed so that critical depth and super-critical flows are avoided. Channel capacities shall be computed from Manning's Formula for uniform flow, except at crossings and transitions where the design shall account for backwater effects. The channel cross-section may be any type suitable to the location; however, the limitations for design for the major storm and minor storm design flows shall include: A. Capacity: The channel and overbank areas shall have adequate capacity for the 100-year storm runoff. ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-162 B. Side slopes: Side slopes shall be as flat as practical. Side slopes of 4:1 (run:rise) shall be considered a normal minimum. Under special conditions, slopes of 3:1 may be utilized with written approval of the City Engineer. The practical slope for mowing equipment is 4:1 or less. C. Depth: The maximum design depth of flow for the major storm shall be limited to five feet of depth in the channel cross section outside of the low-flow or trickle channel. Any design variation exceeding the maximum depth of flow shall be submitted in writing for approval by the City Engineer. Critical depths and velocities shall be investigated and reported for both the major and minor storm runoffs. D. Freeboard: Except where localized overflow in certain areas is desirable for additional ponding benefits or other reasons, the minimum allowable freeboard shall be one foot. E. Bottom width: The bottom width shall be designed to satisfy the hydraulic capacity of the cross-section recognizing the limitations on velocity, depth and Froude number. F. Slope of channel: Grass-lined channel slopes are dictated by velocity and Froude number requirements. Grass-lined channels normally shall have slopes of 0.2% to 0.6%. Where the natural topography is steeper than desirable, drops may be utilized. G. Curvature: The centerline curvature shall have a radius of not less than twice the design flow top width, but not less than one hundred (100) feet. H. Trickle channels: Concrete trickle channels to carry low flows shall be required for all new urban grassed channels. The capacity of a trickle channel shall be approximately two percent of the major design flow. The shape of concrete trickle channels shall be parabolic. Where two percent of the major design flow exceeds ninety (90) cfs, a low flow channel shall be required. Low flow channels shall be in accordance with the UDFCD Manual (Volume All concrete trickle channels shall have a minimum slope of one percent. I. Design velocity: The maximum velocity for the major storm design runoff shall not exceed seven feet per second for grass-lined channels, except in sandy soil where the maximum velocity shall not exceed five feet per second. The Froude number (turbulence factor) shall be less than 0.8 for grass-lined channels. Grass-lined channels having a Froude number greater than 0.8 shall not be permitted. Minimum velocities for all channels shall not be less than two feet per second for the minor storm runoff. J. Erosion: All channels shall be designed with the proper and adequate erosion control features. K. Grass lining: The grass lining for channels shall be in accordance with the UDFCD Manual (Volume L. Water surface profile: A water surface profile for the major storm runoff shall be computed for all channels and clearly shown on the construction plans submitted for approval. Computations of the water surface profile shall utilize standard backwater methods such as HEC-2, and shall take into consideration all losses due to velocity changes, drops, bridge and culvert openings, and other obstructions. A Computations Report shall be submitted along with the ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-163 construction plans. The energy gradient line shall be shown on the construction plans. M. Roughness coefficient The value of the roughness coefficient to be used in Manning's Formula shall not be less than those listed below: MINIMUM VALUES OF ROUGHNESS COEFFICIENT Type of Channel and Description Closed Conduits: Minimum Concrete Pipe: Culverts with bends, connections & debris 0.013 Storm sewer 0.013 Subdrain with open joints 0.016 PVC Pipe 0.011 Concrete Surfaces (bottom & sides): Smooth finish 0.015 Unfinished 0.017 Concrete Bottom (with sides of): Mortared stone 0.020 Dry rubble or riprap 0.030 Gravel Bottom (with sides of): Formed concrete 0.020 Dry rubble or riprap 0.040 Excavated or Dredged Channels and Ditches: Earthen, Straight & Uniform, no brush or debris: Grassed, less than 6" high with: Depth of flow < 2.0 feet 0.035 Depth of flow > 2.0 feet 0.030 Grassed, approx. 12" high with: Depth of flow < 2.0 feet 0.060 Depth of flow > 2.0 feet 0.035 Grassed, approx. 24" high with: Depth of flow < 2.0 feet 0.070 Depth of flow > 2.0 feet 0.035 Earth bottom with riprap on sides 0.040 Rock or Shale Cuts: Smooth and uniform 0.035 Jagged and irregular 0.040 Curb and Gutter (concrete) 0.016 613.02 Storm Sewers and Storm Inlets Except as subsequently modified, the design of storm sewers and inlets shall conform to the criteria set forth in the UDFCD Manual. Storm sewers and inlets shall be of sufficient capacity ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-164 to adequately carry the expected runoff from the initial design storm. Computer programs such as UDFCD’s UDSewer and UDInlet are encouraged in the design of the storm sewer system. THE STORM DRAINAGE SYSTEM DESIGN FORM IN THE BACK OF SECTION 600 OF THESE STANDARDS AND SPECIFICATIONS SHALL BE USED IN THE DESIGN OF STORM SEWERS AND INLETS. The completed form shall be included in the drainage report. The storm sewer system shall be installed at all locations where the allowable street capacity is exceeded or wherever ponding of water is likely to occur. The invert elevation of storm sewer outfalls into channels shall be at least one foot above the channel invert. The minimum allowable pipe size for storm sewer systems shall be as follows: MINIMUM ALLOWABLE PIPE SIZE Type of Conduit Min. Inside Pipe Dia. Main Trunk Sewer 21" Individual Laterals 18" Pipe diameters of less than eighteen (18) inches may be allowed; however, a variance request shall be submitted to the City Engineer in writing, and approval shall be obtained from the City Engineer prior to final design. Arch pipes may be allowed where design conditions dictate, provided that the minimum cross- sectional areas are not less than those specified above. All storm sewer conduits shall have sufficient structural strength to withstand an H-20 design load. Manholes shall be a minimum of sixty (60) inches for lines eighteen (18) inches to twenty-one (21) inches diameter, and seventy-two (72) inches for lines twenty-four (24) inches to thirty (30) inches diameter. For storm pipe larger than thirty (30) inches diameter, the City Engineer shall approve the manhole design size. Where two or more pipes enter a manhole, the City Engineer shall approve the manhole design size. The maximum allowable distance between manholes or other suitable appurtenances for cleanouts shall not exceed those listed below: ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-165 MAXIMUM ALLOWABLE MANHOLE SPACING Inside Diameter Maximum Allowable Distance Between Manholes and Cleanouts 18" - 36" 400 feet 36" - 60" 500 feet 60" & Larger 750 feet The velocity for the minor flows in conduits shall not be less than two feet per second. Storm inlets shall be utilized at all points where ponding or sump conditions exist. Inlets shall be curb opening inlets, type or grated inlets with curb openings. All inlets shall be similar and equal to those in the Detail Drawings or as approved by the City Engineer. Grated inlets shall be recommended for bicycle traffic. Grated Inlets shall be Neenah Foundry model number R-3157A or R-3233 or an approved equivalent. All storm sewer inlets shall be labeled as required by Broomfield’s Stormwater Coordinator, who may be contacted at [PHONE REDACTED]. The theoretical capacity and spacing of storm inlets shall be analyzed using the criteria— including reduction factors—set forth in the UDFCD Manual. The size of outlet pipes from stormwater inlets shall be based on the theoretical capacity of the inlet. All pipe outlets shall be protected in accordance with the Detail Drawings. 613.03 Culverts Culvert capacities shall be at least equal to the capacities of culverts designed in accordance with the procedures outlined in Federal Highway Administration Hydraulic Design Series Number 5, “Hydraulic Design of Highway Culverts”. The City Engineer shall approve the shape, location and type of construction of culverts. Culverts shall be sized to have sufficient capacity to pass all of the runoff from the major storm if twenty (20) percent of the pipe is plugged. The following design criteria shall be utilized for all culvert design: A. The culvert, including inlet and outlet structures, shall properly convey water and debris at all stages of flow. B. Culvert inlets shall be designed to minimize entrance and friction losses. Inlets shall be provided with either flared end sections or head walls with wing walls. Projecting ends are not acceptable. Large structures shall be designed to resist hydrostatic uplift forces. C. Culvert outlets shall be designed to avoid sedimentation, undermining of culvert, or erosion of channels. Outlets shall be provided with either flared ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-166 end sections or headwalls, with wingwalls and riprap. Projecting ends are not acceptable. Additional outlet control, in the form of riprap, channel shaping, etc., may be required. D. Culvert slopes shall be selected to eliminate excessive velocities and scour. Generally, the minimum slope of culverts shall be limited to one-half percent. E. Headwater ponding above culvert inlets shall not be acceptable if such ponding appears likely to cause property or roadway damage, culvert clogging, saturation of fills, detrimental upstream deposits of debris, or inundation of existing or future utilities and structures. F. Tailwater height at the outlet shall be subject to approval by the City Engineer. G. Culverts shall be analyzed to determine whether discharge is controlled by inlet or outlet conditions for both the minor storm discharge and the major storm discharge. Computations for selected culvert sizes shall be submitted to the City Engineer for approval. Computer programs such as the FHWA HY8 may be used to design culverts. H. Minimum Allowable Size: The required size of a culvert shall be based on adequate hydraulic design analysis. 1. Circular culverts under roadways shall have a minimum diameter of thirty- six (36) inches. 2. Oval culvert dimensions shall be forty-three (42) inches by twenty-seven (27) inches or larger. 3. Box culverts shall have a minimum height of six feet. Smaller culvert sizes may be approved by the City Engineer. I. An overflow path shall be provided in case the culvert becomes plugged. J. Where physical conditions dictate, multiple culvert installations may be approved by the City Engineer. K. The structural design of culverts shall conform to the methods and criteria recommended by the manufacturer of a specific type of culvert for the specified embankment conditions. 613.04 Street Flow Capacities Except as modified herein, the criteria set forth in the UDFCD Manual shall be used to analyze and to determine the adequacy of streets as a function of the drainage system. Both the minor storm runoff and major storm runoff shall be considered, and calculations showing such runoff at critical sections shall be submitted. The following criteria shall apply in the determination of allowable street flow capacities: A. Street, curb and gutter, sidewalks, crosspans and curb cuts shall conform to all applicable Sections of these STANDARDS AND SPECIFICATIONS. B. Street encroachment for the minor design storm shall not exceed the limitations set forth below: ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-167 ALLOWABLE STREET ENCROACHMENT AND DEPTH OF FLOW FOR MINOR STORM RUNOFF Street Classification Maximum Encroachment Local No curb overtopping. Flow may spread to crown of street. Connector No curb overtopping. Flow spread shall leave the equivalent of one 10 foot driving lane clear of water. Arterials No curb overtopping. Flow spread shall leave the equivalent of two 10 foot driving lanes clear of water – one lane in each direction. No more than two lanes in each direction shall be flooded. Where no curb exists, street encroachment shall not extend past the public R.O.W. A storm sewer system shall be installed at all points where the maximum allowable street encroachment occurs. C. The allowable depth of flow and inundated area for the major design storm shall not exceed the following limitations: ALLOWABLE DEPTH OF FLOW AND INUNDATED AREA FOR MAJOR STORM RUNOFF Street Classification Allowable Depth and Inundated Areas Local & Connector Lowest entry to residential dwellings and public, commercial, and industrial buildings shall not be less than twelve (12) inches above the 100-year water surface elevation. The depth of water over the gutter flowline shall not exceed twelve (12) inches. Arterial Lowest entry to residential dwellings and public, commercial, and industrial buildings shall be not less than twelve (12) inches above the 100-year water surface elevation. The depth of water at the street crown shall not exceed six inches to allow operation of emergency vehicles. Depth of water over gutter flow line shall not exceed twelve (12) inches. D. Cross-street flow occurs when runoff flowing in a gutter flows across the street to the opposite gutter or inlet. Allowable cross-street flow is summarized in the following table: ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-168 ALLOWABLE CROSS-STREET FLOW Street Classification Initial Storm Flow Major Storm Flow Local Six inches depth in crosspan Twelve (12) inches of depth above gutter flow line Connector Six inches of depth in crosspan Twelve (12) inches of depth above gutter flow line Arterial None No cross-street flow. Maximum depth of upstream gutter of twelve (12) inches. 620.00 GENERAL PROVISIONS 621.00 General All storm drainage construction in the Broomfield R.O.W. shall comply with these STANDARDS AND SPECIFICATIONS. These standards shall include new storm drainage construction and repairs and maintenance of existing facilities within Broomfield. 622.00 Approved Plans All storm drainage construction shall be in accordance with engineered construction plans prepared under the direction of a Colorado Registered Professional Engineer. Storm drainage plans shall include an Area Grading Plan and an Erosion Control plan as defined in Section 161.09 Area Grading Plan Details and Section 161.10 Erosion Control Plan Details of these STANDARDS AND SPECIFICATIONS. Where work is to be performed over, under or in an irrigation ditch, written approval of the ditch owner is required prior to written approval by the City Engineer. 623.00 Permits Required A PPIP or Grading Permit issued by Broomfield shall be required and shall not be issued until the City Engineer has approved the storm sewer plans. A NPDES permit shall be obtained for any disturbance of one acre or more. Refer to Section 150.00 PERMITS AND INSPECTIONS of these STANDARDS AND SPECIFICATIONS for additional requirements. 624.00 Traffic Control Traffic control shall comply with Section 141.12 Traffic Control, Barricades and Warning Signs of these STANDARDS AND SPECIFICATIONS. ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-169 630.00 EROSION CONTROL 631.00 General Erosion and sedimentation are natural processes, the intensity of which is increased by land disturbing activities that reduce or destroy the aesthetic and practical values of neighboring properties, streams and lakes. The purpose of these erosion control criteria is to reduce intensified erosion—caused by either wind or water—to an acceptable level without placing undue burdens on the landowner, builder or community. 632.00 Requirements Erosion control measures shall be designed in conformance with the UDFCD Manual (Volume All land-disturbing activities within Broomfield shall comply with the Colorado Department of Public Health and Environment Regulations and stormwater regulation in Broomfield Municipal Code Chapter 13-40. 633.00 Submittal A discussion that summarizes erosion control methods shall be submitted as part of the preliminary and final drainage reports, as required in Section 162.00 Engineering Reports of these STANDARDS AND SPECIFICATIONS. A detailed erosion control plan shall accompany the Area Grading Plan and approved Drainage Plan, as required in Section 161.10 Erosion Control Plan Details of these STANDARDS AND SPECIFICATIONS. The erosion control plan shall be approved by Broomfield prior to receiving a PPIP or Grading Permit. 634.00 Erosion Control Measures A CONSTRUCTION STORMWATER DISCHARGE PERMIT (NPDES PERMIT) SHALL BE OBTAINED FROM THE COLORADO DEPARTMENT OF HEALTH AND ENVIRONMENT FOR SITE DISTURBANCE LARGER THAN ONE ACRE. Detailed erosion control measures shall be provided to protect the following: A. Inlets and culverts B. Drainageways C. Streams or other water bodies immediately adjacent to land disturbed by construction activity D. Cut and fill areas E. Properties and improved streets adjacent to construction activity F. Others as required by the City Engineer Temporary erosion control measures such as sediment traps, straw bales or silt fence shall be properly placed in accordance with the Colorado Department of Public Health and Environment approved Stormwater Management Plan (SWMP) (CDPS Permit) prior to any earthmoving on the site. Erosion control measures shall be kept in good repair and fully functional until erosion potential from the site no longer exists. ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-170 Permanent erosion control (sod, seed, mulching, etc.) shall be in place prior to the request for a Certificate of Occupancy or Letter of Final Acceptance. 635.00 Erosion Control Structures Refer to the Detail Drawings for erosion control installation. When applicable, details of additional erosion control measures may be obtained from the UDFCD Manual (Volume 640.00 STORM DRAINAGE CONSTRUCTION 641.00 Site Work and Earthwork 641.01 General Site work and earthwork shall be performed in accordance with Section 300.00 SOILS AND EARTHWORK of these STANDARDS AND SPECIFICATIONS. 641.02 Trenching, Backfilling and Compacting Trenching, backfilling and compacting shall be performed in accordance with Section 350.00 TRENCHING, BACKFILLING AND COMPACTING of these STANDARDS AND SPECIFICATIONS. 642.00 Materials 642.01 Pipe Reinforced Concrete Pipe (RCP) shall be manufactured to comply with ASTM C76. All applicable portions of Section 706 Concrete and Clay Pipe of the CDOT Standard Specifications for Road and Bridge Construction shall apply. Polyvinyl Chloride Pipe (PVC) shall be manufactured to comply with ASTM F794/F949 (ribbed) or ASTM D3034, SDR-35 (smooth). All joints shall be factory prepared compression type (elastomeric gasket joint), providing a watertight seal. Non Reinforced Concrete Pipe (NRCP) shall be manufactured to comply with ASTM C14. NRCP shall be specified under the criteria of Section M-603-2 of the CDOT M&S Standards for all sizes thirty-six (36) inches diameter and smaller. Polymer Coated Steel Pipe (PCSP) shall be manufactured to comply with AASHTO Section 36. All applicable portions of Section 707 Metal Pipe of the CDOT Standard Specifications for Road and Bridge Construction shall apply. The corrugation of the pipe shall be ¾” x ¾” x 7 ½” spiral rib. Polymer coating, grade 250/250, shall be applied prior to corrugating in conformance with AASHTO 26.3.7. Corrugated aluminum pipe (CAP) shall be manufactured to comply with all applicable portions of Section 707 Metal Pipe of the CDOT Standard Specifications for Road and Bridge ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-171 Construction. The pipe sizes shall be as shown on the project plans. The corrugation profile of the pipe shall be ¾” x ¾” x 7 ½” spiral rib. At all locations where corrugated aluminum pipe is proposed to be installed, a corrosion resistance level test shall be performed and a test report detailing any corrosion protection requirements shall be submitted to the City Engineer for approval. Corrugated polyethylene pipe (CPP) or High Density Polyethylene Pipe (HDPEP) shall be manufactured to comply with ASTM D3350, with the minimum cell classification of 315412C. Requirements for test methods, dimensions and markings shall comply with AASHTO Designation M-294. The minimum pipe stiffness shall be 46 psi to comply with ASTM D2412 at five percent deflection. CPP or HDPEP shall not be installed in public R.O.W.. Other storm sewer pipe materials may be approved at the discretion of the City Engineer. Pipe class designation or gauge shall be as shown on the approved plans or as designated by the City Engineer for each individual project. Pipe material shall be selected based on strength and soil conditions. All pipe shall be inspected by the Broomfield Inspector/Representative in order to allow for rejection of pipe that fails to conform to the requirements of these STANDARDS AND SPECIFICATIONS. Defects shall be marked so as not to disfigure the rejected pipe. Rejected pipe shall be removed from the job site within twenty-four (24) hours. 642.02 Pipe Joints All pipe joints shall be watertight. RCP and NRCP joints shall comply with ASTM C443. CPP joints shall comply with ASTM D3212. PCSP and CAP joints shall comply with AASHTO Section 26.4.2.4.f. Cement mortar joints shall be constructed with mortar mixture composed of one part Portland cement to three parts sand and enough water to produce a workable mix. Mortar that has started to set shall be discarded and a new batch prepared. 642.03 Manholes, Inlets and Sidewalk Chases Manhole bases, vaults and inlets may be constructed of cast-in-place or pre-cast concrete. Manhole materials, including access ring and cover sets for all inlet types, shall comply with all applicable portions of Section 532.04 Manholes of these STANDARDS AND SPECIFICATIONS. Inlets, except as modified above, shall be constructed in accordance with the Detail Drawings and all CDOT M&S Standards. SIDEWALK CHASES SHALL NOT BE INSTALLED IN PUBLIC R.O.W. UNLESS APPROVED BY THE CITY ENGINEER. ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-172 642.04 Manhole Base Slabs & Base Beams Refer to Section 532.05 Manhole Base Slabs and Base Beams of these STANDARDS AND SPECIFICATIONS. 642.05 Concrete Concrete shall conform to Section 800.00 CONCRETE MIX DESIGN AND CONSTRUCTION of these STANDARDS AND SPECIFICATIONS. Type II cement shall be used except where sulfate resistant cement is required. Concrete encasement of pipe shall conform to the details shown on the approved plans. 642.06 Cast and Ductile Iron Fittings Refer to Section 532.07 Cast and Ductile Iron Fittings of these STANDARDS AND SPECIFICATIONS. Lids shall be furnished with the words “STORM SEWER” cast on top. 642.07 Bedding Material All applicable portions of Section 353.00 Bedding for Pipelines and Service Lines of these STANDARDS AND SPECIFICATIONS shall apply. 642.08 Riprap and Filter Cloth Riprap and filter cloth shall be installed at locations shown on the approved plans, or in locations designated by the City Engineer. Rock used for riprap shall be hard, durable, angular in shape, and be free from cracks, overburden, shale and organic matter. Neither breadth nor thickness of a single stone shall be less than one-third its length, and rounded stone shall not be approved. The rock shall sustain the abrasion test (Los Angeles machine - ASTM C0535-69) and shall sustain a loss of not more than ten (10) percent after twelve (12) cycles of freezing and thawing (AASHTO test 103 for ledge rock procedure The rock shall have a minimum specific gravity of 2.50. Classification and gradation for riprap are shown below. The riprap designation and total thickness of riprap shall be as specified on the approved plans. The maximum stone size shall not be larger than the thickness of the riprap. ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-173 CLASSIFICATION AND GRADATION OF RIPRAP Riprap Designation % Smaller Than Given Size By Weight Intermediate Rock Dimension (Inches) d(50)* (Inches) Type VL 70-100 12 50-70 9 35-50 6 2-10 2 Type L 70-100 15 50-70 12 35-50 9 2-10 3 Type M 70-100 21 50-70 18 35-50 12 12 2-10 4 Type H 70-100 30 50-70 24 35-50 18 18 2-10 6 Type VH 70-100 42 50-70 33 35-50 24 24 2-10 9 *d (50) = Mean particle size To minimize vandalism, mix Types VL and L riprap with thirty (30) percent (by volume) topsoil and bury it with a minimum of six inches of topsoil, vibration compacted and revegetated. Filter cloth shall be manufactured especially for the stability of erosion control construction and made from polyethylene, polypropylene or polyester yarns in accordance with the following: Filter cloth shall be manufactured especially for the stability of erosion control construction and shall meet the requirements of CDOT Class B drainage geotextile as specified in Section 712 of the CDOT Standards and Specifications for Road and Bridge Construction. Filter material which is to be placed on top of the filter cloth (at specified thickness) prior to placement of the riprap shall meet the bedding requirements in of the UDFCD Manual (Volume When requested by the City Engineer, the Contractor shall furnish copies of test reports from a certified testing laboratory for the following: ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-174 A. Gradation and soundness of riprap B. Gradation of filter material C. Strength and characteristic tests for filter cloth D. Compaction tests of the prepared subgrade 643.00 Installation Refer to Section 533.01 General of these STANDARDS AND SPECIFICATIONS. 643.01 Alignment and Grade Refer to Section 533.02 Alignment and Grade of these STANDARDS AND SPECIFICATIONS. 643.02 Protection of Existing Underground Utilities Refer to Section 533.03 Protection of Existing Underground Utilities of these STANDARDS AND SPECIFICATIONS. 643.03 Wet Trench Refer to Section 352.00 Trench Excavation for Pipelines and Service Lines of these STANDARDS AND SPECIFICATIONS. 643.04 (Left Blank Intentionally) 643.05 Storm Sewer Pipe Installation Refer to Section 533.05 Sewer Pipe Installation of these STANDARDS AND SPECIFICATIONS. 643.06 Connections to Existing Manholes Refer to Section 533.07 Connections to Existing Manholes of these STANDARDS AND SPECIFICATIONS. 643.07 Construction of Manholes, Inlets and Sidewalk Chases Manholes and inlets shall be constructed in accordance with applicable portions of Section 533.08 Construction of Manholes and Clean-outs of these STANDARDS AND SPECIFICATIONS. ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-175 643.08 Construction of Open Channels and Special Structures All work shall conform to details in the approved plans and supplemental specifications. Construction shall comply with Section 533.02 Alignment and Grade of these STANDARDS AND SPECIFICATIONS. When approved, sidewalk chases shall be constructed in accordance with the Detail Drawings. 643.09 Riprap and Filter Cloth Excavation for riprap shall conform to Section 300.00 SOILS AND EARTHWORK of these STANDARDS AND SPECIFICATIONS. Filter cloth shall be placed according to the manufacturer’s specifications. Holes, rips or other damage to the filter cloth shall be repaired at the Contractor’s expense, in accordance with the manufacturer’s recommendations. Stabilization material, as described in Section 340.01 Definitions of these STANDARDS AND SPECIFICATIONS, shall be placed on top of the filter cloth (where filter cloth is used) to the required thickness. The material shall be placed using equipment that shall not rip, tear or otherwise damage the filter cloth. Any damaged areas shall be repaired at the Contractor's expense. The material shall be leveled to a finished surface that is within one inch of the specified thickness. Riprap shall be placed to conform to the details shown on the approved plans. The larger size stones shall be placed first and roughly arranged in close contact. The toe trench and foundation course shall be closed first. The spaces between the larger stones shall then be filled with smaller stone of suitable size, and placed as to leave the surface evenly stepped, conforming to the contour required. The finished surface shall be even and tight and shall not vary from the planned surface grade by more than three inches per foot of depth. The material may be machine placed with sufficient handwork to conform to these STANDARDS AND SPECIFICATIONS. All riprap shall be grouted. The stones shall be laid with care to prevent earth and sand from filling the joints. Joints shall be filled with grout and the surfaces swept with a stiff broom. The work shall be protected and kept moist during hot weather for at least three days after grouting, or coated with a clear membrane curing compound. Grout shall consist of one part cement and three parts aggregate, by volume. The Portland Cement shall be Type II and aggregate shall be two parts sand and one part gravel passing a inch square mesh screen. Grout shall be mixed with enough water to permit gravity flow of grout into the interstices with limited spading and brooming. A six inch by six inch concrete mow strip is required around the edges of riprap structures. When concreting is permitted during cold weather, the temperature of the mix shall not be less than sixty (60) degrees Fahrenheit at the time of placing. Filter cloth, stabilization material, or ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-176 riprap shall not be placed on frozen ground. Concrete grout shall not be placed when there is frost in the subgrade. 643.10 Testing 643.10.01 Pipe – Water Tightness All pipe shall be tested for water tightness in accordance with manufacturer’s requirements. A. Reinforced concrete pipe (RCP) shall be tested in accordance with ASTM C443. B. High density polyethylene pipe (HDPE) shall be tested in accordance with ASTM D3212. C. Polyvinyl chloride pipe (PVC) shall be tested in accordance with ASTM D3212. D. Spiral-ribbed aluminized steel pipe (CMP, ASP) does not require water tight joints. 643.10.02 Pipe – Deflection All flexible pipe shall be tested for deflection in accordance with Section 534.03 Deflection Testing Pipe of these STANDARDS AND SPECIFICATIONS. 643.10.03 Manholes All manholes shall be tested in accordance with Section 534.02 Vacuum Testing Manholes of these STANDARDS AND SPECIFICATIONS. 643.10.04 Infiltration and Exfiltration If deemed necessary by the City Engineer, the storm sewer system shall be tested in accordance with Section 534.04 Infiltration and Exfiltration Testing of these STANDARDS AND SPECIFICATIONS. 644.00 Inspections Refer to Section 154.00 Inspections of these STANDARDS AND SPECIFICATIONS. Adequate inspections assure compliance to Broomfield requirements and are the basis for Broomfield’s recommendation that said improvements be accepted for maintenance and for release of performance guarantees. It is the responsibility of the Contractor to contact the City Engineer a minimum of one full working day (twenty-four [24] hours) in advance of the required inspections. Required inspections shall include: A. Stockpiled Materials – Verify that materials meet STANDARDS AND SPECIFICATIONS and approved submittals, including but not limited to: bedding material, pipe, fittings, valves, valve boxes, and fire hydrants. Verify that ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-177 pipe meets roundness specifications and that bells and spigots are not cracked or chipped. B. Excavation – Verify proper trench depths, shoring, spoil pile location, dewatering, and location and protection of existing utilities. C. Installation – Verify proper bedding depth, alignment and grade, clean pipe and lubricants. Verify “slicing in” of bedding at haunches and that all lifting holes in RCP are plugged. D. Backfill and Compaction – Verify proper methods of backfill and compaction, depths of lifts, moisture control, backfill material free of large rock and organic or frozen material, and proper compaction effort and passing tests. E. Testing – Verify that testing methods comply with these STANDARDS AND SPECIFICATIONS. Verify that Broomfield has witnesses all low pressure air tests, joint testing, vacuum testing of manholes and any other testing requirements. F. Construction Acceptance – Refer to Section 200 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. General items include: 1. All temporary structures, debris, mud and waste materials shall be removed from public property. 2. All relative testing certifications and documentation shall be submitted to Broomfield, including all compaction tests. Copies of originals are acceptable. 3. All storm sewer manholes and inlets are at construction grade, clean, and grouted, ladders straight, inlet protection installed, and storm sewerlines jetted. Verify that storm sewer drainage swales have erosion and sediment control measures installed in accordance with the approved plans. Prior to requesting a Construction Acceptance inspection, the Contractor shall clean storm sewer mains and shall have the lines inspected with TV video equipment. A copy of the videotape and written report shall be submitted to Broomfield for review. Video shall also include an audio description of pipe and manhole deficiencies, and camera location during the inspection. Any sections that contain debris or obstructions shall be cleaned and re-videotaped. Video shall be continuous from manhole to manhole, and all notations shall correspond to the approved construction plans. If, after visual inspection of the storm sewer lines the City Engineer suspects that there is a problem, alignment, infiltration, exfiltration and/or deflection tests may be required at the Contractor’s expense. G. Final Acceptance – Refer to Section 200 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. 1. Verify that all temporary structures, debris, mud, and waste materials are removed from public property. 2. Verify that all storm sewer manholes and inlets are clean. ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-178 650.00 TRENCHING, BACKFILLING AND COMPACTING Refer to Section 350.00 TRENCHING BACKFILLING AND COMPACTING of these STANDARDS AND SPECIFICATIONS. 660.00 RESTORATION AND CLEANUP Refer to Section 370.00 RESTORATION AND CLEANUP of these STANDARDS AND SPECIFICATIONS. 670.00 GRADING AND EXCAVATION Refer to Section 330.00 SITE PREPARATION of these STANDARDS AND SPECIFICATIONS. ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-179 TIME OF CONCENTRATION SUBDIVISION: CALCULATED BY: DATE: t c = t i+ t t SUB-BASIN DATA INITIAL / OVERLAND TIME (t i) TRAVEL TIME (t t) t c CHECK (URBANIZED BASINS) FINAL t c REMARKS DESIGN C 5 AREA Ac LENGTH Ft SLOPE % t i Min LENGTH Ft SLOPE % VEL. FPS t t Min TOTAL LENGTH Ft t c = (L/180) +10 Min Min (10) (11) (12) (13) ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-180 STORM DRAINAGE SYSTEM DESIGN (RATIONAL METHOD PROCEDURE) CALCULATED BY: JOB NO: DATE: PROJECT: CHECKED BY: DESIGN STORM: DIRECT RUNOFF TOTAL RUNOFF STREET PIPE TRAVEL TIME STREET DESIGN POINT AREA DESIGN AREA (AC) RUNOFF COEFF C * A (AC) t c (MIN) I IN/HR Q (CFS) t c (MIN) I (IN/HR) * A) (AC) Q (CFS) SLOPE STREET FLOW (CFS) DESIGN FLOW (CFS) SLOPE PIPE SIZE LENGTH (FT) VELOCITY (FPS) t t (MIN) REMARKS (10) (11) (12) (13) (14) (15) (16) (17) (18) (19) (20) (21) (22) 1 2 3 4 5 6 7 ---PAGE BREAK--- STORM DRAINAGE FACILITIES SECTION 600 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 600-181 SEQUENTIAL DETENTION CALCULATION CALCULATED DATE: FACILITY NUMBER BASIN AREA Ac Q i CFS IMP % K Ft Q i /A CFS/Ac ∑Q CFS Z Ac S m Ac-Ft Q m CFS (10) 10 - YEAR 100 - YEAR Facility Number: Designated number of the detention facility being analyzed. Basin Area: Area of basin (sub-basin) tributary to the detention facility not including any area tributary to an upstream detention facility (3)Qi: Peak inflow in cfs from the area described in Column 2 Imp Percent imperviousness of the area described in Column 2 K: K100 = (1.78I - 0.002I2 - 3.56)/1000; K10 = (0.95I -1.9)/1000 Qi/A: Peak inflow (Qi) in column 3 divided by the area in Column 2 Peak inflow into detention facility computed by summation of the peak inflow in Column 3 and the maximum release rate in Column 10 Z: Equivalent inflow area computed by dividing Column 7 by Column 6 (∑Q/Qi/A) Minimum Sm: Minimum allowed storage volume for the respective detention facility V=KA, where K is from Column 5 and A = Z from Column 8 (10) Maximum Qm: Maximum allowed release rate for the respective detention facility Q10 = 0.24Z, Q100 = 1.00Z, where Z is from Column 8 ---PAGE BREAK--- ORIGINAL SIGNED DRAWINGS ARE ON FILE AT THE CITY & COUNTY OF BROOMFIELD!!! ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-182 SECTION 700 ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING 701.00 GENERAL CONDITIONS 710.00 710.01 Roadway Inspections 186 720.00 ROADWAY 721.00 Street Design 187 721.01 Horizontal Alignment 189 721.02 Vertical 189 721.03 Major 190 721.04 Design Element 190 722.00 Alleys 190 723.00 Emergency 190 724.00 Half 190 725.00 191 726.00 Parking Lots and Private Street Systems 191 727.00 Intersections 191 728.00 Street Lane Design 192 728.01 Acceleration and Deceleration Lanes 192 728.02 Required Turning Lane 192 728.03 Redirect Tapers for Through Lanes 192 728.04 Entering Sight Distance 193 729.00 Structural Sections 193 729.01 Structural Sections for 193 729.02 Structural Sections for Parking 195 729.03 Structural Sections for Reconstruction of Existing Low Volume Roadways.. 195 729.03.01 Site Exploration 195 729.03.02 Pavement Reconstruction Design and 196 729.04 Edge 197 730.00 SIGNAGE AND PAVEMENT 731.00 198 731.01 Street Name 198 731.02 Illuminated Signs 199 ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-183 731.03 Stop Signs 200 731.04 Other 201 731.05 ‘No Parking’ 201 731.06 Sign 201 731.07 Sign Installation 201 732.00 Sign Posts and Support 201 733.00 Pavement Markings 202 733.01 202 733.02 Typical Pavement Markings 202 733.03 Typical Crosswalks and Stop Bars on Connector and Local 202 733.04 Crosswalks and Stop Bars at Signalized Intersections or Mid-Crossings on Major and Minor 203 733.05 Surface 203 733.06 Prior to Placement of Pavement Marking 203 733.07 Placement of Pavement Markings 204 740.00 TRAFFIC 741.00 Control of 204 741.01 Regulations and Code 204 741.02 205 741.03 Traffic Control 206 741.04 Equipment List and Drawings 206 741.05 Coordination with Other Agencies and 206 741.06 Signal Pole and Signal Head 206 742.00 207 742.01 207 742.02 Materials 207 742.03 208 743.00 Cable and 209 743.01 209 743.02 Multiconductor Cable 209 743.03 Wiring Installation 209 743.04 Connections to Signal Heads, Pushbutton Switches and Traffic Controllers.. 210 743.05 Wire Splicing Locations 210 743.06 Wire Bonding and 210 744.00 Electric Service 210 745.00 Concrete Foundations 211 745.01 211 745.02 Poles, Standards and Pedestal Foundations 211 ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-184 746.00 Traffic Signal Controllers 211 746.01 Signal Phasing and Tape Colors 211 746.02 Controller 212 746.03 Cabinet 212 746.04 Signal Cabinet 214 746.05 Signal Cabinet 214 746.06 Cycle 214 746.07 Spread Spectrum Wireless Interconnect System 214 746.08 Uninterruptible Power 215 746.09 Video Detection System 220 747.00 Light Emitting Diode (LED) Lights 223 747.01 Wattage 223 747.02 223 747.03 Circuit 223 747.04 223 747.05 Operating 223 747.06 223 747.07 Candlepower 224 747.08 Beam Spread 224 747.09 Manufacturer’s 224 748.00 Speed Monitor Display (Speed Awareness 224 748.01 224 748.02 224 748.03 Violator 224 748.04 Radar 225 749.00 Traffic Signal Start-Up 225 750.00 STREET 751.00 Street Lighting Procedure 225 DETAIL DRAWINGS – SECTION 700 700-1 Roadway Edge Drain 700-2 Sheridan Parkway 700-3a Major Arterial (4 Lane) 700-3b Major Arterial (6 Lane) 700-4 Minor Arterial – 2 Lane 700-5 Connector Street – 2 Lane 700-6 Local Street 700-7 Rural Road Section 700-8 Sight Distance 700-9 Intersection R.O.W. 700-10 90 Degree Turn – Local Access Streets ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-185 700-11 Cul-de-Sacs 700-12 Drive Cut Location & Spacing 700-13 Street Lights 700-14A Traffic Signal Pre-Acceptance Inspection Checklist 700-14B Traffic Signal Pre-Acceptance Inspection Checklist 700-14C Traffic Signal Pre-Acceptance Inspection Checklist 700-14D Traffic Signal Pre-Acceptance Inspection Checklist ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-186 SECTION 700 ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING 701.00 GENERAL CONDITIONS Refer to Section 100 TITLE, SCOPE AND GENERAL CONDITIONS of these STANDARDS AND SPECIFICATIONS for additional requirements that apply to all projects within Broomfield. 710.00 SCOPE All residential and commercial/industrial developments shall provide a Traffic Analysis Report that complies with Section 162.00 Engineering Reports of these STANDARDS AND SPECIFICATIONS. All requirements of Broomfield’s Subdivision and Zoning Ordinances and other applicable Titles of the Broomfield Municipal Code and Broomfield’s Comprehensive Master Plan shall be met. Roadway design and R.O.W. modifications shall conform to AASHTO: A Policy on Geometric Design of Highways and Streets, these STANDARDS AND SPECIFICATIONS and any other requirements determined by Broomfield. The design and installation of traffic control devices and street lighting shall comply with all applicable portions of the latest edition of the CDOT Standard Specifications for Road and Bridge Construction, the latest edition of the Manual on Uniform Traffic Control Devices (MUTCD), these STANDARDS AND SPECIFICATIONS and any other requirements determined by the City Traffic Engineer. THE TRAFFIC CONTROL DEVICE PLAN AND ASSOCIATED SUBMITTALS SHALL BE APPROVED BY THE CITY TRAFFIC ENGINEER PRIOR TO INSTALLATION OF ANY TRAFFIC CONTROL DEVICES. PRIOR TO INSTALLATION OF TRAFFIC CONTROL DEVICES, ALL UNDERGROUND UTILITIES SHALL BE LOCATED. ALL TRAFFIC CONTROL DEVICES SHALL BE INSTALLED AND MAINTAINED BY THE DEVELOPER OR CONTRACTOR THROUGH THE WARRANTY PERIOD, UNLESS OTHERWISE STATED IN THE SUBDIVISION/IMPROVEMENT AGREEMENT. 710.01 Roadway Inspections Refer to Section 154.00 Inspections and Section 931.00 Roadway Inspections of these STANDARDS AND SPECIFICATIONS for required inspections during roadway construction. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-187 720.00 ROADWAY DESIGN 721.00 Street Design Criteria Street cross sections shall conform to the Broomfield Master Plan. Street cross sections are shown in the Detail Drawings. Local residential cross sections shall be used in areas where the average daily traffic (ADT) is not likely to exceed one thousand (1,000) vehicles per day. Connector and arterial streets shall be constructed along the general alignment shown in the Broomfield Master Plan, and whenever a traffic engineering analysis of the future traffic volumes indicates the need for a connector or arterial cross-section. Additional R.O.W. may be required to satisfy other criteria contained in these STANDARDS AND SPECIFICATIONS. Areas outside the R.O.W. shall be contour graded, compacted, and sloped, as required for proper drainage, soil stability, and maintenance accessibility. Cuts and fills proposed on slopes greater than four horizontal to vertical (4:1) shall require supporting calculations provided by the Project Geotechnical Engineer based on a soils analysis. All roadway medians shall be at least four feet wide from back of curb to back of curb. Concrete splash block in medians shall be Davis Color Sunset Rose (1 lb 160) and shall have a herringbone pattern. Street design criteria for various street classifications are listed below: - This space intentionally left blank ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-188 STREET DESIGN CRITERIA Design Element Sheridan Parkway Major Arterial4 Minor Arterial Connector Local Alley R.O.W. Width1 138’ 138’/162’ 100’ 79’ 54’ 20’ Roadway Width (Pavement Width) 3 56’ 56’/80’ 34’ 32’ 29’ 20’ Total Through Lanes 4 4/6 2 2 2 2 Travel Lanes 12’ 12’ 13’ 10’ Bike Lane Width 4’ 3 4’ 3 4’ 3 Planted Raised Median 16’-26’ (4’min.) 16’-26’ min.) 16’ min.) 4’ min. if applicable 4’ min. if app. Curb & Gutter 6” Vertical with 2’ Gutter Approv ed by SDP Parking Lane N/P N/P N/P 6’ 3 6’ 3 N/P Plant Strip 8’ 8’ 5’ 5’ 4’ Sidewalk Width 8’ 8’ 8’ 8’ or 5’(D)(SDP) 4’ Setback & Utility Easement 8’ 8’ 8’ 8’ Flow Line Curb Radius 35’ max 35’ max 35’ max 20’ max 15’ max 15’ max Typical Posted Speed Limit 45 mph 45 mph 35 mph 25 mph 25 mph 15 mph Cross Slope without Super Elevation Maximum 4% - Minimum 2% Super Elevation Max. 4% 4% 4% Min. Degree 8.5 8.5 10 22 22 Curve 675'R 2 675'R 2 575'R 2 260'R 2 195'R 2 60’R 2 Max. Street Grade 5% 5% 5% 7% 7% 7% Min. Street Grade 1.0% 1.0% 1.0% 1.0% 1.0% 1.0% Max. Grade at Intersection 2% for 300’ 2% for 300’ 3% for 300’ 4% for 150’ 4% for 100’ 4% for 100’ Tangents Between Horizontal and Vertical Curves 400' 400' 300' 150' N/A Deceleration Lane (excluding stored vehicles) 500’ 500’ 370’ 250’ Design Speed 45 mph 45 mph 40 mph 25 mph 25 mph 20 mph D = Detached N/P = Not Permitted 1 Minimum R.O.W. width. Width shall increase with accel, decel and turn lanes. 2 Centerline radius. 3 Width does not include curb and gutter. 4 4 Lane / 6 Lane. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-189 721.01 Horizontal Alignment Streets shall generally be aligned to bear a reasonable relationship to topography. Horizontal curves shall conform to the Street Design Criteria table. Minimum spacing between intersection centerlines shall be as follows: Street Type Spacing Local Residential 150' Connector 400' Minor Arterial 600’ Major Arterial 1000' Where a curve radius of one hundred ninety-five (195) feet for through local residential streets cannot be achieved, a seventy-five (75) foot curve radius with a bulb on the outside of the curve may be allowed. Refer to the Detail Drawings. Curve radii noted in the Street Design Criteria table are permitted only where sufficient sight distance to an intersection is provided. Streets shall intersect or connect to other streets as closely as possible to right angles but shall not deviate more than thirty (30) degrees from a right angle. Horizontal and vertical alignment and R.O.W. limits shall be coordinated so as not to obstruct sight distance at intersections, in accordance with the Detail Drawings. Curb return radii shall be as shown on the Street Design Criteria table. Where two different street types connect, the larger curb return radius shall apply. 721.02 Vertical Alignment Street centerline profile grades shall be as shown on the Street Design Criteria table. Where a street is curved and minimum profile grade is desired, the centerline grade shall be adjusted so that the curbline grade on the outside of the radius shall be no less than the minimum street grade specified on the Street Design Criteria table. Safe stopping sight distances are illustrated in the Detail Drawings. Centerline profile grades shall not exceed four percent for a distance of at least one hundred (100) feet to either side of an intersecting centerline. Gutter flowline grades shall be no less than one (1.0) percent along curb returns, in cul-de-sacs and bulb areas, and other areas where gutter flowline grades do not directly parallel centerline profile grades. The minimum K values for crest and sag vertical curves shall be in accordance with the following table: ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-190 MINIMUM VALUE FOR CREST AND SAG VERTICAL CURVES Design Speed (MPH) Minimum K Value Crest Minimum K Value Sag 30 30 40 35 50 50 40 80 70 45 120 90 50 160 110 721.03 Major Structures Major structures, such as retaining walls, box culverts and bridges, that are appurtenant to proposed street and/or parking lot construction, shall conform to the structural design and loading requirements of the CDOT Standard Specifications for Road and Bridge Construction and the geometric and drainage requirements of these STANDARDS AND SPECIFICATIONS. Plans and supporting calculations for major structures shall be prepared by a structural engineer who is a Colorado Registered Professional Engineer. Guardrails shall be designed to comply with the CDOT Standard Specifications for Road and Bridge Construction. 721.04 Design Element Coordination Horizontal and vertical alignment continuity shall be provided between new and existing streets to achieve safe and aesthetically pleasing transitions. Construction shall be staged to eliminate grade and alignment conflicts and unnecessary damage to existing or newly constructed facilities. Street design and proposed construction shall be coordinated with drainage and utility facilities. 722.00 Alleys All alleys, when permitted by the City Engineer, shall be paved to a full width and shall provide paved access to a paved street at both ends. Minimum R.O.W. and roadway widths are given in the Street Design Criteria table. 723.00 Emergency Access Emergency access roads shall have a minimum of R.O.W. width of twenty-two (22) feet and a minimum roadway width of twenty (20) feet. 724.00 Half Streets Where half streets are allowed, sufficient additional R.O.W. shall be dedicated and additional width shall be constructed to allow sufficient paved width to accommodate two directions of traffic and emergency parking. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-191 725.00 Cul-de-sacs Cul-de-sacs shall be in accordance with the Detail Drawings. of cul-de-sacs are recommended to be between one hundred forty (140) feet and six hundred (600) feet. Proposed cul-de-sac that are not in this range shall be fully justified and based on the following considerations: A. Intersection vehicular traffic capacity B. Emergency vehicle response time C. Pedestrian trip time to bus routes D. Reduction of double travel distances for service and patrol vehicles E. Utility systems, drainage, and open space access F. Other requirements by Broomfield Surface drainage shall be directed toward the intersecting street, or if this is not reasonably practical, a drainage structure and easement shall be provided at the end of the cul-de-sac. Specially designed temporary cul-de-sacs may be allowed when approved by the City Engineer. 726.00 Parking Lots and Private Street Systems Parking lots shall conform to Broomfield Municipal Code Section 17-32-070 and shall be constructed with one percent minimum and four percent maximum cross-slopes throughout. Private street systems and parking lots that are owned and maintained by a Homeowners Association (HOA) or other property management group shall be designed and constructed in accordance with these STANDARDS AND SPECIFICATIONS. Compliance to these STANDARDS AND SPECIFICATIONS shall be certified by a qualified third party approved by Broomfield. Construction shall not commence until the construction plans are approved by Broomfield. All private street systems and parking lots shall have curb and gutter in accordance with these STANDARDS AND SPECIFICATIONS, unless otherwise approved by the City Engineer. 727.00 Intersections Intersections shall be designed to provide for the safety of motorists, pedestrians, and bicyclists. At street intersections, property lines shall provide adequate R.O.W. for curb ramps and utilities. Refer to the Detail Drawings. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-192 728.00 Street Lane Design Criteria 728.01 Acceleration and Deceleration Lanes Posted Speed Limit in MPH 25 30 35 40 45 50 55 60 65 70 Deceleration Length in Feet* 180 250 310 370 435 500 600 700 800 900 Acceleration Length in Feet N/A N/A 270 380 550 [PHONE REDACTED] 1380 1590 Transition Taper Ratio 7.5:1 8:1 10:1 12:1 13.5:1 15:1 18.5:1 25:1 25:1 25:1 * Includes Transition Taper Ratio (storage) 728.02 Required Turning Lane Length Turning Vehicles Per Peak Hour Below 30 30 60 100 200 300 Required Lane Length in Feet 25 40 50 100 200 300 728.03 Redirect Tapers for Through Lanes Posted speed in MPH 30 or less 35 40 45 50 55 60 65 70 Straight Taper Ratio 15:1 20:1 30:1 45:1 50:1 55:1 60:1 65:1 70:1 - This space intentionally left blank - ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-193 728.04 Entering Sight Distance Posted Speed of Roadway (MPH) Vehicle expected to enter or cross highway 25 30 35 40 45 50 55 60 65 70 Two Lane Roadway (ft) Passenger Cars, Pickup Trucks 250 300 350 400 450 500 550 600 650 700 Single Unit Trucks Over 10,000 lb. GVW 325 390 455 520 585 650 715 780 845 910 Multi-Unit Trucks 425 510 595 680 765 [PHONE REDACTED] 1105 1190 Four Lane Roadway (ft) Passenger Cars, Pickup Trucks 300 360 420 480 540 600 660 720 780 840 Single Unit Trucks Over 10,000 lb. GVW 375 450 525 600 675 750 825 [PHONE REDACTED] Multi-Unit Trucks 500 600 700 [PHONE REDACTED] 1100 1200 1300 1400 Six Lane Roadway (ft) Passenger Cars, Pickup Trucks 325 390 455 520 585 650 715 780 845 910 Single Unit Trucks Over 10,000 lb. GVW 425 510 595 680 765 [PHONE REDACTED] 1105 1190 Multi-Unit Trucks 525 630 735 [PHONE REDACTED] 1155 1260 1365 1470 729.00 Structural Sections 729.01 Structural Sections for Streets Structural sections for streets shall be designed by a Soils Engineer based on the Equivalent (18 Kip) Daily Load Applications (EDLA) for a 20 year service life. The soils analysis shall be performed in accordance with AASHTO standard methods of surveying and sampling soils. The field investigation shall consist of boring subgrade soils to a depth of at least five feet below proposed subgrade elevation. Every fourth boring shall be to a depth of ten feet. Boring spacing shall be a maximum of two hundred and fifty (250) feet and a minimum of one boring for each section of street. Borings for arterial roadway design shall be to a depth of at least ten (10) feet below proposed subgrade. SOIL SAMPLES FOR DESIGN OF STRUCTURAL SECTION FOR STREETS SHALL BE OBTAINED AFTER GRADING OPERATIONS ARE COMPLETE AND SUBGRADE IS ROUGH CUT. The Hveem Stabilometer or Resilient Modulus design method shall be used for arterial streets, and the Hveem Stabilometer, Resilient Modulus or the California Bearing Ratio (CBR) design method shall be used for all other streets. The structural section may consist of a granular base with an asphaltic concrete wearing surface, full-depth asphalt, or stabilized subgrade with an asphaltic concrete wearing surface. The ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-194 structural section shall be a twenty (20) year design section with a cross-slope of two percent from flow line to centerline as shown in the Detail Drawings. The structural section extends to the back of attached sidewalk or to the back of curb if the sidewalk is detached. THE CITY ENGINEER MAY SPECIFY WHICH TYPE OF STRUCTURAL SECTION IS REQUIRED. The following standards shall be used in the design of pavement sections for public and private roadways in Broomfield. These minimum pavement thicknesses may be used for preliminary planning purposes only. Final pavement designs shall be based on actual subgrade support test results. Structural credit for lime stabilized subgrade may be allowed at the discretion of the City Engineer if field verification and testing documents are provided. The City Engineer may require additional subgrade testing to confirm whether the pavement design thickness is satisfactory. STREET DESIGN CRITERIA The following structural strength coefficients should be the maximum used for pavement design: 0.40 CDOT Class 6 Base 0.12 Other Base Material with R value 0.12 At the discretion of the City Engineer, a maximum coefficient of up to 0.12 may be used for stabilized subgrade. Portland cement concrete pavement designs may be allowed with City Engineer approval. Street Classification Reliability Serviceability, Initial Serviceability, Terminal EDLA Minimum Composite Section Minimum Full Depth Section Base Asphalt Asphalt Local Residential < 50 D.U. 80 4.5 2.0 8 9” 4” 6.5” > 50 D.U. 85 4.5 2.0 10 9” 4” 7” Connector Residential Zoning 85 4.5 2.5 30 10” 5” 8” Com./Indust. Zoning 90 4.5 2.5 100 12” 5.5” 9” Minor Arterial 95 4.5 2.5 200 15” 7” 11.5” Major Arterial 95 4.5 2.8 200 15” 7.5” 12.0” ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-195 729.02 Structural Sections for Parking Lots Structural sections for parking lots shall be designed by a Soils Engineer based on a soils analysis in accordance with AASHTO T-86 standard methods of surveying and sampling soils. The Hveem Stabilometer, Resilient Modulus or the California Bearing Ratio (CBR) design method shall be used for parking lots. The structural section may consist of a granular base with an asphaltic concrete wearing surface, a full-depth asphalt section, or stabilized subgrade with an asphaltic concrete wearing surface. Based on the structural sections and the typical daily traffic volumes (shown in the Street Design Criteria table), the City Engineer shall determine into which category a parking lot is placed and consequently which of these STANDARDS AND SPECIFICATIONS shall apply. 729.03 Structural Sections for Reconstruction of Existing Low Volume Roadways Periodically, it is necessary to completely reconstruct existing roadways. It is Broomfield’s desire to accomplish reconstruction in a manner that results in a roadway surface that satisfies a 20-year pavement life in a cost effective manner with minimal inconvenience to surrounding residences, businesses or other potential users. Such reconstruction programs shall have minimal impact to existing facilities, utilities, subgrades, or otherwise usable structures/improvements. Additionally, all design and construction techniques and procedures shall be performed in a manner that balances overall cost with impact and inconvenience to Broomfield residents. The following are guidelines that shall be considered in the design. Consultants, designers, and Contractors shall also consider other feasible options to achieve practical roadway reconstruction that is acceptable to Broomfield and the affected public. The geotechnical report shall address the following items: A. Why the roadway is to be reconstructed B. Why failure is taking place and what type(s) of failure: 1. Drainage 2. Saturated sub-grade 3. Heaving 4. Oxidation C. Age of roadway and number of overlays placed D. Existing subsurface problems E. Drainage issues 729.03.01 Site Exploration The City Engineer shall identify the limits of proposed reconstruction for the roadway surfaces, concrete curbs and gutters, crosspans, etc. The Project Geotechnical Engineer shall perform site exploration(s) as follows: A. Borings shall be conducted at a frequency of at least one per five-hundred (500) linear feet of roadway per lane or as necessary to achieve proper design ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-196 recommendations or a minimum of two per street segment or where obvious surface problems/failures features exist. B. Borings shall extend to a minimum of five feet below existing grade or to a depth of the proposed utility, unless utility conflicts are prohibitive. Every fourth boring shall be advanced to a minimum of ten (10) feet below the existing grade. C. Sufficient sampling, including relatively undisturbed sampling, shall be performed at depths just below the surface to two feet below the surface to address the stability of the existing subgrade soils. A minimum of one undisturbed sample per soil type per roadway shall be obtained within this shallow zone. D. Additional samples shall be obtained to evaluate the characteristics of the subsurface soils with respect to soil classification, in-situ moisture content, swell / settlement potential, subgrade support, and stability within the five foot layer under the pavement. E. Observations shall be made of the existing grades, drainages, landscaping, nearby water features, and other factors that may influence moisture infiltration into the pavement subgrade. 729.03.02 Pavement Reconstruction Design and Reports The pavement design shall be based on information obtained from subsurface soil characteristics and site observations during the site exploration program and from expected traffic loading. The pavement design shall also consider the impact to the public, as well as relative cost of reconstruction. The following guidelines shall be adhered to in the design of pavement section(s) and subgrade preparation: A. The default subgrade preparation for reconstructed Low Volume Pavements (EDLA < 40) shall consist of either removing the existing asphalt surface and paving the designed pavement layer over the existing subgrade OR recycling the existing asphalt surface into the underlying subgrade to a depth of at least twelve (12) inches using an in-place recycling machine, blading to the design grades, compacting to the recommended density (as determined by either AASHTO T99 or T180, depending upon subgrade classification) and paving. The Pavement Design Report shall address the feasibility of utilizing one of the above procedures for the subgrade preparation. B. For subgrades with near-optimum moisture likely to exhibit minor stability problems, the asphalt shall be rotomilled into the underlying subgrade to a depth of at least twelve (12) inches, bladed to the design elevation and stabilized with twelve (12) percent Type C Fly-Ash to a depth of at least twelve (12) inches. A maximum structural coefficient of 0.10 may be used for this twelve (12) inch layer. This shall be reduced to as low as 0.06 for subgrades with clay content exceeding fifty (50) percent, based upon the Project Geotechnical Engineer’s recommendation. C. If it is determined that the subgrade preparations detailed within this section may result in a poor paving platform or pose a long-term concern with respect to heave ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-197 or settlement, then alternative recommendations shall be provided by the Project Geotechnical Engineer and approved by the City Engineer. Such alternates shall consider cost, time, and performance and may include limited over-excavation, moisture treatment, chemical and/or aggregate stabilization, edge drains, and/or increased pavement thickness. D. The traffic loadings (EDLA), serviceability indices, and reliability factors outlined in the table in Section 729.01 Structural Sections for Streets of these STANDARDS AND SPECIFICATIONS shall be used for the design calculations of the pavement section(s). The City Traffic Engineer shall determine which EDLA is appropriate for a particular roadway segment. E. The structural coefficients shown in Section 729.01 Structural Sections for Streets of these STANDARDS AND SPECIFICATIONS shall be used for asphalt, stabilized subgrade (at the discretion of the City Engineer), and base course material. The structural coefficient for the Fly-Ash/Subgrade/Asphalt blend shall not exceed 0.10 (see above). 729.04 Edge Drains Edge drains shall be required along public roadways at the discretion of the City Engineer. Edge drains shall be located in order to intercept water infiltration from landscaping and storm runoff. Edge drains shall be installed in the following locations: A. Along landscaped medians; B. Where final roadway pavement slope is less than one and one-half (1.5) percent; C. Along the “uphill” roadway edge where the roadway is located on a cut slope and the roadway pavement slope is less than two percent; D. Along both roadway edges where the roadway is located at the bottom of a “valley”, with the toe of slopes on both sides of the roadway; E. Along roadways that may have poor drainage due to unusual circumstances Edge drains are not required in areas where final grade slopes away from a paved surface at a minimum slope of two percent. All edge drains should be placed behind the curb and at a depth specified on the approved plans, and backfilled with free draining three-quarters inch washed gravel protected by geotextile fabric. Refer to the Detail Drawings. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-198 730.00 SIGNAGE AND PAVEMENT MARKINGS 731.00 Signs 731.01 Street Name Signs Street name signs shall be furnished and installed by the Contractor or Developer and may be inspected by Broomfield before and after installation. Street name signs shall have white letters on a blue background, and shall comply with the following: A. All signs shall be constructed with 0.080 aluminum blanks. They shall have inch holes punched in the center two inches from the bottom and top edges, blue high intensity, retro-reflective sheeting, high intensity retro- reflective letters or numbers. B. The street name blank shall be nine inches in height, with six inch Series C upper case letters or numbers and three inch FHWA Series C upper case prefix or suffix. C. There shall be an eight inch space to the left of the street name to provide for the placement of the six inch City and County of Broomfield logo. The logo shall be placed in the left face side of the sign and centered accordingly. D. The length of the sign shall vary due to the length of the street name. FHWA Series B letters may be permitted to maintain the length of the street name sign. E. Signs shall have a one-half inch white high intensity, retro-reflective border with a inch blue high intensity, retro-reflective grade border on the outside edge. F. Signs shall have a three-quarters inch “BROOMFIELD” in white high intensity, retro-reflective FHWA Series D letters centered at the bottom of the sign, inch above the bottom edge of the sign with a inch gap between the end of the inch letters and the ends of the border. G. Silk-screened signs are acceptable if they are manufactured with high intensity, retro-reflective sheeting and 3M “Scotchlite” Brand Process Colors transparent inks or equivalent. Signs fabricated with high intensity sheeting with translucent 3M “EC” film or equivalent are also allowed. H. At every cross intersection, two street name signs shall be provided for each named street. At every tee intersection, one street name sign shall be provided for each named street. I. Signs manufactured with sheeting and letters placed back to back on the same sign blank are not permitted. Prior to installing custom signs and/or posts in a development, the Developer or Contractor shall obtain a signed maintenance agreement with the Director of Public Works, and approved copies shall be sent to the Public Works Field Operations Superintendent. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-199 731.02 Illuminated Signs Signalized intersections shall have eight foot internally illuminated street name signs which shall be furnished and installed by the Contractor or Developer and shall be inspected by Broomfield. Signs shall be supplied by a manufacturing company approved by the City Traffic Engineer. Signs shall be provided for installation on each traffic signal mast arm at each intersection. All sign lettering shall be uppercase. Sign lettering shall be ten (10) inches in height, FHWA Series C letters. The use of FHWA Series B letters may be allowed when space requirements are limited. Suffixes shall be five inches in height. Lettering shall be at least four inches in height where a two-line application is desired or three inches in height where a three-line application is desired. A. Borders. The signs shall have a one inch white border with a three-quarter inch blue border on the outside edge. The signs shall have a one and one-half (1½) inch “BROOMFIELD” in white FHWA Series D letters placed centered at the bottom of the sign, one-half inch above the bottom edge of the sign, and a one inch gap between the letters and the ends of the border. B. Spacing. The spacing to the top and bottom borders should be equal. The lateral spacing to the vertical borders should also be equal. Spacing used in words, words and arrow, a letter and arrow, or a word and numeral in a line copy should be approximately one to one and one-half (1½) times the uppercase letter height used in that line of copy. Excessively long street names may be allowed to have modified kern or letter widths, but shall maintain the ten (10) inch required letter height. C. Arrows. Arrows shall comply with the MUTCD Standard Highway Sign Handbook. A twelve (12) inch Broomfield logo shall be placed on the left face side of the sign and centered accordingly. D. Color. Logo, letters, numbers, and borders shall be white with a blue background face. The sign panel shall consist of placing White 3M “3990t” translucent, high intensity, retro-reflective sheeting under Blue 3M “1175c” EC Film. The colors shall not fade when exposed to an accelerated test of ultraviolet light equivalent to five years of outdoor exposure. E. Mechanical Specifications. The outer dimensions of the sign assembly shall be standard nominal heights of 22, or 24, inches, and standard nominal width of 8 feet. The maximum thickness of the sign shall be 1.60 inches. The maximum weight shall not exceed 75 lbs. The long edges of the sign shall be made from a single section of 6000 series aluminum extrusion. The ends caps shall be affixed to the frame with stainless steel screws. The power supply shall be mounted internally in one of the end caps. The non-electrical end cap shall be removable to enable replacing panels and components. The sign shall have a front panel that is UV, weather, abrasion and impact resistant. The front panel shall be replaceable so that maintaining agencies have the option to supply their own sheeting and electrocut film for the sign faces. F. Mounting System. Signs must be supplied with underhang mounting brackets on two positions on the top of the sign. Mounting bracket shall pivot to allow the ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-200 sign to swing freely. Bracket shall have a bolt hole pattern to accept Pelco SE- 5015, SE-5146, or equivalent. G. Environmental Specifications. The sign shall be designed and constructed to withstand 178 Km/h (110 mph) wind loads in conformance with the requirements of the AASHTO publication, "Standard Specifications for Structural Supports of Highway Signs, Luminaries and Traffic Signals", 4th Edition 2001. The sign and power supply should be able to withstand and operate at temperature extremes of -22 deg F to +140 deg F. Signs shall be tested and certified for the following environmental conditions: Exclusion of Water Test, Strain Relief Test, Temperature Test and Dielectric Voltage-Withstand Test A representative sample of the product shall be tested in accordance with the Standards for Electric Signs (UL 48). H. Luminance. The entire surface of the sign panel must be evenly illuminated with a minimum average brightness reading at the letters of 300 lux and a variation of no more than 40% for any reading from the average (minimum of 10 readings). Each background reading measured must not vary by more than 40% (minimum of 10 readings) from the average of the background brightness readings. The light transmission factor of the sign panel must provide a letter to background ratio of a minimum of 4:1. I. Light Source. The light source for the sign shall be LEDs (light emitting diodes). LEDs shall be mounted along both the top and bottom edges of the sign. The LEDs shall evenly illuminate a light panel that is the same dimensions of the sign face. The LEDs shall have a minimum projected life of 50,000 hours. A maximum of four LEDs per square foot shall be used. J. Energy Requirements. The overall power required shall not exceed 4 Watts per square foot. K. Energy Star Partner. The sign shall be an Energy Star Qualified Product. L. Quality Assurance. Manufacturer must be ISO 9001:2000 certified. M. Electrical Standards. Sign shall be listed and approved to UL 48 Standards. The outside of the sign shall be marked with the authorized listing agency mark. N. Product Guarantee. Sign must be guaranteed for a minimum of three years. O. Final Layout. Final layout and lettering details shall be submitted to Broomfield prior to fabrication. 731.03 Stop Signs Stop signs shall be installed at all approaches to streets designated by Broomfield as through streets. Stop signs shall be mounted on the same support posts as street name signs where possible. All signs shall have high intensity, retro-reflective sheeting and meet the MUTCD Conventional Road Dimension charts and the MUTCD Standard Highway Signs. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-201 731.04 Other Signs Regulatory, warning, guide, informational, and custom signs shall be installed at locations designated by the City Traffic Engineer. All signs shall have high intensity, retro-reflective sheeting and shall meet the MUTCD Conventional Road Dimension charts and the MUTCD Standard Highway Signs. School and pedestrian warning signs shall be fluorescent yellow/green with diamond grade, retro-reflective sheeting. 731.05 ‘No Parking’ Signs A. ‘No Parking’ signs shall have high intensity, retro-reflective sheeting. B. Both the sign post and the support post shall be of the square telescoping type, twelve (12) gauge. Holes shall be punched on all four sides and along the entire length of the post. C. The sign post shall be one and one-half (1½) inches by ten (10) feet, and the support post shall be one and three-quarters (1¾) inches by three feet. 731.06 Sign Dimensions The signs shall be fabricated in accordance with the dimensions described on the MUTCD Conventional Road Dimension charts and the MUTCD Standard Highway Signs. 731.07 Sign Installation Install per the MUTCD guidelines and the CDOT Standard Specifications for Road and Bridge Construction. 732.00 Sign Posts and Support Posts All sign supports and sign posts shall conform to specifications for perforated square steel tubing and to ASTM A366, Standard Specifications for Cold Rolled Carbon Steel Sheets, Commercial Quality. Tubing with plain finish shall be roll-formed from 10 gauge (.135 U.S.S. Gauge) and 12 gauge (.105 U.S.S Gauge) hot rolled steel, ASTM A1011 Grade 50 pickled and oiled. Tubing with galvanized finish shall be roll-formed from 10 gauge (.135 U.S.S. Gauge) and 12 gauge (.105 U.S.S. Gauge) hot rolled steel, galvanized material ASTM A653 Grade 50. The average minimum yield strength after cold forming shall be 60,000 PSI. Posts shall conform to the following sign dimensions: The finished members shall be straight and shall have a smooth, uniform finish. Consecutive sizes of tubes shall freely telescope with a minimum amount of play. All holes and cut-off ends Total Sign Area Sign Post Dimensions Support Post Dimensions Less than 2 sq. ft. 1-½” x 1-½” x 10’ 1 ¾” x 3’ 2 to 9 sq. ft. 1-¾” x 1-¾” x 12’ 2” x 3’ Over 9 sq. ft. 2” x 2” x 12’ 2 ¼” x 3’ ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-202 shall be free of burrs. Seven-sixteenth (7/16) inch diameter holes shall be punched on one inch centers on the entire length of all sides of the tube. All posts shall be galvanized. 733.00 Pavement Markings The Contractor shall submit a Pavement Marking Plan to the City Traffic Engineer for approval prior to beginning work. The Pavement Marking Plan shall meet the requirements outlined in the MUTCD. Markings shall consist of extrusion applied, preformed plastic, or thermoplastic material conforming to Sections 713.12 and 713.14 of the CDOT Standard Specifications for Road and Bridge Construction. The Contractor is solely responsible for placement and maintenance of all necessary temporary and permanent pavement markings until Construction Acceptance is issued. All temporary pavement markings shall comply with Section 627 of the CDOT Standard Specifications for Road and Bridge Construction. All permanent pavement markings shall be thermoplastic. NO LOW VOC SOLVENT PAINT OR EPOXY SHALL BE INSTALLED IN BROOMFIELD R.O.W. Waterborne Paint or plastic preformed materials may be allowed at the discretion of the City Traffic Engineer. 733.01 General Pavement marking material and construction shall comply with Sections 627 and 713.12 of the CDOT Standard Specifications for Road and Bridge Construction. Placement shall comply with the MUTCD, the CDOT M&S Standards and the manufacturer’s recommendations. All pavement markings shall be 0.125 mil thick. 733.02 Typical Pavement Markings Double Yellow Line 4” with a 4’ separation gap (4-4-4) Median Yellow Line 4” Yellow Passing Line 4” X 10’ gap spaced 30’ (ft) White Turn Pockets 8” Decel. or Accel. Lane 8” White Skip Lines 4” X 10’ gap spaced 30’ White Edge Line 6” for bike lanes White 45º Diagonal Hatch Line 8” at 15’ spacing 733.03 Typical Crosswalks and Stop Bars on Connector and Local Streets A. When no center road lines are present, center a crosswalk bar on the road and space every next bar four feet apart towards the gutter edge. B. Align crosswalks to pedestrian ramps. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-203 C. Keep crosswalk bars parallel to the traveling lane lines even if the crosswalk is skewed. Crosswalk Bars 2’ x 8’ Stop Bars 12” from center of road to gutter 733.04 Crosswalks and Stop Bars at Signalized Intersections or Mid-Crossings on Major and Minor Arterials A. Center crosswalk bars on designated travel lane markings of the road and place bars parallel and next to the gutter. Then, space bars a minimum of four feet apart as necessary. Crosswalk bars shall not be placed in the wheel paths of travel lanes. B. Align crosswalk bars to pedestrian ramps. C. Keep crosswalk bars parallel to the traveling lane lines even if the crosswalk is skewed. Crosswalk Bars 2’ x 10’ Stop Bars 24” from travel center yellow to gutter 733.05 Surface Preparation A general cleaning of the pavement surface is required prior to placing extruded thermoplastic and/or preformed thermoplastic materials. The cleaning shall remove oil, dirt, dust, grease, and other foreign materials. It is recommended that new thermoplastic pavement markings be applied immediately after new asphalt has been placed, thereby reducing the necessary surface preparation and allowing the asphalt rollers to inlay preformed pavement marking material. If the roadway striping cannot be placed immediately following paving operations, then it is the sole responsibility of the Contractor to apply and maintain temporary pavement markings to sufficiently delineate travel lanes until permanent pavement markings can be placed. Pavement markings shall be placed within two weeks of completion of paving operations. 733.06 Prior to Placement of Pavement Marking Materials A. Control Points. Set control points to ensure compliance with the approved Pavement Marking Plan. B. Conflicts. Verify that there are no conflicts between the approved Pavement Marking Plan and existing pavement markings. C. Material. Verify the pavement marking materials to be installed. Surface Preparation. Ensure the surface is cleaned and free of moisture, oil, dirt, dust, grease, and other foreign materials. Verify whether sandblasting or primer is required. D. Temperature. Check that air temperature complies with the manufacturer’s recommendations. E. Signing Conflicts. Check for conflicts with signage. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-204 733.07 Placement of Pavement Markings During the placement of pavement markings, regular checks shall be performed to ensure that the surface is clean and dry. The Contractor shall regularly check pavement markings for good workmanship and straightness. When placing pavement markings, the following requirements apply: A. Application Procedures. Application procedures shall comply with the manufacturer's recommendations and these STANDARDS AND SPECIFICATIONS. B. Application Rate. Application rate of pavement marking materials shall comply with these STANDARDS AND SPECIFICATIONS. C. Reflective Beads. Check that the application rate of reflective beads complies with specified requirements. D. Protection. Traffic cones shall be used to prevent damage to new pavement markings. E. Permanent Markings. Verify proper application of all permanent markings. F. Conflicting Pavement Markings. Pavement markings shall not be conflicting or confusing. G. Extruded Thermoplastic Pavement Markings. Ensure that extrusion equipment provides proper heating, mixing, and flow of material. H. Preformed Thermoplastic Pavement Markings. For the application of preformed pavement markings, consider the following: 1. Heating. Ensure that equipment provides proper heating and placement of material. 2. Existing Pavement. When placed on existing cold pavement, check for a clean, dry, and properly prepared surface. Verify if sandblasting is required. Ensure that primer, if required, has been properly applied. Check for appropriate splicing sequence. 3. Inlay. For hot bituminous inlay placement, ensure that the material is applied in the proper location and sequence on the new mat. Check that the pavement surface is at the recommended temperature to obtain proper inlay. 740.00 TRAFFIC SIGNALS 741.00 Control of Work 741.01 Regulations and Code All electrical equipment shall comply with the CDOT Standard Specifications for Road and Bridge Construction. In addition to the requirements of the approved plans, all material and work shall comply with the National Electrical Code (NEC) and these STANDARDS AND SPECIFICATIONS. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-205 741.02 Inspection All material delivered to the site shall be subject to inspection—prior to or during installation— as deemed necessary by the Broomfield Inspector/Representative. The Broomfield Inspector/Representative may request samples of certain materials from the factory or warehouse for testing purposes prior to delivery on the site. Material which has been rejected by Broomfield shall not be delivered to the work site, and any material rejected at the work site shall be immediately removed from the site. Failure by Broomfield to note faulty material or workmanship during progress of the work shall not relieve the Contractor of the responsibility of removing and/or replacing faulty materials at the Contractor’s expense during the warranty period. Any work within the public R.O.W. shall require two working days [forty-eight (48) hours] prior notice to Broomfield by the Contractor or Developer. Any new traffic signal, or modification of the existing traffic shall comply with the Traffic Signal Pre-Acceptance Inspection Checklist, which will be provided at the pre-construction conference. – This space intentionally left blank – ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-206 741.03 Traffic Control Refer to Section 141.12 Traffic Control, Barricades and Warning Signs of these STANDARDS AND SPECIFICATIONS. 741.04 Equipment List and Drawings The Contractor shall submit a list of all materials and equipment proposed to be used in the work to Broomfield for approval. The list shall include the name of manufacturer, size and catalog number of unit. Supplemental data, including detailed scaled drawings and wiring diagrams of any non-standard or special equipment, and any proposed deviation from the approved plans shall be submitted to Broomfield for approval. The Contractor shall furnish all materials, equipment and labor needed to install and maintain temporary traffic signals during progress of the work. All intersections presently signalized shall be kept in operation until the new signal equipment is properly installed and ready for operation. If in the opinion of the City Traffic Engineer, this is not possible because the installation of new equipment is in the same location as existing equipment, the Contractor shall not proceed with any work, which may cause the present equipment to become inoperative until all necessary replacement equipment is onsite. All new traffic signals shall be equipped with Opticom device control. Existing traffic signals shall remain operational until changing over and connecting new equipment. Signals shall be operational at the close of each day's work, over weekends, and during times when the Contractor is not working. When removal of a signal from operation is proposed, Broomfield shall be notified in writing two working days (forty-eight [48]) hours in advance. 741.05 Coordination with Other Agencies and Contractors The Contractor shall coordinate conduit work with the electric service company. The Contractor may contract with the electric service company to install conduits. Refer to Section 141.02 Permits Required by Other Agencies of these STANDARDS AND SPECIFICATIONS. 741.06 Signal Pole and Signal Head Colors Traffic signal pole primer/rust inhibitor shall be Benjamin Moore & Co. Acrylic Metal Primer MO4-01. The finish coat shall be Benjamin Moore & Co. Impervex Latex High Gloss Metal & Wood Enamel 309, “Broomfield Gray” Paint Spec. 3091B-10RX-3BK-9BB-8TG per gallon. In locations where the City Engineer requires “Interlocken Gray” traffic signal poles, the primer/rust inhibitor shall be Benjamin Moore & Co. Acrylic Metal Primer MO4-01. The finish coat shall be Benjamin Moore & Co. Impervex Latex High Gloss Metal & Wood Enamel 309, “Interlocken Gray” Paint Spec. 3093B-1X24OY- 3X27BK- 1X2OG- 8WH per gallon. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-207 All traffic signal heads shall be Federal Yellow in color, and the specific color shall be determined by the City Traffic Engineer. 742.00 Conduit 742.01 General Conduit runs shown on the approved plans are tentative as to routing and may be changed, as directed by the Broomfield Inspector/Representative, to avoid underground obstructions. Any change in location from those shown on the approved plans shall require the prior approval of the City Traffic Engineer and shall be accurately recorded on as-built drawings in accordance with Section 161.00 Construction Plan Requirements of these STANDARDS AND SPECIFICATIONS. 742.02 Materials All conductors shall be run in conduit except when run in metal poles. Conduit shall be Schedule 40, Type 2 PVC as specified in the NEC. Conduits shall be high-impact type that complies with industry standards and Commercial Standard No. CS-207-60. Each length of conduit and all PVC fittings (expansion joints, couplings, adapters, etc.) shall bear the label of Underwriters Laboratories, Inc. Conduit shall be sized as indicated on the approved plans. PVC conduit shall be cut with a hacksaw and all ends squared and trimmed after cutting to remove rough edges. Connections shall be the solvent weld type except where the connection is made to a steel conduit, in which case the coupling shall be threaded on the metal conduit side. Solvent weld joints shall conform to the PVC manufacturer's recommendations. PVC conduit shall be used only for underground installations. All conduit used above ground shall be galvanized steel. A bare or green insulated #10 AWG copper conductor shall be run continuously in all conduit used for traffic signal circuits for bonding and grounding purposes. Existing underground conduit that is incorporated into a new system shall be cleaned with a mandrel and compressed air. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-208 742.03 Installation Excavations for conduit shall be two inches wider than the outside diameter of the conduit. Backfilling of the conduit trenches shall be accomplished in accordance with all applicable portions of Section 350.00 Trenching, Backfilling and Compacting of these STANDARDS AND SPECIFICATIONS. A nylon pull string shall be left in each conduit run for any future pulling of conductors. When trenching in pavement, the cut in the pavement shall be no wider than the width of the trench. Refer to the Detail Drawings for pavement cuts. City Engineer approval shall be required for cutting pavement less than five years old, and special requirements may apply. Conduit shall be installed not less than thirty (30) inches below the top back of curb grade. Conduits under railroad tracks shall not be less than forty-two (42) inches below the bottom of the tie, and/or as specified by railroad code. Conduit smaller then three-fourths inch electrical trade size shall not be used unless otherwise specified on the approved plans; however, grounding jumpers at service points may be enclosed in one-half inch conduit. Conduit size shall be consistent for the entire length of the run from outlet to outlet, and no reducing couplings shall be allowed. Conduits terminating in poles, cabinets, or pedestal bases shall extend above the foundation a maximum of four inches and a minimum of two inches and slope toward pole hand holes or transformer base openings. Conduit entering pull boxes shall terminate a minimum of one inch and a maximum of three inches inside the box wall and two inches minimum or four inches maximum above the bottom and shall be sloped to facilitate convenient pulling of the wires or cables. Conduit entering through the side of a pull box shall be located near the sides and ends of the box in order to leave the major portion of the box clear. Conduits shall enter freely through boxes for allowance of expansion and contraction. Conduit required to be terminated, stubbed, and plugged shall be shown on the plans as directed by the City Traffic Engineer. All conduit ends shall be capped with standard conduit caps until the wiring is started. When caps are removed, the threaded ends shall be provided with approved insulated metal ground bushings. THE LOCATION OF ALL CONDUIT ENDS UNDER CURBS OR BEHIND STRUCTURES SHALL BE MARKED WITH A WHICH IS AT LEAST THREE INCHES HIGH, CUT INTO THE FACE OF THE CURB OR WALL DIRECTLY ABOVE THE CONDUIT. These locations shall be shown on the Record Documents. Refer to Section 211.02 Record Documents of these STANDARDS AND SPECIFICATIONS. Conduit bends, except for factory bends, shall have a radius of not less than six times the inside diameter of the conduit. Where factory bends are not used, conduit shall be bent without crimping or flattening, using the longest radius practicable. Conduit entering controller cabinets shall be packed with duct seal after wiring is installed to prevent the entrance of gases. Existing underground conduit to be incorporated into a new system shall be cleaned with a mandrel and compressed air. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-209 Bends in all PVC conduit shall comply with the NEC or local codes governing bending radius and number of bends allowed for rigid conduit. When PVC conduit is installed for future use, each end shall be caped with a PVC cap. For locating purposes, a galvanized, l2-gauge steel plate twelve (12) inches square shall be placed over each conduit end. 743.00 Cable and Conductors 743.01 General Cable and conductors shall comply with the International Municipal Signal Association (IMSA) and the approved plans. All wire shall bear the label of Underwriters Laboratories, Inc. Insulated conductors shall be shipped in splice-free continuous in cartons or on new- bolted-type non-returnable reels plainly and indelibly marked with the name of the manufacturer, net weight, size (AWG) and length of the wire. NO SPLICES SHALL BE ALLOWED IN THE WIRE. A heavy covering of cardboard or burlap shall be used to protect the wire and reels during shipment and handling. 743.02 Multiconductor Cable Multiconductor cable shall comply with IMSA Specification 19.1, except that the conductors shall be stranded. Conductor color-coding shall comply with Table II of IMSA Specification 19.1 for unpaired conductor cables. Color-coding for tracers shall run spiral and be impregnated into the conductor insulation. The wiring of signal heads shall comply with IMSA Specification 7. Single conductor wire shall not be used for wiring signal heads. 743.03 Wiring Installation Wiring shall comply with the NEC and the National Electric Manufacturers Association (NEMA) Code. Wiring within cabinets and junction boxes shall be neatly arranged and laced. Flaxsoap, or other approved lubricant, may be used for inserting conductors in conduit. No splices of cable shall be permitted in the conduit. In all signal designs, separate conduits shall be shown for separate low voltage and high voltage conductors on the plane. Signal conductors shall be run in conduits separate from the low voltage detector lead-in. All loop detector and lead-in wire shall run from loop detectors to the cabinet with no splicing. Tags for identification of wires shall be furnished and installed by the contractor at cabinet locations, at pull boxes, and at terminating points, or as directed by the Broomfield ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-210 Inspector/Representative. A permanent fiber or PVC tag shall be used. Tags shall be marked as indicated on the wire layout sheets and shall indicate the direction of the run and pole number of other locations of termination points for the wire run. Confirm that spare wires are not connected to any junction. All spare wires shall be tagged and identified as spare with appropriate numbers as shown on the layout sheets. The ends of the spare wires shall be pulled into the terminal compartment or cabinet. All wiring between the controller and the signal faces shall be multiconductor cable. The individual conductor shall be l4 gauge stranded copper wire. Separate multiconductor cables for each signal phase shall be installed around the intersection and marked with colored phasing tape at the controller and at each splice point in the pull boxes and pole bases. 743.04 Connections to Signal Heads, Pushbutton Switches and Traffic Controllers All cable wires shall be secured to screw-type terminals in traffic signal heads, pedestrian pushbutton switches, and the traffic controller. The connectors shall be the spade-tongue type and affixed to the conductors using a tool designed specifically for the connection of the connectors to the conductors, unless Phoenix blocks are being used in the cabinet. 743.05 Wire Splicing Locations Splices shall only be made in pole bases. 743.06 Wire Bonding and Grounding Metallic cable sheaths, conduit, metal poles and pedestals shall be bonded to form a continuous and effectively grounded system. Bonding jumpers shall be #l0 AWG copper wire, or larger, as required. Grounding of conduit and neutral at the service point shall be #8 AWG copper wire, or larger, as required. At each controller, a ground rod (electrode) shall be installed. Each ground rod shall be a one-piece solid copper rod, a minimum of one-half inch in diameter and eight feet in length. The rod shall be driven into the ground to a minimum depth of seven feet. The ground wire shall be spliced together at the termination points and shall connect to the neutral bar at the service facility, load center cabinet, or control cabinet. 744.00 Electric Service Connection The Contractor shall be responsible for coordinating the electric service connection with the electric service company. Electric service connections shall be made by the Electric Service Company. The contractor shall furnish two conductor 6-gauge wire from the controller to the pull box, leaving two feet extra of wire in the pull box. Service points shown on the approved plans are approximate. The exact location shall be determined in the field by the Contractor, the Broomfield Inspector/Representative, and the electric service company. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-211 The Contractor shall furnish and install conduit and conductors to the service points as shown on the approved plans. Conduit for traffic signal service shall not be less than two inches in size. Conduit and wiring specified in the wire layout sheets and shown on the approved plans shall be furnished and installed from service pole to the controller cabinet, or to the location shown on the approved plans. 745.00 Concrete Foundations 745.01 General Foundations shall be composed of concrete that complies with Section 800 Concrete Mix Design and Construction of these STANDARDS AND SPECIFICATIONS. Foundations for all poles, standards, pedestals, and cabinets as shown on the approved plans, shall rest on firm ground. Forms required for cast-in-place bases shall be true to line and grade, rigid, and securely braced. Both forms and ground, which contact the concrete, shall be thoroughly moistened prior to placing concrete. Conduit stubs and anchor bolts shall be placed in proper position and securely held in place by a template while concrete is being placed and until the concrete has properly set. After placing concrete, the anchor bolts shall be raised and lowered individually to eliminate air pockets and to align the anchor bolts prior to concrete setting. Any deviations in foundation location proposed by the Contractor shall require City Traffic Engineer approval. 745.02 Poles, Standards and Pedestal Foundations Poles, standards, and pedestals shall not be installed until the foundation concrete has set at least seven days. Foundations of high-strain poles shall set a minimum of ten (10). Foundations for all poles shall have a flush top. In each case, the maximum distance behind the curb for pole locations is desired. In locations where the roadway is not curbed, the top of the foundations shall be six and one-quarter (6¼) inches above the grade of the edge of the pavement. Where foundations are located in the sidewalk, the foundation shall be two inches above the surface of the sidewalk, and expansion material shall be placed between the foundation and the sidewalk, with the top of the expansion material level with the sidewalk surface. Foundations for traffic signal control cabinets that are located in sidewalks shall extend above the sidewalk surface as shown on the plans. 746.00 Traffic Signal Controllers 746.01 Signal Phasing and Tape Colors Refer to Section 741.02 Inspection of these STANDARDS AND SPECIFICATIONS. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-212 746.02 Controller Type Each controller shall be a Type 2070 Controller Unit as specified in the latest edition of, State of California “Transportation Electrical Equipment Specifications”(TEES) and shall be fully licensed to Broomfield. The controller supplier shall have a service center located in Colorado. Broomfield personnel shall be able to access the service center at anytime for inspection. Failure to have an adequate service center may void the contract award. The service center shall be capable of performing any required warranty repairs or replacement. Repair or replacement of warranted items shall be completed and the item delivered to the requested location within five working days. Two copies of service records shall be supplied to Broomfield for all warranty work. Each controller shall be fully warranted for materials and workmanship for a period of one year from the date of receipt. THE CONTRACTOR SHALL PROVIDE 16 HOURS OF TRAINING AT A SITE DESIGNATED BY BROOMFIELD. This training shall include but not be limited to diagnostic software and circuit theory and operation of the 2070 controller. The training shall be provided by a person knowledgeable in the operation, theory and repair of the 2070 controller, 332D and 333SD cabinets and associated diagnostic software. 746.03 Cabinet Type THE CABINET SHALL BE DELIVERED TO BROOMFIELD AT LEAST ONE WEEK [FIVE WORKING DAYS] PRIOR TO INSTALLATION FOR BENCH TESTING, INSPECTION, AND CONFIGURATION. The cabinet assembly shall include complete wiring for local intersection system operation, as indicated in the plans. Broomfield has two selections of cabinets, the Model 332D or Model 333SD. The cabinet assembly shall consist of the following: A. Model 332D The controller cabinet shall be a double wide 332 cabinet herein referred to as a Model 332D as specified in the Contract. The cabinet shall be natural aluminum with anchor bolts in accordance with the FHWA-IP-78-16 specification. The input files shall meet the requirements of the split input file below. Unless otherwise specified in the Contract, the cabinet shall include the following: ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-213 Quantity Item 1 2070 Controller 2 Internal (front/back) Fluorescent Lamps 4 Corbin Locks 2 Fan Assemblies 1 PDA #2 w/206 Power Supply 2 Standard Split Input File 4 Model 430 Transfer Relays 2 Model 204 2-Circuit Flasher (cube type, 25 AMP output) 12 Model 200 I/O Load Switch (cube type, 25 AMP output) 3 Model 242 DC Isolators 3 1 Model 2010 ECL Monitor with Absence of Red Monitoring 1 EDCO SHA-1201 Surge Device Mounted on Service Panel 2 New York 330 Pull-out Drawer Assembly (one on each side) 1 Auxiliary Detector Termination Panel Assembly 1 Transient Voltage Surge Suppression System 1 Output file with Phoenix Connectors 1 Service Panel 1 Rack Mechanical W/2 – Full Shelves (Left Side) 4 Anchor Bolts 1 Red Monitor Kit 1 Traffic UPS (see Specifications Below) All cabinets shall have a powder coating base TCI WHEEL SILVER #9811-0110 Polyester TGIC powder coating and top coating shall be TCI ANTI GRAFFITI powder paint applied 2.4 mils thick. All cabinets shall have a protective shield over the circuit breakers to prevent them from being accidentally turned off. The shield shall be mounted in such a way that the switches are still readily visible to the technician and can be easily turned on or off. B. Model 333SD The controller cabinet shall be a Model 333SD as specified in the Contract. The 333SD cabinet shall include a base extension assembly. Each cabinet shall be natural aluminum with anchor bolts in accordance with the FHWA-IP-78-16 specification. The input files shall meet the requirements of the split input file below. Unless otherwise specified in the Contract, the cabinet shall include the quantities of items shown in the chart in (above). The cabinet dimensions shall be (54” wide) x (43” tall) x (26” deep). The cabinet shall have four doors and Corbin #2 Locks. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-214 The left side of the 333SD cabinet assembly shall have shelves assembled to the EIA rack assembly to house additional equipment such as, but not limited to, video detection, standby uninterrupted power supply and communication equipment. All cabinets shall have a powder coating base TCI WHEEL SILVER #9811-0110 Polyester TGIC powder coating and top coating shall be TCI ANTI GRAFFITI power paint applied 2.4 mils thick. All cabinets shall have a protective shield over the circuit breakers to prevent them from being accidentally turned off. The shield shall be mounted in such a way that the switches are still readily visible to the technician and can be easily turned on or off. 746.04 Signal Cabinet Base The ground mounted fiberglass signal cabinet base shall be installed level and as shown on the approved plans or as directed by the City Traffic Engineer. The seam between the base and the cabinet shall be caulked both inside and outside the controller base to prevent water seepage. The cabinet shall be set flush on the cabinet base. 746.05 Signal Cabinet Locations VISUAL AESTHETICS SHOULD BE CONSIDERED IN THE LOCATION OF SIGNAL CABINETS. THE LOCATION OF THE CABINETS SHALL BE APPROVED BY THE CITY TRAFFIC ENGINEER. 746.06 Cycle Length The City Traffic Engineer shall determine signal timing. Signal timing shall be installed by Broomfield at signal turn-on. 746.07 Spread Spectrum Wireless Interconnect System The following shall be the minimum requirements for a Wireless Interconnect Package: A. Operate in the license-free, spread spectrum band (902-928 MHz), utilizing frequency hopping technology B. 139 user-selectable channels, with 62 available hopping sequences. Two shall be non-overlapping. C. Completely configurable via included software. D. Software features to provide “remote programming, remote maintenance and spectrum analyzer” included. E. An RS232 interface capable of 1200 bps to 115.2 Kbps with an 8 or 9 bit format or 1200 bps Bell 202 FSK (2 or 4-wire) F. A maximum of 8 msec end-to-end latency G. LED indicators for PWR, TX DATA, RX DATA and the active data port ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-215 H. DB9F connector for RS232 port and RJ22 for FSK I. Receiver sensitivity of -110dBm @ 10-6 BER J. Operating temperature of -40 to +80 degrees C K. Operate with voltages between 6 VDC and 30 VDC., with a typical current draw of <100mA L. Radio sleep mode with a maximum current draw of <1 uA M. Programmable for RF output levels of 1mW, 10mW, 100mW or 1 Watt N. Provide 16-bit CRC error checking with auto re-transmit O. Available as Shelf Mounted, Rack-Mounted, or NEMA 4X Weatherproof Versions P. Controller hardware and software ready for use upon installation Q. Built-in store-and-forward repeater R. Encom COMMPAKTM Model 5100R or equivalent S. Compatible with, and plug directly into, 2070 / TSI detector rack T. Draws operating power from detector card cage U. RP TNC-F antenna connector V. RSSI signal strength LEDS 746.08 Uninterruptible Power System Operation: A. The Traffic UPS shall be capable of producing – simultaneously fully regenerated, conditioned and true sine wave, standby and continuous AC outputs. B. Suggested operating mode for respective outputs during power failure: Continuous output provided for signal controllers and modems; Standby output provided for signals in flash mode operation (optional delay timer available for short-term battery run under full cycling operation). C. Up to the maximum rating, the Traffic UPS shall be capable of running any combination of signal heads, whether Incandescent, LED or Neon, by any manufacturer, regardless of power factor, without overdriving the power factor LED heads which may cause early degradation, low luminosity or early signal failure. D. Upon loss of utility power the Traffic UPS shall insert battery power into the system via a supplied Power Interface Module (PIM). In case of UPS failure and/or battery depletion, the PIM will ensure that the UPS will drop out and, upon return of utility power, the traffic control system will default to normal operating mode. E. The Power Interface Module shall enable removal and replacement of the Traffic UPS without shutting down the traffic control system (i.e. “hot swap” capability). Connectors shall be equipped with a “safety interlock” feature. F. For 2070 style cabinets, upon loss of power the Traffic UPS shall actuate the existing Flash Transfer Relays (FTRs) and Mercury Contactor (MC) to force the traffic control system into Flash Mode operation. G. Existing Flasher Modules and Flash Transfer Relays shall be utilized. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-216 H. To facilitate emergency crews and police activities, the Traffic UPS shall be compatible with police panel functions (i.e. “Signals OFF” switch must remove power to the field wiring even when on UPS/Battery power). I. The Traffic UPS shall not duplicate or take over flash operation or flash transfer relay functions. J. The Traffic UPS shall be capable of providing continuous, fully conditioned, regulated, sinusoidal (AC) power to selected devices such as signal controllers, modems, communications hubs, NTCIP adapters and video equipment. The Traffic UPS shall consist of three major components: the Electronics Module, the Power Interface Module and the Battery System. The Electronics Module shall consist of the following: A. Dimensions: 1. Rack-mount: Width = 19”, Depth = 12”, Height = 3.5” (2U) 2. Shelf-mount: Width = 19”, Depth = 12”, Height = 3.5” 3. Wall-mount/Unistrut Rail mount: Width = 6.9”, Depth = 9.5”, Height = 16” 4. Separate Power-Interface Module = Width = Depth = 2.8”, Height = 9” B. Weight: UPS: 20 lbs., Shipping weight: 25 lbs. C. True sine wave, high frequency inverter utilizing IGBT technology D. 3-stage, temperature compensated, battery charger E. For connection from the electronics module to the power interface module and battery system, dedicated harnesses shall be provided with quick-release, keyed, circular connections and braided nylon sleeving over all conductors F. Local and remote control of UPS functions G. Local and remote communications capabilities H. Shall be capable of accepting an NTCIP ready adapter or a spread spectrum radio modem I. Separate Power Interface Module (PIM) for inserting power safely and reliably. Mounting Configuration: A. NEMA Style: mounting method shall be shelf-mount or wall-mount. B. 2070 Style: mounting method shall be 19” rack-mount. Shelf angles or rails, typically supplied by others, are available as optional accessories. C. External: A separate, stand-alone, pad-mounted, outdoor (NEMA 3R) enclosure shall be available should there be inadequate room in the signal cabinet or should the consulting/traffic engineer prefer independent, external mounting. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-217 Battery System: A. The battery shall be comprised of extreme temperature, deep cycle, AGM/VRLA (Absorbed Glass Mat/Valve Regulated Lead Acid) batteries that have been field proven and tested. B. The battery system shall consist of one or more strings of 6 batteries per string of extreme temperature, deep cycle, AGM/VRLA (Absorbed Glass Mat/Valve Regulated Lead Acid) batteries. C. Batteries shall be certified to operate at extreme temperatures from -40 degrees C to + 74 degrees C. D. The batteries shall be provided with appropriate interconnect wiring and a corrosion-resistant mounting trays and/or brackets appropriate for the cabinet into which they shall be installed. E. The interconnect cable shall be protected with abrasion-resistant nylon sheathing. F. The interconnect cable shall connect to the base module via a quick release circular connector. G. The circular battery connector shall have interlocking pins to prevent turn-on if batteries are not connected, and to shut off the UPS should the batteries be disconnected. H. Battery construction shall include heavy-duty, inter-cell connections for low- impedance between cells, and heavy-duty plates to withstand shock and vibration. I. The top cover shall use tongue and groove construction and shall be epoxied to the battery case for maximum strength and durability. J. An optional lifting handle shall be available on most battery models. Battery Specifications: A. The battery system shall be certified and field proven to meet or exceed NEMA temperature standards from –40°C to +74°C. B. Ampere-Hour ratings (see table 1) C. Hydrogen gas emissions: must meet Mil-Spec #MIL-B-8565J D. Dimensions: (see table below) E. Weights: (see table next page) – This space intentionally left blank – ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-218 Estimated Runtime (assumes 77°F / 25°C, to 1.75 volts per cell). Unit Weight Overall Dimensions Per Battery Inches(cm.) Volts/ A-hrs. 200 Watts 400 Watts 800 Watts Lbs. (Kg.) Length L Width W Height H SECT12 VDC/ 16 A-h 3.5 Hrs. 1.73 Hrs. 52 Min. 14.7 (6.7) 7.27 (18.46) 3.11 (7.89) 6.67 (16.93) 12 VDC/ 31 A-h 8.8 Hrs. 3.8 Hrs. 1.8 Hrs. 23 (10.5) 7.68 (19.51) 5.15 (13.08) 7.22 (18.34) 12 VDC/ 39 A-h 11.3 Hrs. 5.5 Hrs. 2.3 Hrs. 29 (13.2) 7.68 (19.51) 5.15 (13.08) 8.50 (21.59) 12 VDC/ 48 A-h 13.7 Hrs. 6.7 Hrs. 2.9 Hrs. 32 (14.5) 9.41 (23.90) 5.22 (13.26) 9.35 (23.75) *OP72X battery sets include six batteries per set. Wired in series, each set provides 72 VDC. Electrical Specifications: Input Specification Nominal Input Voltage 120 VAC, Single Phase Input Voltage Range 85 VAC to 140 VAC Input Frequency 50 or 60 Hz Input Configuration 3 Wire (Hot, Neutral & Ground) Input Current (Max. draw) 7.2 amps, Power-Factor Corrected Input Protection Input Fuse (12 amps) Output Specification Nominal Output Voltage 120 VAC, Single Phase Power Rating 1 KVA (1000VA/700W) Output Voltage Regulation 2% for 100% step load change and from High battery to Low battery condition Output Frequency 50 or 60 Hz Output Configuration Keyed, circular connectors and duplex receptacle Output Wave Form True Sinewave Overload capability 110% for 10 minutes 200% for ½ second Fault clearing Current limit and automatic shutdown Short circuit protection Current limit and automatic shutdown Efficiency 85% at full load Load Power Factor .7 lagging through unity to .7 leading ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-219 Communication, Controls and Diagnostics: A. Alarm function monitoring through the UPS shall be through a standard DB-9F connector with open collectors 40V@20mA indicating loss of utility power, inverter failure and low battery B. An RS 232 interface shall be provided via a DB-9F connector to allow full interactive remote computer monitoring and control of the UPS functions C. Front panel controls shall consist of no less than: Power On, Cold (DC) Start, Alarm Silence, Battery, Test, Bypass Breaker, and DC/Breaker Environmental Specifications: A. The UPS shall meet or exceed NEMA temperature standards from –40°C to +74°C. B. The UPS shall be shall be certified and field proven to meet or exceed NEMA temperature standards. A certificate of compliance shall be made available upon request. Reliability: A. Calculated MTBF shall be 100,000 hours based on component ratings B. When Bypass and Power Interface Module are included, system MTBF shall increase to 150,000 hours Options: A. Battery Tray to hold six OP72A batteries, up to four OP72B or OP72C batteries, and up to three OP72D batteries. Tray is 19” wide for use in 2070 type cabinets and mounts on standard RETMA rails. B. Swing-out Battery Box, mounts on right rail inside back door of 2070 type cabinets. Box is designed to hold six OP72A batteries, up to four OP72B or OP72C batteries, and up to three OP72D batteries. C. Adjustable Delay-timer to provide up to 10 hours of full cycling while on battery before switching to flash mode (only available where 100% low-power/LED signals and ped heads are used). Batteries must be sized properly to fully utilize this feature. D. Service pedestal-mounting option. E. One-shot ground pulse to trigger External Start upon return of AC power. F. Dial-out modem for wireless or land line communication G. Enhanced battery charger provides accelerated charging capacity (contact factory for details and proper application). Serviceability & Maintainability: MTTR (Mean-Time-To-Replace or Repair) A. Electronics: 15 minutes or less B. Battery System: 15 minutes or less ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-220 746.09 Video Detection System Detection zones shall be installed by Broomfield at signal turn-on. The video detection system shall consist of one video camera, a video detection processor (VDP) that mounts in a standard detector rack, and a detector rack mounted extension module (EM). The system shall include software that detects vehicles in multiple lanes using only the video image. Detection zones shall be defined using only a video menu and a pointing device to place the zones on a video image. Up to twenty-four (24) detection zones per camera shall be available. The functional characteristics shall include the following: A. The VDP shall process video from one source. The source may be a video camera or video tape player. The video shall be input to the VDP in RS2070 format and shall be digitized and analyzed in real time. B. The VDP shall detect the presence of vehicles in up to 24 detection zones per camera. A detection zone shall be approximately the width and length of one car. C. Detector zones shall be programmed via a menu displayed on a video monitor and a pointing device connected to the VDP. The menu shall facilitate placement of the detection zones. A separate computer shall not be required for programming detection zones. D. The VDP shall store up to three different detector zone patterns. The VDP can switch to any one of the three different detector patterns within 1 second of user request via menu selection with the pointing device. E. The VDP shall detect vehicles in real time as they travel across each detector zone. F. The VDP shall have an RS232 port for communications with an external computer. G. The VDP shall accept new detector patterns from an external computer through the RS-232 port. H. The VDP shall send its detector patterns to an external computer through the RS- 232 port when requested. I. The extension module (EM) shall be available to avoid the need to rewire the detector rack, by enabling the user to plug an extension module into the appropriate slot in the detector rack. The extension module shall be connected to the VDP by a 10 wire cable with modular connectors, and shall output contact closures in accordance with user selectable channel assignments. The following describes vehicle detection at the intersection: A. A single detection zone shall be able to replace multiple loops. Detection zones may be placed together to indicate vehicle presence on a single phase of traffic movement. Layout of detection zones shall be done by using a pointing device and a graphical interface built into the VDP to mark the detection zones on the video image from each video camera. Up to three detection zone patterns ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-221 shall be saved within the VDP memory to prevent loss during power outages. B. The selection of the detection zone pattern for current use shall be done through a menu. It shall be possible to activate a detection zone pattern for a camera from VDP memory and have that detection zone pattern displayed within 1 second of activation. When a vehicle is detected crossing a detection zone, the detection zone shall flash a symbol on the screen to confirm the detection of the vehicle. C. Detection shall be at least 98% accurate in good weather conditions and at least 96% accurate under adverse weather conditions (rain, snow, or fog). Detection accuracy is dependent upon site geometry, camera placement, camera quality and detection zone location, and these accuracy levels do not include allowances for occlusion or poor video due to camera location or quality. Detector placement shall not be more distant from the camera than a distance of ten times the mounting height of the camera. D. The VDP shall provide up to 8 channels of vehicle presence detection through a standard detector rack edge connector and one or more extension modules. The VDP shall provide DZR to enable normal detector operation of existing zones except the one being added or modified during the setup process. The VDP shall output a constant call on any detection channel corresponding to a zone being modified. For VDP and EM Hardware: A. The VDP and extension module shall be specifically designed to mount in a standard detector rack, using the edge connector to obtain power and provide contact closure outputs. No adapters shall be required to mount the VDP in a standard detector rack. No detector rack rewiring shall be required. B. The VDP and extension module shall operate satisfactorily in a temperature range from -29 degrees F to +140 degrees F and a humidity range from 0% Relative Humidity (RH) to 95%RH, non-condensing. The VDP and extension module shall be powered by 24 volts dc. VDP power consumption shall not exceed 450 milliamps. The EM power consumption shall not exceed 100 milliamps. C. The VDP shall include an RS232 port for serial communications with a remote computer. This port shall be a subminiature connector on the front of the VDP. The VDP shall utilize flash memory technology to enable the loading of modified or enhanced software through the RS232 port and without modifying the VDP hardware. The VDP and extension module shall include detector output pin out compatibility with industry standard detector racks. D. The front of the VDP shall include detection indications for each channel of detection that display detector outputs in real time when the system is operational. The front of the VDP shall include one BNC video input connection suitable for RS2070 video inputs. The video input shall include a switch selectable 75 ohm or high impedance termination to allow camera video to be routed to other devices, as well as input to the VDP for vehicle detection. The front of the VDP shall include one BNC video output providing real time video output which can be routed to other devices. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-222 The following describes the camera: A. The camera shall produce a useable video image of the bodies of vehicles under all roadway lighting conditions, regardless of time of day. The minimum range of scene luminance over which the camera shall produce a useable video image shall be the minimum range from night time to day time, but not less than the range 0.5 lux to 10,000 lux. B. The camera shall use a CCD sensing element and shall output monochrome video with resolution of not less than 350 lines vertical and 380 lines horizontal. The camera shall include automatic electronic shutter control based upon average scene luminance. The camera shall include a variable focal length lens with variable focus and zoom that can be adjusted, without opening up the camera housing, to suit the site geometry. C. The camera shall be housed in an environmentally sealed enclosure. The camera enclosure shall be equipped with a sun shield that prevents sunlight from directly entering the lens. The sunshield shall include a provision for water diversion to prevent water from flowing in the cameras field of view. The camera enclosure with sunshield shall be less than 6” diameter, less than 26” long, and shall weigh less than 12 pounds when the camera and lens are mounted inside the enclosure. The camera enclosure shall include a thermostatically controlled heater to assure proper operation of the lens iris at low temperatures and prevent moisture condensation on the optical faceplate of the enclosure. D. When mounted outdoors in the enclosure, the camera shall operate satisfactorily in a humidity range from 0% RH to 100% RH. E. The camera shall be powered by 120 VAC 60 Hz. Power consumption shall be less than 40 watts under all conditions. F. Recommended camera placement shall be 33 feet above the roadway, and over the traveled way on which vehicles shall be detected. The camera shall view approaching vehicles at a distance not to exceed 350 feet for reliable detection. G. The camera enclosure shall be equipped with separate, weather-tight connections for power and video cables at the rear of the enclosure to allow diagnostic testing and viewing of video at the camera while the camera is installed on a mast arm or pole. Video and power shall not be connected with the same connector. The video signal output by the camera shall be in RS2070 format. The video signal shall be fully isolated from the camera enclosure and power cabling. H. Coaxial cable for transmission of video signals shall be Belden #8281 or equivalent. This cable shall be suitable for installation in conduit or overhead with appropriate span wire. BNC plug connectors should be used at both the camera and cabinet ends. The coaxial cable, BNC connector and crimping tool shall be approved by the supplier of the video detection system and the manufacturer's instructions shall be followed to ensure proper connection. The power cabling shall be 16 AWG three conductor cable. The cabling shall comply with the National Electric Code, as well as local electrical codes. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-223 747.00 Light Emitting Diode (LED) Lights When specified in the plans, the optical units of the red indications in all vehicle signal faces shall be LED Traffic Signal Section Optical Units conforming to the requirements of subsection 713.11. The LED optical units shall be installed in accordance with the manufacturer’s instructions. The LED optical units shall not be paid for separately but shall be included in the cost of the traffic signal face. 747.01 Wattage The wattage shall be a maximum of thirty-five (35) watts for a 12 inch ball display. The maximum total harmonic current distortion (THD) shall be less than 20%, and the power factor shall be greater than 90%. THD and power factor requirements shall be waived for products designed to operate at less than fourteen (14) watts. 747.02 Voltage Operating voltage shall be between eighty five (85) and one hundred thirty (130) VAC. Electronic circuitry shall assure proper operation of the load switch and monitor in the control cabinet. 747.03 Circuit Configuration The LEDs shall be connected to form multiple series circuits. All series circuits shall be interconnected at intervals, forming subcircuits not exceeding fifteen (15) LEDs for the ball and arrow signals. In the event of an LED failure, these subcircuits shall limit the number of extinguished LEDs to no more than four percent of the total on the ball and six percent of the total on the arrow lamp. 747.04 Enclosure The enclosure shall be dust and water-resistant and shall be approved by the City Traffic Engineer. 747.05 Operating Temperature Operating temperature shall be between -40 degrees F and 185 degrees F. 747.06 Lens The lens shall be replaceable, polycarbonate (UV stabilized “Lexan”) convex lens; meet ITE color standards; minimum of one-eighth inch thickness; and minimum light transmittance of ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-224 92%, free from bubbles, flaws and other imperfections. Non-polycarbonate tinted lenses shall be accepted provided that these meet ITE color standards. Chromacity shall be uniform across the face of the lens. Non-polycarbonate lenses shall also meet three and one-half (3-½) foot drop tests. 747.07 Candlepower Distribution Candlepower distribution shall meet minimum ITE specifications. Intensity shall be measured uniform across the face of the lens. Brightness shall be maintained in the event of voltage fluctuations or voltage drops. 747.08 Beam Spread The beam spread shall be thirty (30) degrees to each side. 747.09 Manufacturer’s Warranty The manufacturer’s warranty shall include a repair or replacement guarantee of five years, and shall cover all except for accidental damage. 748.00 Speed Monitor Display (Speed Awareness Sign) 748.01 Size For speeds of forty-five (45) mph and faster, a sign should have as a minimum eighteen (18) inch LED display. In residential areas a twelve (12) inch LED display is required as a minimum. The radar antenna and display to be mounted behind the display windows shall be three-sixteenths (3/16) inch thick non-glare Lexan polycarbonate material, or approved equal. The housing shall be at least one-eighth inch thick aluminum with a baked powder coat enamel finish. Stainless steel tamper resistant hardware shall be standard. Brightness shall adjust automatically to ambient light conditions. 748.02 Programming Programming of the display shall be with “one-button” access. Button shall be accessed by a key lock. 748.03 Violator Alert Violator alert shall be set with “one button” programming in increments of five mph. The display shall not indicate a speed if vehicle is exceeding the pre-set threshold limit. The display shall show violator alert option “Slow Down” in red LED or shall show flashing red and blue bars in LED. ---PAGE BREAK--- ROADWAY DESIGN, TRAFFIC CONTROL DEVICES AND STREET LIGHTING SECTION 700 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 700-225 748.04 Radar Unit The radar unit shall be Decatur Electronics S12 or equal. The unit should use K band frequency or higher. The unit shall be single direction only. The unit shall be Federal Communications Commission (FCC) certified. 749.00 Traffic Signal Start-Up Procedures Broomfield shall install all signal timings prior to the first turn-on. At the first turn-on, the signal shall be set in “Flash” mode for one week—to include a weekend—prior to starting normal operation. The Contractor shall have a representative present at the first turn-on (“Flash” mode) and at the start of normal operation. 750.00 STREET LIGHTING 751.00 Street Lighting Procedure The Developer shall submit a written request for street light design to the electric service company. The Developer shall submit the final street light design to the City Traffic Engineer for review and approval. At the time of inspection, all street lights shall be installed in accordance with these STANDARDS AND SPECIFICATIONS and as shown on the approved plans. Developer shall pay the electric service company the total cost of design, materials and installation for all street lighting. Street lights in residential areas and along local and connector roadways, shall be archetype fixtures with 100-watt, high-pressure sodium lamps. The poles shall be round, tapered aluminum as shown in the Detail Drawings. Light poles shall be painted “Broomfield Gray” in color to comply with Section 741.06 Signal Pole and Signal Head Colors of these STANDARDS AND SPECIFICATIONS. The mounting height shall not exceed twenty (20) feet in residential areas. Other luminaire styles require written approval of the City Traffic Engineer prior to installation. In areas other than residential, street lighting shall be archetype fixtures with high-pressure sodium or Metal Halide lamps, and shall be installed at the direction of the City Traffic Engineer. The poles shall be round tapered steel, “Broomfield Gray” in color, and with mast arms as shown in the Detail Drawings. The mounting height shall not exceed forty (40) feet. Other luminaire styles require written approval of the City Traffic Engineer. Pole spacing and illumination requirements are shown below: Street Type Average Foot Candles Lamp Lumens Pole Spacing Local Residential 0.15 9,500 300' ± Rural Residential 0.15 9,500 At Intersections Connector 0.25 9,500 to 27,500 200' ± Arterial 0.50 27,500 150' ± ---PAGE BREAK--- ORIGINAL SIGNED DRAWINGS ARE ON FILE AT THE CITY & COUNTY OF BROOMFIELD!!! ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- 1/9/2007 Burt Knight ---PAGE BREAK--- 1/9/2007 Burt Knight ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-226 SECTION 800 CONCRETE MIX DESIGN AND CONSTRUCTION 801.00 GENERAL CONDITIONS 810.00 811.00 Inspections 228 820.00 CONCRETE MIX 821.00 Materials 229 821.01 229 821.02 Fly 229 821.03 230 821.04 230 821.05 Fine 230 821.06 Coarse 230 821.07 Fibrous Reinforcing 231 822.00 Mix 231 822.01 Colored Patterned 231 822.02 Controlled Low Strength Materials 232 823.00 Ready-Mixed 233 824.00 Steel Reinforcing and Forms 233 824.01 Steel Reinforcing 233 824.02 Forms and Form 234 825.00 Concrete 235 826.00 Tests Provided by the 236 830.00 CONCRETE CONSTRUCTION 831.00 Placing 237 831.01 Vibrating 238 831.02 Workability 238 831.03 Installation of Colored Patterned 239 831.04 Weather 239 831.04.01 Cold Weather Concreting 239 831.04.02 Hot Weather Concreting 241 832.00 Concrete Pavement and 241 832.01 Portland Cement Treated 241 832.02 Curb and 241 832.03 241 832.04 Crosspans and Curb Return Fillets 242 ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-227 832.05 Curb Cuts and 242 832.06 Curb Ramps 242 832.07 Joints 242 832.07.01 Expansion Joints 243 832.07.02 Contraction Joints 243 832.07.03 Tooled 244 832.08 Ponding 244 833.00 Appurtenant Concrete 244 833.01 Forms 244 833.02 Concrete Placement 244 833.03 Expansion Joints 244 833.04 Curing 244 834.00 Cleanup 244 835.00 Backfill of Concrete 245 836.00 Protection Against Vandalism 245 837.00 Repairs 245 837.01 Flatwork Repairs and Replacement 245 837.02 Concrete Structure Repairs 245 838.00 Finishing, Curing and 246 838.01 Finishing 246 838.02 Curing and Protection 246 DETAIL DRAWINGS – SECTION 800 800-1 Median & Vertical Curb Sections 800-2 Mountable Curb & Gutter 800-3 Mountable Curb & Gutter with Attached Walk 800-4 Monolithic Integral Curbwalk 800-5 Crosspan and Curb Return Fillets 800-6 Vertical Curb & Gutter with Attached Walk 800-7 Mountable Curb, Gutter & Sidewalk 800-8 Curb Ramp 800-8a Mid Block Curb Ramp 800-8b Intersection Retrofit Curb Ramp 800-8c Directional Curb Ramp 800-9 Drive Cut 800-10 Curb and Gutter Joint Details 800-11 Sidewalk Chase 800-12 Sidewalk Chase Detail 800-13 Sidewalk Chase Detail ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-228 SECTION 800 CONCRETE MIX DESIGN AND CONSTRUCTION 801.00 GENERAL CONDITIONS Refer to Section 100 TITLE, SCOPE AND GENERAL CONDITIONS of these STANDARDS AND SPECIFICATIONS for additional requirements that apply to all projects within Broomfield. 810.00 SCOPE All Portland cement concrete work within any street, parking lot or R.O.W. or in any part of the water system, sanitary sewer system, or storm drainage system of Broomfield shall meet the requirements of these STANDARDS AND SPECIFICATIONS. 811.00 Inspections Refer to Section 154.00 Inspections and Section 931.00 Roadway Inspections of these STANDARDS AND SPECIFICATIONS. Adequate inspections assure compliance to Broomfield requirements and are the basis for Broomfield’s recommendation that improvements be accepted for maintenance and/or for release of performance guarantees. It is the responsibility of the Contractor to contact the City Engineer a minimum of one full working day (twenty-four [24] hours) in advance of the required inspections. Required inspections shall include: A. Subgrade – Verify that material on which concrete shall be placed is to the line, grade, and cross-section shown on the approved plans, is not frozen or excessively dry at the surface, and meets all compaction requirements. B. Forms/Reinforcing Steel – Verify that forms are set to proper grade and alignment, adequately braced, and set for proper thickness of concrete. Rebar is properly placed and spaced, at least fifty (50) percent of intersections are tied, and proper distances from surface grade and forms are maintained. C. Concrete Delivery and Testing – Confirm that mix design submittals are approved by Broomfield, and testing/sampling frequency, slump, air, and minimum/maximum air and concrete temperatures comply with these STANDARDS AND SPECIFICATIONS. D. Cure and Flush – Verify that Finished concrete complies with approved grades and alignment and is properly cured. If required by the City Engineer, verify that concrete pavement surfaces comply with the smoothness requirements of Section 412.17 Surface Smoothness Test of the CDOT Standard Specifications for Road and Bridge Construction E. General Items Include: 1. All temporary structures, debris, mud and waste materials shall be removed from public property. ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-229 2. Grout and seal all cracks in concrete. Fill all gouged areas of concrete with an approved epoxy. Remove and replace all areas of broken concrete. Subgrade failures shall be corrected before pouring back. F. Construction Acceptance – Refer to Section 200 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. G. Final Acceptance – Refer to Section 200 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. 820.00 CONCRETE MIX DESIGN Concrete shall be composed of Portland cement, aggregate and water, and shall be reinforced with steel bars or steel wire fabric where required. Concrete mix design information shall be prepared in accordance with ACI 301 Section 4.2 and submitted to Broomfield for approval. At least two sets of certified twenty-eight (28) day strength test results shall also be submitted. No concrete shall be placed until the concrete mix design has been approved by the City Engineer. A separate mix design submittal shall be required for concrete to be pumped. Mix designs shall be prepared in accordance with ACI 211 and 304, as applicable. 821.00 Materials 821.01 Cement All cement used in concrete work shall be Portland cement that complies with ASTM C150, Type I or Type II, except where Type V cement is required for sulfate-resistant concrete. In general, Type II cement that complies with ASTM C150 shall be used in concrete in contact with the soil, unless otherwise allowed or directed by the City Engineer. Cement, which for any reason has become partially set or which contains lumps shall be rejected. The Contractor shall be responsible for proper storage of all cement until it is used. When requested by the City Engineer, the Contractor shall furnish the City Engineer with a certificate from the manufacturer or an acceptable testing laboratory stating that the cement meets the requirements of these STANDARDS AND SPECIFICATIONS for Portland cement. 821.02 Fly Ash Fly ash may be utilized in the concrete mix design when permitted by the City Engineer. Fly ash shall be Class C and shall comply with ASTM C618. The pozzolanic index shall be eighty-five (85). Fly ash may replace a maximum of twenty (20) percent of the amount of Portland cement that otherwise is required to produce concrete of the specified compressive strength. Class C fly ash shall not be permitted where sulfate resistant cement is required. The Contractor shall notify the City Engineer of the source of the fly ash prior to use in the project. When required by the City Engineer, the Contractor shall provide the fly ash analysis ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-230 performed by the fly ash supplier along with the concrete mix proportions. The City Engineer may require a certificate from an approved testing laboratory stating that the fly ash meets the requirements of these STANDARDS AND SPECIFICATIONS. 821.03 Water Water for concrete shall be clean and free from sand, oil, acid, alkali, organic matter, or other deleterious substances and shall meet the requirements for mix water as published in ASTM C94. Water from public supplies or water that has been proven to be suitable for drinking is satisfactory. 821.04 Admixtures The following requirements apply for admixtures: A. The Contractor shall use air-entraining admixtures for all surfaces of exposed concrete. Air entraining admixtures shall comply with ASTM C260. B. When weather restraints, site conditions or project requirements require the ability to place concrete at a lower temperature, produce accelerated concrete setting time or increase early and ultimate compressive an accelerating admixture may be utilized in the design mix when allowed by the City Engineer. C. Calcium chloride may be utilized in the design mix when allowed by the City Engineer. D. Type C accelerating admixtures and Type E water reducing and accelerating admixtures shall meet ASTM C494. E. When concrete is to be used with reinforcing steel, a non-chloride / non-corrosive, admixture shall be used. F. Dosage rates shall be determined by recommendation of the ready mix company and shall be specified for daily site conditions. 821.05 Fine Aggregate The fine aggregate shall be clean, hard, durable, uncoated particles of sand, free from injurious amounts of clay, dust, soft or flaky particles, loam, shale, alkali, organic matter, or other deleterious matter. Fine aggregate shall be well graded, and when tested by means of laboratory sieves shall comply with ASTM C33. The fine aggregate gradation shall comply with CDOT Fine Aggregate. 821.06 Coarse Aggregate The coarse aggregate shall consist of broken stone or gravel that is clean, hard, tough and durable, and free from soft, thin, elongated or laminated pieces, disintegrated stone, clay, loam, vegetable, or other deleterious matter. ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-231 Coarse aggregate shall be well graded and when tested by means of laboratory sieves shall comply with ASTM C33. The coarse aggregate gradation shall comply with CDOT Coarse Aggregate Gradation # 467. 821.07 Fibrous Reinforcing Fibrous concrete reinforcing shall not be used, unless approved by the City Engineer. 822.00 Mix Properties Mix properties of Portland cement concrete for flatwork shall comply with the following: Property Mix Design Minimum compressive strength - 28 days* 4000 psi Minimum cement - sacks/cubic yard 6 Maximum water/cement ratio - by weight 0.50 Slump - inches 1-4 Air entrainment - % by volume 5-8 * When tested in accordance with ASTM C31 The grading and composition requirements for coarse and fine aggregate for concrete shall be in accordance with the CDOT Standard Specifications for Road and Bridge Construction. Additional concrete mix designs may be approved for decorative, non-structural concrete at the discretion of the City Engineer. 822.01 Colored Patterned Concrete COLOR SHALL BE AS NOTED ON THE APPROVED DRAWINGS OR AS APPROVED BY THE CITY ENGINEER. Where required on the approved plans, colored patterned concrete shall comply with the following: A. Minimum twenty-eight (28) day compressive strength of concrete shall be 4,000 psi. B. Air entrainment shall be six percent for maximum aggregate size of three-quarter inch or one inch and shall be seven and one-half (7 ½) percent for a maximum aggregate size of three-eight inch or one-half inch. C. Normal set or retarded set water reducing admixture shall comply with ASTM C494. D. No calcium chloride shall be added to the concrete mix. E. Matching integral color shall be used as a supplement, but not as a color hardener. F. Color hardener shall be specially formulated for installation of patterned concrete, grade “Heavy Duty”. ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-232 G. Color curing compound shall comply with ASTM C309 and with all applicable air pollution regulations. 822.02 Controlled Low Strength Materials (CLSM) CLSM (“Flowable Fill”) mix designs shall be submitted to the City Engineer for approval prior to placement. CLSM used as structure backfill, as backfill for pipelines and service lines, or to fill abandoned pipelines and appurtenances shall have a twenty-eight (28) day compressive strength between fifty (50) and one-hundred fifty (150) psi, as tested by ASTM D4832. CLSM shall be placed in confined areas and under pipe haunches with methods approved by Broomfield. When backfilling pipelines and service lines, CLSM shall be properly layered to prevent pipe from floating. Onsite material mix designs may be approved. Test sections may be required and a placement plan may be required to be submitted for approval by the City Engineer. The following CLSM mix properties and proportions apply: CLSM Mix Requirements Property Mix Design Minimum 24-hour strength 15 psi Maximum 28-day strength 50-150 psi Maximum aggregate size 1” (100% Passing) Portland Cement ASTM C150 Type I-II (or Type V for sulfate resistance) Slump 4” – 8” Mix Proportions (per cubic yard of concrete) Material lbs./yd3 Cement 501 Water3 325 (39 gallons) or as needed Coarse Aggregate (AASHTO No. 57 or 67) 1700 Fine Aggregate (AASHTO M6)3 1845 1 40 lbs. /yd3 cement and 10 lbs. /yd3 Class C fly ash may be substituted for 50 lbs. /yd3 cement. 2 CLSM shall flow into place without excessive segregation or bleed water. 3 The percent passing the #200 sieve shall be between 8% - 20%. ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-233 823.00 Ready-Mixed Concrete The use of ready-mixed concrete shall in no way relieve the Contractor or Developer of the responsibility for proportion, mix, delivery, or placement of concrete. All ready-mixed concrete shall comply with ASTM C94. Concrete shall be continuously mixed or agitated from the time the water is added until the time of use, and discharge from the truck should begin within ninety (90) minutes or three-hundred (300) revolutions after it comes in contact with the mixing water or with the aggregates. In accordance with ASTM C94, water may be added to ready-mix concrete one time in order to get slump within range, as long as the specified water-cement ration is not exceeded. Broomfield shall have free access to the ready mix plant at all times. The organization supplying the concrete shall have sufficient plant and transportation facilities to assure continuous delivery of the concrete at the required rate. The contractor shall collect delivery or batch tickets from the driver for all concrete used on the project and shall deliver them to the City Engineer. Batch tickets shall provide the following information in accordance with ASTM C94: A. Name of ready-mix batch plant B. Serial number of ticket C. Date D. Truck number E. Name of purchaser F. Specific designation of job (name and location) G. Mix # or specific class or designation of the concrete H. Amount of concrete in cubic yards I. Time loaded or of first mixing of cement and aggregates J. Water added by receiver of concrete and his initials K. Weights of fine and coarse aggregates L. Type, brand and amount of cement M. Type, brand and amount of admixtures N. Weight (in gallons) of water, including surface water on aggregates 824.00 Steel Reinforcing and Forms 824.01 Steel Reinforcing The placement, fastening, splicing and supporting of reinforcing steel and wire mesh or bar mat reinforcement shall comply with the plans and the latest edition of CRSI Recommended Practice for Placing Reinforcing Bars. Before being positioned, all reinforcing steel shall be thoroughly cleaned of mill and rust scale and of coatings that may destroy or reduce the bond. Where there is delay in depositing concrete, reinforcement shall be reinspected and cleaned if necessary. ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-234 Reinforcement shall be carefully formed to the dimensions indicated on the approved plans by the cold bending method. Cold bends shall be made so that the inside diameter of the bend measured on the inside of the bar shall be as follows: Bar Size Grade 60 #3 through #8 6 bar dia. #10, and #11 8 bar dia. #14 and #18 10 bar dia. The inside diameter of bend for stirrups and ties shall not be less than four bar diameters for sizes #5 and smaller, and five bar diameters for #6 and Reinforcement shall not be bent or straightened in a manner that may injure the material. Bars with kinks or bends shall not be used except where shown on the plans. Heating of reinforcement shall not be permitted. Reinforcing steel shall be accurately placed and secured against displacement by using annealed iron wire of not less than No. 18 gauge, or by suitable clips at intersections. A minimum of fifty (50) percent of intersections shall be secured. Where necessary, reinforcing steel shall be supported by metal chairs or spacers, pre-cast mortar blocks, or metal hangers. Splicing of bars, except where shown on the plans, shall not be allowed without approval of the City Engineer. Welded wire fabric for concrete reinforcement shall be of the gauge, spacing, dimensions, and form specified on the plans or Detailed Drawings and shall comply with “Specifications for Welded Steel Wire Fabric for Concrete Reinforcement” (ASTM A185) or “Specifications for Welded Deformed Steel Wire Fabric for Concrete Reinforcement” (ASTM A497). Contractor shall submit shop drawings of the reinforcement to the City Engineer for approval. Unless otherwise shown on the plans, the minimum clear cover for reinforcing steel shall be the following, as specified in Section 5.5 of ACI 301: Bottom bars on soil bearing foundations & slabs 3 inches Bars adjacent to surfaces exposed to weather or earth backfill 1½ inches Interior surfaces ¾ inches 824.02 Forms and Form Setting Forms shall have sufficient strength to withstand—without deformation—the pressure resulting from placement and vibration of the concrete. Forms shall be constructed so that the finished concrete shall conform to the shapes, lines, grades and dimensions indicated on the approved plans. Any form which is not clean and which has not had the surface prepared with commercial form oil to effectively prevent bonding, staining, and softening of concrete surfaces shall not be used. Forms may generally be wood or metal and shall have a depth equal to or greater than the slab thickness. Plywood forms, plastic coated plywood forms, or steel forms shall be used for all ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-235 surfaces requiring forming which are exposed to view, whether inside or outside any structure. Surfaces against backfilled earth, interior surfaces of covered channels, or other places permanently obscured from view, may be formed with forms having sub-standard surfaces. Forms that have become worn, bent, or broken shall not be used. Each section of form shall be straight and free from warps. The Contractor shall set a minimum length of three hundred (300) feet of forms to grade prior to placing concrete. In cases where the length of one run is less than three hundred (300) feet, the Contractor shall set forms to grade for the entire run. The face of curbs shall be formed, unless otherwise permitted by the City Engineer. Forms shall be secured to resist the pressure of the poured concrete without springing or settlement. The connection between sections shall be performed by a method in which the joint shall be free from movement in any direction. Forms shall not deviate more than one-quarter inch from the design line and grade. When concrete pavement is constructed on a curve, flexible forms shall be used having a radius of two hundred (200) feet or less, unless otherwise directed by the City Engineer. Face forms shall be preformed to the proper radius. Care shall be exercised to ensure the required cross section is maintained around the entire radius. The Contractor shall provide an approved metal straight edge, ten (10) feet in length, to check the alignment of the forms prior to placing the concrete, and to check the concrete surface during the finishing operation. Forms shall not be disturbed until the concrete has hardened sufficiently to permit removal without damaging the concrete, or until forms are not required to protect the concrete from mechanical damage. The minimum duration of time before removal of forms after placing concrete shall be one day for footings and two days for all other concrete. Crowbars or other heavy tools shall not be used against green concrete when removing forms. Forms shall be thoroughly cleaned before re-oiling and reuse. 825.00 Concrete Testing The requirements of this section shall apply to testing services for all concrete curb and gutter, sidewalk, pavement, slope paving, retaining walls, structures, and for all miscellaneous concrete testing. The required concrete testing services shall be performed by a designated concrete testing agency approved by the City Engineer, and that meets the requirements of ASTM E329. A representative of the concrete testing agency shall inspect, sample, and test material and production of concrete as required by the City Engineer. When it appears that any material furnished or work performed by the Contractor fails to fulfill specification requirements, the testing agency shall report such deficiency to the City Engineer and the Contractor. ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-236 The concrete testing agency shall report all test and inspection results to the City Engineer and Contractor immediately after they are performed. All test reports shall include the exact location of the work at which the batch represented by a test was deposited. The report of the strength test shall include detailed information on storage and curing of specimen prior to testing, the project number, and the location of the concrete (curb, manhole, inlet, sidewalk, paving, etc.). The concrete testing agency or its representative is not authorized to revoke, alter, relax, expand or release any requirements of these STANDARDS AND SPECIFICATIONS, nor to approve or accept any portion of the work. 826.00 Tests Provided by the Developer The Developer shall provide the concrete testing agency with the following: A. Any labor necessary to assist the designated concrete testing agency in obtaining and handling samples at the project or from other sources of material. B. Provide and maintain for the sole use of the concrete testing agency adequate facilities for safe storage and proper curing of concrete test specimens on the project site as required by AASHTO T23. The use of concrete testing services shall not relieve the Contractor of the responsibility to furnish material and construct in full compliance with these STANDARDS AND SPECIFICATIONS. In the case of questionable concrete materials or work, the City Engineer may direct that core tests be taken on all questionable concrete placements, at the Contractor’s expense. If the concrete shows inadequate strength or other deficiencies, it shall be removed and replaced at the Contractor’s expense. If any core shows a deficiency of thickness greater than one-half inch, exploratory cores shall be taken in increments as dictated by the City Engineer, and all concrete deficient by more than one-half inch shall be removed and replaced at the Contractor’s expense. The following services shall be performed by the designated concrete testing agency at the expense of the Developer: A. Conduct strength test of the concrete during construction in accordance with the following procedure: Secure composite samples in accordance with AASHTO T141. Mold and cure specimens from each sample in accordance with AASHTO T23. The maximum time between sampling and casting the cylinders or beams shall be fifteen (15) minutes. If cylinders or beams cannot be returned to the laboratory and cast within the forty-five (45) minutes, they shall be cast in the field and transported to the laboratory in twelve (12) to twenty-four (24) hours. One field cured test series and one lab cured test series shall be taken in the first fifty (50) cubic yards (or fraction thereof) of the concrete placed per day, and one field cured test series and one lab cured test series shall be taken fifty (50) cubic yards after that. One field cured test series and one lab cured ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-237 test series shall continue to be taken every one-hundred (100) cubic yards until the end of the work day. Special projects may require more frequent testing, as directed by the City Engineer. 1. Field cured test series (if required by the City Engineer): Four cylinders; two to be broken at seven days; two to be broken at fourteen (l4) days or as directed by the City Engineer. 2. Lab cured test series: Six cylinders; Two to be broken at seven days; two to be broken at twenty- eight (28) days*; two to be broken at forty-five days. *If the specified strength is not obtained at twenty-eight (28) days, two cylinders shall be broken at forty-five (45) days. B. Determine slump of the concrete sample of each strength test whenever consistency of concrete appears to vary, or when directed by the City Engineer, in accordance with AASHTO T119. C. Determine air content of the concrete sample for each strength test in accordance with either AASHTO T152 (pressure method), T196 (volumetric method), or T121 (gravimetric method). D. Sample additional concrete at point of placement, and perform other testing or inspection services as required. E. The Developer or Contractor shall provide two copies of all concrete strength test results to the City Engineer. F. The Developer or Contractor shall provide additional testing and inspection required due to changes in materials or proportions or irregularities in specified procedures. G. When the work fails to pass inspection or previous tests fail to meet specifications, additional tests shall be taken as directed by the City Engineer. H. Core samples shall be obtained and tested when samples of fresh concrete were not obtained and tested in accordance with the provisions of these STANDARDS AND SPECIFICATIONS. Obtaining and testing cores shall comply with ASTM C42. Concrete in the area represented by a core test shall be considered adequate if the average strength of the cores is equal to at least eighty-five (85) percent of the specified strength and if no single core is less than seventy-five (75) percent of the specified strength. Core holes shall be filled with low slump concrete or mortar. Cores may be tested in the dry condition in accordance with ACI 301. I. Failure of the Contractor to furnish testing as herein described shall be sufficient cause for rejection of the work in question. 830.00 CONCRETE CONSTRUCTION 831.00 Placing Concrete Before placing concrete, debris shall be removed from the space to be occupied by the concrete. The forms and all concrete surfaces shall be thoroughly wetted. The concrete shall be placed on ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-238 damp but not wet or muddy subgrade. Concrete shall be placed and compacted so that it is free from honeycomb and free from pockets of segregated aggregate. Sections of segregation or honeycomb revealed by removal of the forms shall be removed and replaced or otherwise repaired as approved by the City Engineer. Concrete shall not be placed until all forms and reinforcing steel have been inspected and approved by the Broomfield Inspector/Representative. Concrete shall be handled from the mixer to the place of final deposit as rapidly as possible by methods that prevent separation or loss of ingredients. The concrete shall be deposited in the forms as close as practicable in its final position to avoid re-handling. It shall be deposited in continuous layers, the thickness of which generally shall not exceed twelve (12) inches. Concrete shall be placed in a manner to avoid segregation and shall not be dropped freely more than five feet. If segregation occurs, the Broomfield Inspector/Representative may require the concrete to be removed and replaced at the Contractor's expense. Concrete shall be placed in one continuous operation, except where keyed construction joints are shown on the plans or as approved by the City Engineer. Delays in excess of thirty (30) minutes may require removal and replacement of concrete by the City Engineer. At the end of the work day, or in case of an unavoidable interruption of more than thirty (30) minutes, a transverse construction joint shall be placed at the point of stopping work, provided that the section on which work has been suspended shall not be less than five feet long. Sections less than five feet in length shall be removed. Concrete shall not be placed when the weather is stormy, dusty, or inclement to a degree that precludes good workmanship. 831.01 Vibrating All concrete shall be compacted by internal vibration using mechanical vibrating equipment. Concrete in floor slabs, sidewalks, or curb and gutter which is not placed against form linings shall be either tamped or vibrated. Care shall be taken to vibrate only long enough to bring a continuous film of mortar to the surface. Vibration shall stop before any segregation of the concrete occurs. Mechanical vibrators shall be an approved type as specified in ACI 309, Chapter 5. Vibrators shall not be used to move or spread the concrete. Any evidence of lack of consolidation or over-consolidation shall be regarded as sufficient reason to require removal and replacement of concrete at the Contractor's expense. The Contractor shall be responsible for any defects in the quality and appearance of the concrete. 831.02 Workability The consistency of concrete shall be kept uniform and shall be checked by means of certified slump tests. The workability of the concrete shall be varied as directed by the City Engineer. At all times concrete shall have a consistency such that it can be worked into corners and angles of the forms and around joints, dowels and tie-bars by the construction methods which are being used without excessive spading, segregation or undue accumulation of water or laitance on the surface. If, concrete fails to conform to the proportions of the approved mix design for any reason, such concrete shall not be incorporated in the work but shall be discarded from the ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-239 project site as waste material at the Contractor's expense. NO WATER MAY BE ADDED AT THE JOB SITE WITHOUT PERMISSION OF THE CITY ENGINEER. If approval is obtained and water is added at the job site, slump tests shall be performed and test cylinders cast at the Contractor’s expense. 831.03 Installation of Colored Patterned Concrete Special concrete mix with integral color shall be placed and screeded to the proper grade, and floated to a uniform surface in the normal manner for slabs on grade. Color hardener shall be applied evenly to the plastic surface by the dry shake method using a minimum of sixty (60) pounds per one hundred (100) square feet. Color hardener shall be applied in two or more shakes, floated after each, and troweled only after the final floating. While the concrete is still plastic, the imprinting tools shall be applied to make the desired patterned surface. The pattern shall be matched at imprint edges and joints. Color curing compound, thinned in the proportion of one part curing compound to one part mineral spirits (paint thinner), shall be applied uniformly with a roller or sprayer. The coverage shall be approximately six hundred (600) to six hundred fifty (650) square feet per gallon of unthinned curing compound. At times when the air temperature is at or near freezing, the slab shall be cured using suitable curing blankets. The slab shall later be sealed with the color curing compound when the air temperature is above freezing. Use of blankets and/or heaters may be necessary to maintain the concrete at or above fifty (50) degrees F for three days after placement. The cured surface shall be cleaned to remove any residual materials. 831.04 Weather Limitations 831.04.01 Cold Weather Concreting During extreme weather conditions, placement of concrete shall be allowed only when the temperature of the concrete placed in the forms is between 60 degrees F and 90 degrees F. Cold weather placement of concrete shall comply with ACI 306. Concrete may be placed when the air temperature in the shade is 40 degrees F AND RISING. No concrete shall be placed, regardless of the present temperature, when the weather forecast predicts freezing weather before final set of the concrete unless special means of heating and protection are used. Protection against freezing is the Contractor's responsibility regardless of the weather forecast or climatic conditions at the time of placement. Small structures and slabs shall be protected by completely covering fresh concrete with suitable curing blankets to prevent freezing. Large structures and vertical walls shall be protected against freezing by enclosing the structure with heating devices capable of providing uniform and even heat throughout the structure. Heaters shall be vented so that combustion gases are exhausted outside the enclosure in order to avoid carbonation of the fresh concrete. ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-240 Cold weather is defined as a period when, for more than three consecutive days, the following conditions exist: A. The average air temperature is less than 40 degrees F. B. The air temperature is not greater than 50 degrees F for more than one half of any 24-hr. period. Concrete placed in cold weather shall be protected from extreme temperatures as follows: A. A temperature of at least 50 degrees F for the first seventy-two (72) hours shall be maintained. B. After the first seventy-two (72) hours and until the concrete is seven days old, it shall be protected from freezing temperatures. C. Concrete adjacent to heating devices shall be insulated from direct heat of the unit that may dry it out prior to being properly cured. D. Temperatures shall be measured by maximum and minimum thermometers furnished by the Contractor and installed adjacent to the concrete. Concrete slabs shall not be placed, regardless of temperature conditions, if the supporting ground is frozen or contains frost. Use of salt or other additives to prevent concrete from freezing is not allowed. Concrete which has been frozen shall be removed and replaced as required by the City Engineer. MINIMUM CONCRETE PLACEMENT TEMPERATURE Air Temperature Section Thickness, Minimum Dimension (inches) < 12 in. 12-36 in. Above 30°F 60°F 55°F 0°F-30°F 65°F 60°F Below 0°F 70°F 65°F Minimum Concrete Curing Temperature 55°F 50°F MINIMUM EXPOSURE TEMPERATURE FOR CONCRETE FLATWORK (FOR PORTLAND CEMENT CONCRETE = 500 lb./CY) Slab Thickness (inches) Minimum Ambient Air Temperature Allowable For Values of Thermal Resistance hr*ft*F/BTU R=2 R=4 R=6 4 8 12 42°F 36°F 30°F 18 30°F 12°F -6°F 24 21°F -5°F -31°F > 50°F. Additional heat required. ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-241 831.04.02 Hot Weather Concreting Except by written authorization, concrete shall not be placed if the temperature of the plastic concrete cannot be maintained at 90 degrees F or lower. Placement of concrete in hot weather shall comply with ACI 305. 832.00 Concrete Pavement and Flatwork The installation of Portland cement concrete pavement, including materials, equipment, foundation and construction methods shall comply with Section 412 of the CDOT Standard Specifications for Road and Bridge Construction and these STANDARDS AND SPECIFICATIONS. Concrete pavements shall be installed as shown on the approved plans or as approved by the City Engineer. The Contractor shall furnish steel pins to use in setting grades for concrete pavement. The subgrade shall conform to the specified cross section. Immediately prior to placing concrete, the subgrade shall be tested for adequate compaction and moisture to a minimum depth of six inches or as specified in the approved Geotechnical Report. Concrete shall not be placed on any portion of the subgrade that has not been inspected by a Broomfield Inspector/Representative. There shall be no puddles or pockets of mud when the concrete is placed, and the subgrade shall be cleared of any loose material. Curb, curb ramps, gutter, sidewalk, cross pan, and driveway construction shall conform to all applicable provisions of these STANDARDS AND SPECIFICATIONS and the Detail Drawings. 832.01 Portland Cement Treated Base In those instances where deemed necessary by the project Soils Engineer and approved by the City Engineer, Portland cement treated base may be required. 832.02 Curb and Gutter The section to be constructed shall be as identified on the approved plans and as shown on the Detail Drawings of these STANDARDS AND SPECIFICATIONS. 832.03 Sidewalks Detached sidewalks shall be a minimum of four inches thick and attached sidewalks shall be a minimum of six inches thick, and shall be constructed as shown on the approved plans. Areas of sidewalk crossed by driveways or in parks, open spaces or greenbelts shall be constructed with a minimum of six inch thick concrete. ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-242 832.04 Crosspans and Curb Return Fillets Crosspans and curb return fillets shall be constructed twelve (12) inches thick or eight inches thick one-half inch reinforcing steel bars placed at eighteen (18) inch centers (each way) in residential, commercial and industrial areas. Typical crosspan sections are shown in the Detail Drawings. Where unusual conditions exist, additional reinforcing steel and special joints may be required by the City Engineer. 832.05 Curb Cuts and Driveways Curb cuts in six inch vertical curbs shall be constructed at all driveway locations and at additional locations, as shown on the approved plans and in the Detail Drawings. 832.06 Curb Ramps Curb ramps shall be installed at locations designated by the City Traffic Engineer and as shown on the approved plans. Curb ramps shall be constructed with slopes, landings, and detectable warnings (truncated domes) as shown in the Detail Drawings. Specific installation details shall be per the manufacturer. The following materials may be used for truncated domes: A. Fiber reinforced polymer tiles. B. Cast iron tiles. C. Preformed cementitious tiles D. Thermoplastic tiles The actual truncated dome material to be installed for a specific project or location shall be designated by the City Engineer." 832.07 Joints Joint materials shall comply with the following specifications: Concrete joint sealer, hot-poured elastic M173 Preformed expansion joint filler (Bituminous Type) M33 Preformed sponge rubber and cork expansion joint fillers M153 Preformed expansion joint fillers (fiber board) M213 Non-bituminous type materials shall be placed in widths shown on the approved plans or three- inch wide when not specified. Bituminous type materials shall be used for concrete paving and structural construction where joint sealers are not required. All joints shall be constructed straight and plumb and shall extend through the entire section from edge to back and to the depths specified. ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-243 832.07.01 Expansion Joints Expansion joint material shall be provided at the following locations and shall be in place prior to placement of concrete: A. Each end of curb return B. Between back of sidewalk and driveway slab or service walk C. Between new concrete and existing masonry buildings D. As shown on the approved plans E. As directed by the City Engineer Reinforcing steel bars 18” long minimum) shall be used to tie together new and existing concrete pavements and flatwork. Refer to the Detail Drawings for expansion joints. Expansion joint filler, which is one-half inch thick, preformed, non-extruding bituminous- treated fiber board conforming to AASHTO Specification M-213, shall be used to form transverse expansion joints. Concrete tie-ins shall have reinforcing steel bars minimum) extending a minimum of twelve (12) inches into the concrete in each direction. Expansion joints shall be constructed at each tangent point of the curb radius, at each end of valley gutters, at approximately one hundred fifty (150) foot intervals on tangent, or at other points as directed by the City Engineer. Expansion joints shall be formed at the contact of the new construction with concrete driveways, intersecting sidewalks, or other unyielding structures unless otherwise directed by the Broomfield Inspector/Representative. 832.07.02 Contraction Joints Transverse joints shall be placed at maximum intervals of ten (10) feet to control random cracking. Joints shall be formed, sawed, or tooled to a minimum depth of one-third of the total thickness of the pavement or flatwork (no less than two inches). If divider plates are used, the maximum depth of plates shall not be greater than one-half depth at the finished surface and shall be no less than fifteen-sixteenths (5/16) inch thick. Refer to the Detail Drawings for contraction joint details. The curb and gutter or sidewalk shall be divided into blocks not less than five feet or more than ten (10) feet long using metal templates not less than one-sixteenth (1/16) inch or more than one-quarter inch thick. Templates shall be a minimum of four inches deep. Templates shall be designed to attach securely to the forms in such a manner as to prevent movement while the concrete is being placed and consolidated. Templates shall be removed prior to the concrete taking its initial set. If a curbing machine or other method not requiring the use of templates is approved, dummy joints formed by a jointing tool or other approved means shall be used. Dummy joints shall extend into the concrete for at least one-third of the depth (no less than two inches) and shall be approximately one-eighth inch wide. ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-244 832.07.03 Tooled Joints Tooled joints shall be spaced as follows: A. Not more than ten (10) feet or less than five feet apart in curb and gutter, sidewalk, and combination curb-walk B. Joints in both directions, equally spaced at not greater than ten (10) foot intervals, as applicable in driveways C. As directed by the City Engineer 832.08 Ponding Ponding of water in concrete pavement and flatwork shall not exceed one-eighth inch in depth. Where ponding exceeds one-eighth inch in depth, pavement or flatwork shall be removed and replaced at the Contractor’s expense. 833.00 Appurtenant Concrete Structures 833.01 Forms Refer to Section 824.02 Forms and Form Setting of these STANDARDS AND SPECIFICATIONS for requirements for appurtenant concrete structures 833.02 Concrete Placement Refer to Section 831.00 Placing Concrete of these STANDARDS AND SPECIFICATIONS for requirements for appurtenant concrete structures. 833.03 Expansion Joints Expansion joint filler, which is one-half inch thick, preformed, non-extruding bituminous- treated fiber board conforming to AASHTO Specification M-213, shall be used to form transverse expansion joints. Concrete tie-ins shall have reinforcing steel bars minimum) extending a minimum of twelve (12) inches into the concrete in each direction. 833.04 Curing Curing shall comply with Section 838.00 Finishing, Curing and Protection of these STANDARDS AND SPECIFICATIONS. 834.00 Cleanup The exposed surfaces of concrete shall be thoroughly cleaned upon completion of the work. ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-245 WITHIN FORTY-EIGHT (48) HOURS AFTER FORMS ARE REMOVED, THE AREA BEHIND THE SIDEWALK OR CURB SHALL BE CLEANED, BACKFILLED AND GRADED TO PROVIDE A SMOOTH EVEN SURFACE. 835.00 Backfill of Concrete Work When forms are removed and the concrete has gained sufficient strength, the space adjoining the concrete shall be backfilled with suitable material, properly compacted, and brought flush with the surface of the concrete and adjoining ground surface. In embankments, the backfill shall be level with the top of the concrete for at least two feet and then sloped as shown on the approved plans or as directed by the City Engineer. 836.00 Protection Against Vandalism It shall be the responsibility of the Contractor to protect all concrete work against damage or vandalism. When required, a guard shall be stationed over fresh work until the concrete is sufficiently set to prevent damage at the Contractor’s expense. Concrete damaged in any way by vandals shall be removed and replaced at the Contractor's expense. Anti-graffiti materials shall be installed as shown on the approved plans or as required by the City Engineer. Prior to installation, technical information regarding proposed anti-graffiti materials shall be submitted to the City Engineer for approval. 837.00 Repairs After stripping concrete forms, any concrete found to be inconsistent with the approved plans, is out of alignment, not level, or showing a defective surface shall be removed and replaced at the Contractor’s expense as directed by the City Engineer. The City Engineer may give written permission to patch the defective area. Ridges and bulges may be removed by grinding if approved by the City Engineer. Honeycombed and other defective concrete that does not affect the integrity of the structure may be chipped out and the vacated areas filled if approved by the City Engineer. The repaired area shall be patched with a non-shrink, non-metallic grout with a minimum compressive strength of five thousand (5,000) psi in twenty-eight (28) days. All repair areas treated with an epoxy-bonding agent shall have the approval of the City Engineer before the repair filling is placed. 837.01 Flatwork Repairs and Replacement All edges of the existing flatwork to remain shall be saw cut. Flatwork repairs and replacement shall be as directed by the City Engineer and at the Contractor’s expense 837.02 Concrete Structure Repairs Bolt-holes, tie-rod holes, and minor imperfections as approved by the City Engineer, shall be filled with dry-patching mortar composed of approximately one part Portland cement to two ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-246 parts of regular concrete sand (volume measurement) and only enough water so that after the ingredients are mixed thoroughly, the mortar sticks together when molded. Mortar repairs shall be placed in layers and thoroughly compacted by suitable tools. Care shall be taken in filling rod and bolt holes so that the entire depth of the hole is completely filled with compacted mortar. 838.00 Finishing, Curing and Protection 838.01 Finishing Where applicable, finishing shall be performed with a metal screed designed to give proper shape to the section as detailed. Particular care shall be used to finish the gutter flowline to a true uniform grade. Face forms shall be left in place until the concrete has hardened sufficiently so that they can be removed without injury to the curb. The Contractor shall use at all times, a ten (10) foot straightedge for finishing curb and gutter sections. Irregularities shall be corrected by adding or removing concrete. All disturbed places shall be floated with a wooden or metal float that is not less than three feet long and not less than six inches wide, and screeded. No water or cement shall be added to the surface of the concrete to aid in finishing. Edges of the concrete and joints shall be carefully finished with an edger having a one-eighth inch inch radius prior to the concrete reaching initial set. Concrete shall be finally finished with a wood float and broomed to a roughened surface. On grades less than one percent, the Contractor shall check for depressions before final finish so that no ponding exists. Exposed faces of curbs and sidewalks shall be finished to the line and grade shown on the plans. Surface shall be floated to a smooth but not slippery finish. Sidewalk and curb shall be broomed or combed and edged, unless otherwise indicated by the City Engineer. After completion of brooming and before concrete has initial set, all edges in contact with the forms shall be tooled with an edger having a inch radius. No dusting or topping of the surface or sprinkling with water to facilitate finishing shall be permitted. Immediately following the removal of forms, all fins and irregular projections shall be removed from all surfaces except from those which are not to be exposed or are not to be waterproofed. On all surfaces, the cavities produced by form ties, honeycomb spots, broken corners or edges, and other defects, shall be thoroughly cleaned, moistened with water and carefully pointed and trued with a mortar consisting of cement and fine aggregate. The surface shall be left sound, smooth, even, and uniform in color. Mortar used in pointing shall not be more than thirty (30) minutes old. All construction and expansion joints in the completed work shall be left carefully tooled and free of all mortar and concrete. The joint filler shall be left exposed for its full length with clean and true edges. 838.02 Curing and Protection Fresh concrete shall be adequately protected from weather damage and mechanical injury during the curing periods. Curing processes described herein may be used at the option of the City ---PAGE BREAK--- CONCRETE MIX DESIGN AND CONSTRUCTION SECTION 800 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 800-247 Engineer. The selected curing process shall be started as soon as it can be performed without injury to the concrete surface. The use of a membrane-curing compound is recommended. The following curing procedures may be used subject to the approval of the City Engineer: A. Ponding (for slabs or footings) B. Spraying C. Wet burlap, earth, or cotton mats D. Waterproof paper or polyethylene plastic cover Membrane curing compound shall not be used when the concrete surface shall be painted. The membrane curing compound shall not permanently discolor the concrete surface. Where membrane curing compound is not used, the curing process shall be as follows: A. Surfaces being wetted by ponding, spraying, or wetted material shall be kept completely wetted, with an excess of free water on the surface, at all times for the first seventy-two (72) hours. After this period, but for the remaining four days, a wetting schedule shall be followed whereby the concrete is wetted on a schedule approved by the City Engineer. B. Surfaces being protected by waterproof paper or polyethylene plastic cover shall receive special attention during the first seventy-two (72) hours to insure there is actually free moisture on the surface of the concrete under the waterproof surface. The City Engineer may require the removal of the cover and a wetting of the surface when, in his judgment, there is insufficient moisture for curing. After the first seventy-two (72) hours the cover shall be kept in place for the remainder of the curing period. ---PAGE BREAK--- ORIGINAL SIGNED DRAWINGS ARE ON FILE AT THE CITY & COUNTY OF BROOMFIELD!!! ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION SECTION 900 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 900-248 SECTION 900 HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION 901.00 GENERAL CONDITIONS 910.00 920.00 ASPHALT PAVEMENT MIX 921.00 Asphalt Mix Design 250 922.00 Asphalt Sampling and 253 930.00 ASPHALT PAVEMENT 931.00 Roadway Inspections 253 932.00 Delivered Mix 254 933.00 Weather 254 934.00 Construction of Pavement Sections 255 934.01 Base Course Composite 255 934.02 Lime Stabilized Composite Sections 256 934.03 Full Depth Asphalt Sections 256 934.04 256 934.05 Prime Coat 256 934.06 Asphalt 256 934.07 Tack 257 934.08 Seal 257 934.09 Rejuvenating Agent 257 935.00 Trench Cuts and Exploratory Pothole/Core Repair 257 935.01 Trench 257 935.02 Exploratory Pothole/Core 257 936.00 Heating and Scarifying 258 937.00 Pavement Deflection 258 938.00 259 939.00 Acceptance of Public 259 DETAIL DRAWINGS – SECTION 900 900-1 Composite Pavement Section 900-2 Final Overlay 900-3 Utility Trench Patch ---PAGE BREAK--- HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION SECTION 900 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 900-249 900-4 Pavement Replacement ---PAGE BREAK--- HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION SECTION 900 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 900-250 SECTION 900 HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION 901.00 GENERAL CONDITIONS Refer to Section 100 TITLE, SCOPE AND GENERAL CONDITIONS of these STANDARDS AND SPECIFICATIONS for additional requirements that apply to all projects within Broomfield. 910.00 SCOPE The intent of this section is to specify materials and methods to be used for the construction, overlaying, seal coating and pavement rejuvenating of streets, parking lots, and other miscellaneous work requiring the use of hot bituminous pavement (asphalt). This section shall cover work associated with aggregate base course, bituminous base and pavements of the plant mix type, bituminous prime coat, bituminous tack coat, rejuvenating applications and asphalt overlays. All workmanship and materials shall comply with these STANDARDS AND SPECIFICATIONS and shall conform to the lines, grades, depths, quantities and the typical pavement cross section(s) shown on the approved plans or as directed by the City Engineer. 920.00 ASPHALT PAVEMENT MIX DESIGN 921.00 Asphalt Mix Design Properties All pavement shall be asphalt of the plant hot mix type unless otherwise approved in writing by the City Engineer. Materials and construction shall comply with Section 403 of the CDOT Standard Specifications for Road and Bridge Construction, and have the following requirements: A. The asphalt cement shall be a Superpave Performance Graded (PG) binder of PG 76-28 or PG 64-22. The asphalt cement content shall be as determined by the mix design. The mix design shall be determined using SHRP (Strategic Highway Research Program) and Colorado Procedure CP-L 5115 for the Superpave Method of Mixture Design. Superpave PG asphalt binders shall comply with Table 702-2 Superpave Performance Graded Binders of the CDOT Standard Specifications for Road and Bridge Construction. The asphalt contractor shall furnish certified test results from an independent asphalt testing laboratory to show compliance of the proposed Superpave PG asphalt binder with the Superpave requirements for that mix. The gradation of the mineral aggregate shall be grading SG (1½ inch nominal), S (¾ inch nominal), or both SG and S (in varying lifts) for new street construction. In no case shall grading SG be used for a permanent final lift of asphalt; however, the City Engineer may require the use of grading SG in a pavement section. GRADING SX (½ inch NOMINAL) SHALL BE USED FOR THE PERMANENT FINAL LIFT OR OVERLAY OF ALL ASPHALT, UNLESS ---PAGE BREAK--- HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION SECTION 900 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 900-251 APPROVED BY THE CITY ENGINEER. The minimum SX lift thickness shall be one and one-half (1½) inches. Aggregate gradation shall be in accordance with Table 703-3 of the CDOT Standard Specifications for Road and Bridge Construction. Streets with a low EDLA ≤40 shall contain a minimum of seventy (70) percent aggregate with two mechanically induced fractured faces. Streets with a high EDLA ≥40 shall contain a minimum of eighty (80) percent aggregate with two mechanically induced fractured faces. B. All mixes shall contain a maximum of twenty (20) percent native sands. C. All mixes shall contain a one percent hydrated lime anti-stripping admixture. D. A maximum of twenty (20) percent Reclaimed Asphalt Pavement (RAP) shall be allowed in non-polymer and non-rubberized mixes, provided that all the requirements for asphalt pavement are met. RAP SHALL NOT BE ALLOWED IN POLYMER MODIFIED MIXES OR IN THE PERMANENT FINAL LIFT OF ASPHALT. E. The asphalt mix design shall comply with the SUPERPAVE MIX DESIGN PROPERTIES and MINIMUM VOIDS IN THE MINERAL AGGREGATE (VMA) REQUIREMENTS tables that follow. A copy of the mix formula shall be submitted to the City Engineer for review and approval at least seven days prior to starting paving work. In the event that a current job mix formula is not available for the materials proposed for use, the Contractor shall submit a job mix formula prepared by a recognized testing laboratory for review and approval by the City Engineer. A report giving the properties of the materials and certifying their conformance to or deviations from the requirements of the specifications shall accompany the job mix formula. NON-SUPERPAVE MIXES MAY BE APPROVED AT THE DISCRETION OF THE CITY ENGINEER. Viscosity graded asphalt cements may be permitted at the discretion of the City Engineer and shall adhere to the requirements of AASHTO M226, Table 2. All asphalt pavement mix designs shall comply with the following properties: - This space intentionally left blank – ---PAGE BREAK--- HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION SECTION 900 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 900-252 SUPERPAVE MIX DESIGN PROPERTIES MINIMUM VOIDS IN THE MINERAL AGGREGATE (VMA) REQUIREMENTS Determination of the effect of water on the cohesion of the bituminous mixture shall be made in accordance with AASHTO T-283 (Lottman). Retained strength shall be a minimum of eighty (80) percent. The use of a one percent hydrated lime anti-stripping admixture to improve the retained strength characteristics shall be required. Roadway Classification Residential (Parking Lot) Minor Connector Major Connector Minor Arterial Major Arterial Major Arterial Commercial/ Industrial Traffic Level 1 2 3 3 4 5 5 Traffic Loading (Total 18 kip ESALS over 20 yr design life) less than 300,000 300,000 to 1,000,000 1,000,000 to 3,000,000 1,000,000 to 3,000,000 3.0 to 10.0 million >10.0 million >10.0 million Design Gyrations (Ndesign) 75 75 75 75 100 100 100 Max Gyrations 104 117 134 134 152 174 174 Hveem Stability 28 28 28 28 30 30 30 Voids filled with asphalt, % 65-80 65-80 65-80 65-80 65-75 65-75 65-75 Lottman, Tensile Strength Ratio, % 80 min. 80 min. 80 min. 80 min. 80 min. 80 min. 80 min. Lottman, Dry Tensile Strength, Min. psi 30 min. 30 min. 30 min. 30 min. 30 min. 30 min. 30 min. NOTES: 1) Air Void of production mixes to be within one percent of design mix Air Void at optimum Asphalt Content. Air Void determination for Ndesign shall be made from samples compacted at Ndesign. Maximum Theoretical Specific Gravity of mix to be by Colorado Procedure CP-51 for the Superpave Method of Mixture Design. 2) Further investigation or corrective action is required when production stability is below the mix design stability. Design Air Voids of Total Mix² Nominal Maximum Size, in (mm)¹ 3.50% 4.00% 4.0 - 5.0% 1½ (37.5) 11.5 12.0 12.5 1(25.0) 12.5 13.0 13.5 ¾(19.0) 13.5 14.0 14.5 ½(12.5) 14.5 15.0 15.5 ⅜(9.5) 15.5 16.0 16.5 ¹ The Nominal Maximum size is defined as one size larger than the first sieve to retain more than ten (10) percent. ²Interpolate specified VMA values for design air voids between those listed. ---PAGE BREAK--- HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION SECTION 900 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 900-253 922.00 Asphalt Sampling and Testing Asphalt pavement and asphalt cement sampling and testing shall be performed at the discretion of the City Engineer. At a minimum, a representative asphalt pavement sample shall be taken from the first one-thousand (1,000) tons, and all mix properties shall be verified. On major arterials, the percent voids filled with asphalt cement, Hveem stability, and Lottman shall be verified at a minimum of every ten-thousand (10,000) tons. All testing necessary to assure conformance of materials and workmanship to the specifications shall be at the Contractor's expense. Asphalt testing shall comply with ASTM D1559. Two copies of all test reports shall be submitted directly to the City Engineer. At any time during construction and/or the warranty period, the City Engineer may require a Colorado Registered Professional Engineer to certify the quality of materials or construction procedures, at the Contractor’s expense. All commercial testing and laboratory work necessary to establish the job mix formula and to ensure conformance of materials and workmanship shall be by recognized methods and as specified in these STANDARDS AND SPECIFICATIONS. Two copies of all test reports shall be submitted to the City Engineer. 930.00 ASPHALT PAVEMENT CONSTRUCTION 931.00 Roadway Inspections Refer to Section 154.00 Inspections of these STANDARDS AND SPECIFICATIONS. Adequate roadway inspections assure compliance to Broomfield requirements and are the basis for Broomfield’s recommendation that roadway improvements be accepted for maintenance and/or release of the performance guarantee. It is the responsibility of the Contractor to contact the City Engineer a minimum of one full working day (twenty-four [24] hours) in advance of the required inspections. Required roadway inspections shall include: A. Utilities and Culverts – All utility pipes, conduits and culverts have been installed in accordance with the approved plans and these STANDARDS AND SPECIFICATIONS. B. Curb and Gutter, Sidewalks and Crosspans – Verify that all concrete improvements have been installed in accordance with the approved plans and these STANDARDS AND SPECIFICATIONS. C. Structures – Verify that all structures have been installed in accordance with the approved plans and these STANDARDS AND SPECIFICATIONS. D. Subgrade/Base Course – Verify that the surface proposed to be built upon meets all requirements including, but not limited to, depth of treatment, type of treatment, moisture content, compaction and an approved proof-roll. E. Paving and Testing – Verify that mix design and submittals are approved and comply with these STANDARDS AND SPECIFICATIONS. Verify that minimum air and asphalt temperatures adhere to these STANDARDS AND SPECIFICATIONS. In the case of wind, cold temperatures or threatening weather, trucks hauling asphalt shall have a “weather-proof” tarp. The beds of ---PAGE BREAK--- HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION SECTION 900 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 900-254 trucks hauling asphalt shall be clean, and the asphalt shall be free of debris. Verify that thickness of asphalt pavement, rolling equipment and patterns, and grade of utility castings comply with the approved plans and these STANDARDS AND SPECIFICATIONS. F. Construction Acceptance – Refer to Section 200 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. General items include: 1. Remove and replace areas of failing asphalt. Subgrade failures shall be corrected before placing asphalt. Heating and scarifying and/or grinding and overlaying areas of failing asphalt, in accordance with these STANDARDS AND SPECIFICATIONS, may be required by the City Engineer. 2. Remove and replace areas that have ponding water. G. Final Acceptance – Refer to Section 200 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. General items include: 1. Remove and replace areas of failing asphalt. Subgrade failures shall be corrected before placing asphalt. 2. The final top lift or overlay of asphalt thickness (one and one-half (1½) inches minimum) shall be in accordance with the Pavement Deflection Testing Report or as specified in the contract documents. All areas to receive a final top lift or an overlay of asphalt shall be cleaned and prepared, including, but not limited to: a. All lips of gutters, inlets, and crosspans shall have concrete exposed to a depth equal to the thickness of the final top lift or overlay of asphalt. b. All joints shall be straight (vertical) and shall have a minimum of one and one-half (1½) inches of elevation difference. This is to ensure that an asphalt mat of consistent thickness is installed from edge of gutter to edge of gutter. c. All weeds shall be cut, and debris, mud, and waste materials removed. d. Before paving, tack coat shall be applied to the area(s) that are to receive a final top lift or overlay of asphalt, including exposed concrete faces and utility castings. 932.00 Delivered Mix Temperature The asphalt mix discharge temperature from the plant mixer shall be between 320ºF and 350ºF for PG 76-28 binders and between 290ºF and 320ºF for PG 64-22 binders. The minimum delivered mix temperature, measured behind the paver screed, shall be 280ºF for PG 76-28 binders and 235ºF for PG 64-22 binders. The minimum rolling (initial compaction) temperature shall be 185° F. 933.00 Weather Limitations Asphalt shall be placed only on properly constructed subgrade and interim lifts that are free from water, snow, and ice. The asphalt shall be placed only when weather conditions permit the ---PAGE BREAK--- HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION SECTION 900 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 900-255 pavement to be properly placed and finished as determined by the City Engineer. Asphalt pavement mixtures shall be placed in accordance with the following temperature limitations: Compacted Layer Thickness (Inches) Minimum Air and Surface Temp. (Degrees F and rising) Top Layer Other Layers 1½ or less 60 50 >1½ to 3 50 40 3 to 4 35 Air temperature shall be taken in the shade. Surface is defined as the existing base on which the new pavement is to be placed. The City Engineer may waive minimum temperature requirements for placing prime coats and layers of asphalt below the top layer of the pavement section. THE FINAL TOP LIFT OR OVERLAY OF ASPHALT SHALL NOT BE PLACED BETWEEN OCTOBER 1ST AND APRIL 1ST, UNLESS APPROVED BY THE CITY ENGINEER. 934.00 Construction of Pavement Sections in no case shall the compacted asphalt layer thickness be greater than SIX inches FOR SG MIXES, FOUR INCHES FOR S MIXES, AND TWO INCHES FOR sX MIXES. 934.01 Base Course Composite Sections All work shall be observed and tested by the project Soils Engineer or representative and certified by a Colorado Registered Professional Engineer. The standard procedures for base course composite construction include the following: A. The subgrade shall be prepared and conditioned to comply with all specifications. After passing compaction tests, the subgrade shall be proof-rolled in accordance with Section 361.04 Proof-Roll Observation and Testing of these STANDARDS AND SPECIFICATIONS. B. All failing areas shall be delineated by the project Soils Engineer and shall be reworked and retested until passing. C. Upon passing all compaction tests and proof-rolls, geotextile fabric shall be installed on the subgrade if required by the approved pavement design D. Base course (Aggregate Base/Recycled Concrete) shall be placed on the fabric and prepared and conditioned to meet specifications. E. After passing all compaction tests, the base course shall be proof-rolled. F. All failing areas shall be delineated by the project Soils Engineer and shall be reworked and retested until passing. ---PAGE BREAK--- HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION SECTION 900 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 900-256 G. Upon passing all compaction tests and proof-rolls, geotextile fabric shall be installed on the base course, if required by the approved pavement design. H. In the event the subgrade, base course or any step of this process is subject to rain, snow or other factors after the proof-roll has been performed, the project Soils Engineer shall evaluate the areas proposed to be paved and shall and make a recommendation to Broomfield. Paving shall not commence unless approved by Broomfield. 934.02 Lime Stabilized Composite Sections Lime stabilization shall comply with Section 361.03 Lime-Treated Subgrade of these STANDARDS AND SPECIFICATIONS. 934.03 Full Depth Asphalt Sections Subgrade preparation for full depth asphalt sections approved by the City Engineer shall comply with Section 361.00 Subgrade of these STANDARDS AND SPECIFICATIONS. 934.04 Herbicide All subgrade surfaces to be paved shall be treated with an herbicide approved by the City Engineer. 934.05 Prime Coat If required by the City Engineer, subgrade shall be primed to comply with Section 407 of the CDOT Standard Specifications for Road and Bridge Construction. Bituminous material shall be MC-70 applied at the rate of two-tenths (0.20) to thirty-five one-hundredths (0.35) gallons per square yard. 934.06 Asphalt Compaction Asphalt compaction shall comply with Section 401.17 of the CDOT Standard Specifications for Road and Bridge Construction. Asphalt density tests shall be taken every one-hundred fifty (150) linear feet per driving lane, per lift. Pavement test sections may be required by the City Engineer. Densities shall be between ninety-two (92) percent and ninety-six (96) percent of the Rice unit weight as determined by an independent asphalt testing laboratory. Other methods of determining unit weight are subject to approval by the City Engineer. DURING THE FINAL OVERLAY OF ASPHALT, ALL VALVE BOXES AND MANHOLES SHALL BE BROUGHT TO STREET GRADE. THEY SHALL BE BROUGHT TO GRADE USING THE INTERNAL SCREW ADJUSTMENT OR ONE DROP-IN PAVING RING. NO JACK-HAMMERING SHALL BE PERMITTED. ---PAGE BREAK--- HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION SECTION 900 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 900-257 934.07 Tack Coat Tack coat materials and construction shall comply with Section 407 of the CDOT Standard Specifications for Road and Bridge Construction. Bituminous material shall be SS-1 emulsion, diluted by mixing one gallon of SS-1 emulsion with one gallon of clean water, applied at the rate of five one-hundredths (0.05) to fifteen one-hundredths (0.15) gallons per square yard. 934.08 Seal Coat Seal coat materials and construction shall comply with Section 409 of the CDOT Standard Specifications for Road and Bridge Construction. The type of bituminous material, cover aggregate, and rates of application shall be as shown on the approved plans. 934.09 Rejuvenating Agent Rejuvenating agent materials and construction shall comply with Section 407 of the CDOT Standard Specifications for Road and Bridge Construction. 935.00 Trench Cuts and Exploratory Pothole/Core Repair 935.01 Trench Cuts TRENCH CUTS IN STREETS LESS THAN FIVE YEARS OLD SHALL BE ALLOWED AT THE DISCRETION OF THE CITY ENGINEER. SPECIAL REQUIREMENTS APPLY, AS DETERMINED BY THE CITY ENGINEER. Backfill of utility trenches shall comply with Section 350 TRENCHING, BACKFILLING AND COMPACTING of these STANDARDS AND SPECIFICATIONS. Utility trench patches shall be in accordance with the Detail Drawings. 935.02 Exploratory Pothole/Core Repair POTHOLING AND CORING STREETS LESS THAN FIVE YEARS OLD SHALL BE ALLOWED AT THE DISCRETION OF THE CITY ENGINEER. SPECIAL REQUIREMENTS APPLY, AS DETERMINED BY THE CITY ENGINEER. All potholes/cores shall be patched with a temporary patch material immediately after drilling is complete if permanent patch material is not available. Within seventy-two (72) hours of drilling, potholes/cores shall be permanently patched, unless otherwise approved by Broomfield. An area to be patched shall be saw cut or jack hammered to make it symmetrical, and all spoils shall be removed. All asphalt edges shall be cleaned, dried and tacked, and all concrete edges shall be doweled and/or jointed in accordance with these STANDARDS AND SPECIFICATIONS. If base material is disturbed during potholing/coring, it shall be replaced with CDOT “Class 6” base course material, crusher fines, recycled concrete, or other suitable backfill material approved by the City Engineer. Squeegee is not allowed as backfill material. Replacement material shall be compacted to ninety-five (95) percent of Maximum Standard Proctor Density ---PAGE BREAK--- HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION SECTION 900 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 900-258 (ASTM D698 or AASHTO T99), and shall have a moisture content within two percent of the optimum. Asphalt shall not be patched with concrete and vice versa. The asphalt patch mix shall be an approved Superpave SX (½ inch nominal) mix. Asphalt patch and concrete replacement mixes shall comply with and be placed in accordance with these STANDARDS AND SPECIFICATIONS. Potholes/cores in concrete pavement shall be repaired by completely removing and replacing a portion of concrete up to construction joints and/or expansion joints. No concrete patching shall be allowed. Any colored and/or patterned concrete shall be replaced with the existing concrete color and type. No jagged or otherwise uneven patches shall be allowed. 936.00 Heating and Scarifying Heating and scarifying materials and construction shall comply with Section 405 of the CDOT Standard Specifications for Road and Bridge Construction. 937.00 Pavement Deflection Testing Prior to installation of the final asphalt top lift or overlay, the Developer shall furnish the City Engineer with two copies of a Pavement Deflection Testing Report prepared by a Colorado Registered Professional Engineer utilizing non-destructive deflection testing to assess and predict the performance of the pavement. The Colorado Registered Professional Engineer shall have a past history and knowledge in performing these tests. Qualifications of the Colorado Registered Professional Engineer shall be submitted to the City Engineer for approval before the start of work. The pavement evaluation shall be performed in accordance with accepted engineering practices. The report shall generally incorporate the following testing and pavement evaluation techniques: A. Environmental study (frost cycle, drainage, etc.) B. Pavement surface evaluation C. Soil borings in areas of high deflection D. Pavement deflection analysis (Falling Weight Deflectometer, Dynaflex or other method approved by the City Engineer) The report shall evaluate the existing condition of the base and binder course by performance of deflection tests at a minimum of one-hundred (100) foot spacing per traffic lane. The report shall determine the thickness of the final lift of asphalt to ensure that the pavement section shall meet a twenty (20) year or greater pavement life. PAVEMENT DEFLECTION TESTING AND THE FINAL TOP LIFT OR OVERLAY OF ASPHALT SHALL ONLY BE PERFORMED BETWEEN APRIL 1ST AND OCTOBER 1ST, UNLESS PERMISSION IS GRANTED BY THE CITY ENGINEER. ---PAGE BREAK--- HOT BITUMINOUS PAVEMENT (ASPHALT) MIX DESIGN AND CONSTRUCTION SECTION 900 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 900-259 If the pavement section is not projected to meet a twenty (20) year or greater pavement life based on the pavement deflection test results, the report shall detail the deficiencies and associated causes and shall recommend remedial measures to develop a twenty (20) year design life. The City Engineer shall evaluate the report and inform the responsible party of the required pavement operations. The final asphalt top lift or overlay shall have grading SX nominal) asphalt mix, unless otherwise approved by the City Engineer. IN NO CASE SHALL A FINAL TOP LIFT OR OVERLAY OF ASPHALT BE LESS THAN ONE AND ONE-HALF (1½) INCHES THICK, UNLESS APPROVED BY THE CITY ENGINEER. Pavement Deflection Testing is not required for Broomfield Capital Improvement Projects (CIP’s) or street reconstruction, unless otherwise specified in the contract documents. 938.00 Grinding Grinding shall consist of "milling", "grinding", or "cold planing" the existing pavement surface to establish a new surface profile and cross section in preparation for a bituminous overlay. After grinding, the surface shall have a grooved or ridged finish that is uniform and resistant to raveling or traffic displacement. This textured surface shall have grooves of one-quarter inch ± one-eighth inch. Grinding shall consist of milling the existing pavement surface from edge of gutter to edge of gutter to a minimum depth of one and one-half (1½) inches and as required by the Pavement Deflection Testing Report or specified in the contract documents, unless otherwise directed by the City Engineer. Grinding around utility castings shall be to a minimum depth of one and one- half (1½) inches and as required by the Pavement Deflection Testing Report or specified in the contract documents. The Contractor shall remove the cuttings immediately behind the grind machine by belt loader, end loader, power sweeper and/or by hand. The grinding machine shall be equipped with a pressurized watering system for dust control. Flushing into Broomfield's storm drainage system as a means of cleanup shall not be allowed. 939.00 Acceptance of Public Roadways Workmanship shall meet all Broomfield STANDARDS AND SPECIFICATIONS. This includes thickness, crowns, drainage, areas around manholes and service covers, trench settlement and edges against curb and gutter and drain pans. Acceptance of roadways shall comply with Section 200.00 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. Pavement shall not exhibit any distress such as alligator cracking, block cracking, edge cracking, potholes, trench settlement, raveling, heaving, sinking, separation from curb and gutter, patching or ponding at the completion of the warranty period. Ponding of water in asphalt pavement shall not exceed one-eighth inch in depth. Where ponding exceeds one- eighth inch in depth, pavement shall be removed and replaced at the discretion of the City Engineer. ---PAGE BREAK--- ORIGINAL SIGNED DRAWINGS ARE ON FILE AT THE CITY & COUNTY OF BROOMFIELD!!! ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-260 SECTION 1000 PARKS AND RECREATION CONSTRUCTION 1001.00 GENERAL CONDITIONS 1010.00 SITE DESIGN AND 1020.00 TOPSOIL PREPARATION 1021.00 265 1022.00 Materials 266 1022.01 Organic 266 1022.02 Starter Fertilizer 266 1023.00 Process 266 1024.00 Inspections 267 1024.01 Materials 267 1024.02 Soil Preparation 267 1024.03 Tree, Shrub and Perennial 267 1030.00 SEEDING SPECIFICATIONS 1031.00 267 1032.00 Materials 268 1032.01 Topsoil 268 1032.02 Starter Fertilizer 268 1032.03 Bluegrass 268 1032.04 Native Seed 268 1032.05 Top 268 1033.00 Seeding Process 269 1033.01 Bluegrass 269 1033.02 Native 269 1034.00 Intentionally Left 269 1035.00 Maintenance Procedures for 269 1035.01 270 1035.02 Additional 270 1035.03 270 1036.00 Inspections 270 1036.01 Inspection of Seed 270 1036.02 Germination 270 ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-261 1040.00 SODDING SPECIFICATIONS 1041.00 271 1042.00 Materials 271 1042.01 Topsoil 271 1042.02 Starter Fertilizer 271 1042.03 Sod 271 1043.00 Sodding 271 1043.01 Care and Handling 271 1043.02 Transporting Sod On-Site 272 1043.03 Sodding 272 1044.00 272 1045.00 272 1045.01 272 1045.02 Additional 273 1045.03 273 1046.00 Inspections 273 1050.00 LANDSCAPE IRRIGATION SYSTEMS 1051.00 273 1051.01 Turn-over Items 273 1052.00 Materials 274 1052.01 Water License and Tap 274 1052.02 Water 274 1052.03 Water Service Line 274 1052.04 Meter 274 1052.05 Water Meter 274 1052.06 Electrical Service 275 1052.07 Backflow 275 1052.08 Booster 276 1052.09 Pump 276 1052.10 276 1052.11 Master Valves and Zone Valves 276 1052.12 Irrigation Heads 277 1052.13 Field 278 1052.14 Pipe 278 1052.15 Quick Coupler 279 1052.16 Manual Drain Valves 279 1052.17 Isolation Valves 280 1052.18 Pressure Reducing 280 1052.19 280 1052.20 Materials for Use With Reclaimed 280 ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-262 1053.00 Site 280 1054.00 281 1055.00 Process 281 1055.01 Staking 281 1055.02 Pump 281 1055.03 Pipe Assembly 281 1055.04 282 1055.05 Control Valves 282 1055.06 282 1055.07 Turn-On and 283 1056.00 Inspections 283 1056.01 Trailer 283 1056.02 Sprinkler Location Staking 283 1056.03 Main Line 283 1056.04 Pressure Test 283 1056.05 Wiring 284 1056.06 Coverage Test 284 1057.00 Turn-On and 284 1058.00 Acceptance and 284 1060.00 PLANTING SPECIFICATIONS 1061.00 284 1062.00 Materials 284 1062.01 Mulch and 284 1062.02 Staking and 284 1062.03 Ornamentals, Perennials, Shrubs and 285 1062.04 Weed Barrier 287 1062.05 Backfill 287 1063.00 287 1063.01 Street Right-of-Way 288 1063.02 Mow Strip 291 1063.03 Ditch 292 1063.04 Annual Flower Beds 292 1064.00 Planting 292 1064.01 Location 292 1064.02 Seasons of 292 1064.03 Planting Procedures 292 1064.04 293 1064.05 Tree Wrapping 293 1064.06 Staking and 293 1064.07 293 1064.08 294 ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-263 1064.09 Shrub Beds and Mulched 294 1064.10 294 1064.11 Transportation of Plant Materials 294 1065.00 294 1066.00 Inspections 294 1066.01 Plant Location 295 1066.02 Quantity and Quality of Plant 295 1066.03 Planting 295 1070.00 RECREATION 1071.00 295 1072.00 Ballfield 295 1072.01 Softball Infield 295 1072.02 Baseball Infield 295 1072.03 Field 296 1072.04 Field 296 1072.05 296 1072.06 Dugout Covers 297 1073.00 Playground 297 1073.01 Proposal Submittals 297 1073.02 Safety and ADA 297 1073.03 Protective Ground Space 298 1073.04 Component 298 1073.05 Materials 298 1073.06 Installation and 298 1080.00 WALKWAYS, MAINTENANCE PATHS AND SOFT 1081.00 Walkways and Maintenance 299 1082.00 Soft 299 1082.01 Soft Trail 299 1082.02 Trails With Slope Less Than 5:1 299 1082.03 Trails With Slope Equal To Or Greater Than 5:1 (Horizontal:Vertical)......... 299 1082.04 Cross Slope 300 1082.05 Soft Trail Aggregate 300 1083.00 Underpass 300 1084.00 Site Furnishings 300 1090.00 TREES, SHRUBS, ORNAMENTAL GRASSES AND PERENNIALS..........301 1091.00 Evergreen 301 1092.00 Deciduous Shrubs 302 1092.01 Shrub Roses 304 ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-264 1093.00 Ornamental Grasses 304 1094.00 Deciduous 305 1095.00 Conifer Trees 306 1096.00 307 DETAIL DRAWINGS – SECTION 1000 1000-1 Point of Connection Assembly for ¾” & 1” Only 1000-2 Backflow Assembly with Master Valve, Flow Sensor & Enclosure 1000-3 Backflow Assembly with Flow Sensing Capabilities, 825-Y Series & Enclosure 1000-4 Underground Pump By-Pass System 1000-5 Typical Pump System By-Pass in Pump House 1000-6 Field Controller-Factory Pedestal 1000-7 Electric Control Valve 1000-8 Electric Control Valve For Bubbler Zone 1000-9 Drip Valve Assembly 1000-10 Pop-Up Spray Head 1000-11 Gear Driven Rotor 1000-12 Typical 8x8 Grid (Annual Areas Only) 1000-13 Tree Bubbler Assembly 1000-14 Flow Sensor 1000-15 Trench Depth 1000-16 Quick Coupling Valve 1000-17 Manual Drain Valve 1000-18 Gate Valve Smaller Than 3 inch 1000-19 Gate Valve 3 inch and Larger 1000-20 Reclaimed Water Point of Connection 1000-21 Non-Stabilized Soft Trail 1000-22 Special Section Areas 1000-23 Planting Specifications for Conifer Tree 1000-24 Planting Specifications for Deciduous Tree ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-265 SECTION 1000 PARKS AND RECREATION CONSTRUCTION 1001.00 GENERAL CONDITIONS LANDSCAPING THAT IS PRIVATELY OWNED AND MAINTAINED BY A HOMEOWNERS ASSOCIATION (HOA) OR OTHER PROPERTY MANAGEMENT ENTITY SHALL BE DESIGNED AND CONSTRUCTED IN ACCORDANCE WITH THESE STANDARDS AND SPECIFICATIONS. COMPLIANCE TO THESE STANDARDS AND SPECIFICATIONS SHALL BE CERTIFIED BY A QUALIFIED THIRD PARTY APPROVED BY BROOMFIELD. Construction shall not commence until the construction plans are approved by Broomfield. Refer to Section 100 TITLE, SCOPE, AND GENERAL CONDITIONS of these STANDARDS AND SPECIFICATIONS for additional requirements that apply to all projects within Broomfield. 1010.00 SITE DESIGN AND PREPARATION Site preparation shall be completed in accordance with Section 300.00 SITE WORK AND EARTHWORK of these STANDARDS AND SPECIFICATIONS. Grades shall not exceed 4:1 (horizontal:vertical) in shrub beds, mulched areas, or turf areas. Landscaping at intersections shall conform to sight line “triangles” that are selected for ten (10) MPH more than the posted speed limit. Grades shall be designed to not drain onto residential lots. All elevated center islands shall have an eighteen (18) inch minimum width colored and patterned concrete border as directed by Broomfield. Islands and traffic medians with turf shall have mower access ramps for maintenance. Parking lot areas shall have stop blocks or buffer zones for vehicle overhang. 1020.00 TOPSOIL PREPARATION 1021.00 General The Contractor shall provide all labor, equipment and materials necessary to complete the topsoil preparation for seeding and/or sodding as required by the approved plans and these STANDARDS AND SPECIFICATIONS. If the area to be developed is undisturbed or infested with bindweed, Canadian thistle, or any other noxious or objectionable weeds, the vegetation shall be controlled by a chemical application of Round-up at a rate recommended on the chemical's label for controlling all existing vegetation. All applicable portions of Section 333.04 Topsoil of these STANDARDS AND SPECIFICATIONS shall apply. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-266 1022.00 Materials 1022.01 Organic Materials Organic material shall be a certified Class I or II compost product, depending upon specific project applications. Lab analysis of the organic material shall be submitted for approval prior to delivery. Organic materials shall contain less than 10 mmhos/cm of soluble salts and shall have a pH in the range of 6.0-8.2 and a 30-35% moisture content. Because of the difference in moisture content of organic materials, certification of material volume may be required. Organic materials shall be applied at a rate of five cubic yards per one-thousand (1,000) square feet. 1022.02 Starter Fertilizer Complete starter fertilizer shall be a complete starter fertilizer having the chemical analysis of Nitrogen-18, Phosphorous-46, Potash-0. Fertilizer shall be delivered to the site in new, unopened bags bearing the manufacturer's name and the chemical analysis. Fertilizer shall conform to all Colorado Department of Agriculture fertilizer laws. Starter fertilizer shall be applied at five pounds per one-thousand (1000) square feet after fine grading is complete and before sod or seed is planted. 1023.00 Process The Contractor shall cultivate the area to be sodded/seeded to a depth of six inches to remove weeds and other plants that may interfere with turf establishment. All stones, sticks, and debris larger than two inches in diameter shall be removed. Prior to sodding/seeding, the Contractor shall uniformly apply organic materials and starter fertilizer at the rates specified to a depth of six inches with a disc, rototiller, or other suitable tilling equipment. Organic materials shall be applied when the surface is within two-tenths (0.2) of a foot of final grade. No organic material containing manure shall be stockpiled on the site for more than eight hours before it is incorporated into the soil. After tilling, the areas to be sodded/seeded shall be raked, graded, and rolled to final grade with gently sloping surfaces to adequately drain surface water run-off. The finished surface shall be even and uniform, with no soil clumps or debris larger than two inches in diameter. The prepared soil surface shall be on an even plane with all sidewalks, curbs, or borders for seeded areas and shall be three-fourths inch below for sodded areas. IN NO CASE SHALL SLOPES OF SODDED OR SEEDED AREAS EXCEED FOUR HORIZONTAL TO ONE VERTICAL All property pins shall be set and clearly marked before construction begins and shall be preserved until final acceptance by Broomfield. On sloping ground, the final harrowing or discing operation shall be on the general contour. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-267 1024.00 Inspections Required inspections shall include Materials, Soil Preparation and Tree, Shrub and Perennials. The Contractor shall request required inspections at least twenty-four (24) hours in advance. Broomfield may make inspections at any time. 1024.01 Materials Inspection Broomfield may inspect all organic materials and fertilizer upon delivery. Unsatisfactory materials shall be removed. Weight tickets for all materials shall be submitted to Broomfield with the square footage to be amended. The Broomfield Inspector/Representative may confirm receipt of the order before materials are placed. 1024.02 Soil Preparation Inspection Broomfield may inspect the soil preparation for conformance to the approved plans and these STANDARDS AND SPECIFICATIONS during or immediately following the completion of each segment of the preparation. Any workmanship deemed by Broomfield to be faulty or not in conformance with the approved plans and these STANDARDS AND SPECIFICATIONS shall be corrected. Following is the sequence of required inspections: A. During or after first cultivation B. After application of specified organic materials C. During or after second cultivation D. After final grade is complete 1024.03 Tree, Shrub and Perennial Inspection Broomfield may inspect plant materials for conformance to the approved plans and these STANDARDS AND SPECIFICATIONS. Unsatisfactory plant material shall be rejected. Inspections may be performed onsite for projects with less than twenty (20) plants and at the supplying nursery for projects with twenty (20) or more plants. All warranty replacement of plant materials shall be performed during the spring or early fall, regardless of when the warranty period ends. 1030.00 SEEDING SPECIFICATIONS 1031.00 General The Contractor shall provide all labor, equipment and materials necessary to furnish and install seed as required by the approved plans and these STANDARDS AND SPECIFICATIONS. The mixture or blend of grass to be used, along with the seeding rate, shall be determined by a designated city representative. In this determination the following criteria may be taken into consideration: A. Location of seeding ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-268 B. Intended purpose of the area C. Irrigation D. Erosion control E. Slope of terrain F. Aesthetics G. Availability of grass seed H. Maintenance requirements I. Compatibility with surrounding areas 1032.00 Materials 1032.01 Topsoil Refer to Section 1020.00 Topsoil Preparation of these STANDARDS AND SPECIFICATIONS. 1032.02 Starter Fertilizer Refer to Section 1020.00 Topsoil Preparation of these STANDARDS AND SPECIFICATIONS. 1032.03 Bluegrass Seed Seed shall be furnished in sealed, unopened, standard containers and labeled in accordance with the USDA Rules and Regulations and the Federal Seed Act. Seed shall be fresh, clean, pure live seed equal in quality to the standards for "Certified Seed" and shall pass the USDA test for germination of eighty-five (85) percent and for purity of ninety (90) percent. Seed shall be free of Poa annua and all noxious or objectionable weed and shall have a maximum weed crop of one-tenth (0.1) percent. Broomfield may require tests of seed verification at the Contractor’s expense. Seed specifications and application rate may vary based on projected land use. Bluegrass seed shall be applied at the rate of one hundred fifty (150) pounds per acre. The seed mixture shall consist of a blend of four varieties of bluegrass. Seed specifications may vary based on projected land use. 1032.04 Native Seed Seed shall be furnished in sealed, unopened, standard containers and labeled in accordance with the USDA Rules and Regulations and the Federal Seed Act. Seed shall be fresh, clean, pure live seed equal in quality to the standards for "Certified Seed". Broomfield may require tests of seed verification at the Contractor’s expense. Seed specifications and application rate may vary based on projected land use. 1032.05 Top Dressing Hydro-mulch shall be a one hundred (100) percent wood cellulose fiber and shall be applied at a minimum rate of two thousand (2,000) pounds per acre with a three percent tacifier. Hydromulch shall be applied immediately after seed application. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-269 Straw shall be certified weed-free and shall be used on native seeding only. Straw shall be applied over the seeded surface at the minimum rate of two thousand (2,000) pounds per acre and with partial embedment into the soil by a crimper or similar implement. Straw shall be applied immediately after seed application. 1033.00 Seeding Process 1033.01 Bluegrass Seeding Seed shall be applied using a Brillion seeder or approved equal to drill the seed into the prepared seedbed. The seeder shall be equipped with a satisfactory feeding mechanism, an agitator, double disc furrow openers, depth bands and packer wheels. Seed shall be sown to a depth of one-quarter inch into the prepared seedbed. Seed drilling shall be performed in two separate applications, crossing the area at right angles to one another to guarantee proper coverage. On sloping land, the final seeding operation shall follow the general contour. Top- dressing shall be applied immediately after seed application. In areas where seed drilling is not feasible, a broadcast method may be substituted. If a broadcast method is used, the seeding rate shall be doubled and the area shall be dragged after seeding and top-dressing applied. ALL SEEDING SHALL OCCUR BETWEEN OCTOBER 1ST AND APRIL 30TH UNLESS APPROVED IN WRITING BY THE CITY ENGINEER. 1033.02 Native Seeding Seed shall be applied by seed drilling. Seed shall be sown to a depth of one-half (1/2) inch into a prepared seedbed. On sloping land, the seed shall be applied following the general contour. Top-dressing shall be applied immediately after seed application. In areas where seed drilling is not feasible, a broadcast method may be substituted. If a broadcast method is used, the seeding rate shall be doubled and the area shall be dragged after seeding and top-dressing applied. ALL SEEDING SHALL OCCUR BETWEEN OCTOBER 1ST AND APRIL 30TH UNLESS APPROVED IN WRITING BY THE CITY ENGINEER. 1034.00 Intentionally Left Blank 1035.00 Maintenance Procedures for Bluegrass The Contractor shall guarantee the health of the stand of grass until the entire project has been accepted by City Council. Any new grass deemed by Broomfield to be thin, weak, or dead shall be reseeded according to these STANDARDS AND SPECIFICATIONS and germinated prior to the beginning of the warranty period. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-270 The Contractor shall erect suitable signs at strategic points notifying the public to keep off the seeded areas until the lawn is well established. Any traffic damage that may occur prior to final acceptance of the work shall be repaired and reseeded at the Contractor's expense. 1035.01 Mowing During the maintenance period, after a suitable stand of grass has been established, the Contractor shall mow all lawn areas on a routine basis using a mowing height of three inches and one half (3 ½) inches. Frequency of mowing shall be determined by the growth rate of the grass but at no time should the clippings exceed more than 1/3 the total leaf blade. Only turf-type mowers shall be used for this operation. 1035.02 Additional Fertilizing At the time of the first mowing, the Contractor shall apply a commercial fertilizer with the chemical analysis of Nitrogen-20, Phosphorous-10, Potash-5, plus two percent iron at the rate of five pounds per one thousand (1,000) square feet. When applied, the fertilizer shall be dry and free-flowing, and care should be taken to prevent burning. Fertilizer containing iron shall be cleaned off from any structures or concrete areas. Any areas disturbed or damaged by the Contractor during fertilizing operations shall be repaired in accordance with these STANDARDS AND SPECIFICATIONS at the Contractor's expense. 1035.03 Watering The Contractor shall be responsible for watering the seeded area(s) a minimum of two times per day (early-morning and early evening) and for keeping areas moist until the lawn is established. The Developer shall be responsible for the cost of water usage until Construction Acceptance of the project. 1036.00 Inspections Inspections shall be completed in accordance with Section 1024.00 Inspections of these STANDARDS AND SPECIFICATIONS. The Contractor shall notify Broomfield for inspections of seed certification and germination. 1036.01 Inspection of Seed Certifications Seed certification tags shall be delivered to Broomfield to verify compliance with these STANDARDS AND SPECIFICATIONS. 1036.02 Germination Inspection When germination is complete and plants are visible, the Contractor shall notify Broomfield and request a germination inspection for approval in order to begin the warranty period. Any areas determined by Broomfield to be thin, weak or dead shall be replaced. All washouts shall be reseeded immediately after the germination inspection. No partial acceptance shall be made. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-271 1040.00 SODDING SPECIFICATIONS 1041.00 General The Contractor shall provide all labor, equipment and materials necessary to furnish and install all sod as required by the approved plans and these STANDARDS AND SPECIFICATIONS. 1042.00 Materials 1042.01 Topsoil Topsoil preparation shall be as described in Section 1020.00 Topsoil Preparation of these STANDARDS AND SPECIFICATIONS. 1042.02 Starter Fertilizer All fertilizer shall meet the requirements of Section 1020.00 Topsoil Preparation of these STANDARDS AND SPECIFICATIONS. A starter fertilizer with a chemical analysis of Nitrogen-12, Phosphorous-12, Potash-4, with four percent iron and eight percent sulfur shall be applied at a rate of five pounds per one thousand (1,000) square feet immediately prior to sodding. 1042.03 Sod The sod shall consist of a blend of at least three varieties of bluegrass. This blend is to be approved by the Broomfield Inspector/Representative prior to installation. Variety of sod may vary based on projected land use. An approved variety of drought tolerant sod shall be used in passive park and right of way areas to assure low water use. Approved athletic grass blends of grass shall be used in high use park areas and on athletic fields. Sod shall be strongly rooted and free of noxious weeds, undesirable plants, roots, stones, and other foreign materials that shall be detrimental or shall hinder proper development of the sod. The sod shall be procured from areas where the soil is reasonably fertile and contains a high percentage of loamy topsoil. The sod shall be cut from living, thickly matted turf. The sod shall be mowed to a height not to exceed two and one half (2 ½) inches and thoroughly watered before the sod is cut. All sod shall be cut to provide a minimum thickness of three-fourths (3/4) inch of soil adhering to the roots. The Contractor shall furnish written proof of sod variety to Broomfield. Sod shall be tested by the Colorado State University laboratory or a certified laboratory at the Contractor's expense if requested by Broomfield. 1043.00 Sodding Process 1043.01 Care and Handling Care shall be exercised at all times to retain native soil on the sod roots during transportation, handling and planting. Dumping sod from vehicles shall not be permitted. The sod shall be transported to the site within twenty-four (24) hours from the time it is cut, unless it can be ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-272 stored to the satisfaction of Broomfield. During delivery and while in stacks, all sod shall be kept moist and protected from exposure to the wind, sun and freezing. All sod delivered to the site shall be installed within 24 hours of delivery. All damaged or dry sod shall be rejected. 1043.02 Transporting Sod On-Site Sod may be transported on or across the site on pallets by forklift. Damage to the sod bed by vehicles shall be kept to a minimum and shall be regraded before sodding of the area. Damage caused to paving, curbs, fence, plants or other objects during sodding, shall be repaired or replaced by the Contractor at his expense as directed by Broomfield. 1043.03 Sodding The sod bed shall be watered immediately prior to installing the sod. All sod strips shall be placed against each other so no open joints are apparent. Joints between ends of strips shall be staggered at least one foot between adjacent rows. At the end of walks and drives, the sod shall have the same finish grade as the abutting surfaces. At curbs, the sod shall have the same finish grade as the top of the curb. Sod placed on slopes equal to four horizontal to one vertical (4:1) shall be staked with wire pins not less than six inches long and spaced not more than thirty (30) inches apart. The pins shall be driven into the ground at an angle against the flow of the water until the top of the stake is just below the top of the soil and root mat. Sod shall be installed at the bottom of the slope and shall progress upward with strips laid transverse to the slopes. Immediately after the sod has been laid, it should be tamped or rolled with approved equipment to eliminate all air pockets and to provide a smooth, even surface. Immediately after rolling or tamping the sod, sufficient water shall be applied to completely saturate the sod. The sod shall be watered as often as required to prevent drying out. In settled areas, the sod shall be removed, settled areas shall be regraded and the sod shall be reinstalled. 1044.00 Clean-up All debris and surplus materials shall be removed from the site. All disturbed areas shall be restored to original condition or to the required new condition. 1045.00 Maintenance The proper care and maintenance of the sodded areas shall be the responsibility of the Contractor until the work has been accepted by City Council. The maintenance operations shall begin as soon as each portion of the area is sodded. Maintenance shall consist of repair and replacement of eroded areas, watering, mowing (once sod is established), weeding, fertilizing, and re-sodding as necessary to provide an even, consistent stand of grass. All sod replacement required by Broomfield shall be done at the Contractor’s expense. 1045.01 Mowing During the maintenance period, after a suitable stand of grass has been established, the Contractor shall mow all lawn areas on a routine basis using a mowing height of three and one ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-273 half (3 ½) inches. Frequency of mowing shall be determined by the growth rate of the grass but at no time should the clippings exceed more than one-third the total leaf blade. Only turf-type mowers shall be used for this operation. 1045.02 Additional Fertilizing At the time of the first mowing, the Contractor shall apply a commercial fertilizer with the chemical analysis of Nitrogen-20, Phosphorous-10, Potash-10, plus two percent iron and eight percent sulfur at the rate of five pounds per one thousand (1,000) square feet. When applied, the fertilizer shall be dry and free-flowing, and care should be taken to prevent burning. Fertilizer containing iron shall be cleaned off from any structures or concrete areas. Any areas disturbed or damaged by the Contractor during fertilizing operations shall be repaired in accordance with these STANDARDS AND SPECIFICATIONS at the Contractor's expense. 1045.03 Watering The Contractor shall be responsible for watering the seeded area(s) a minimum of two times per day (early-morning and early evening) and for keeping areas moist until the lawn is established. The Developer shall be responsible for the cost of water usage until Construction Acceptance of the project. 1046.00 Inspections Inspections shall be completed in accordance with Section 1024.00 Inspections of these STANDARDS AND SPECIFICATIONS. The Contractor shall notify Broomfield for inspection of sod installation. When sod installation is complete, the Contractor shall notify Broomfield and request a sod inspection for approval, in order to begin the warranty period. Any areas determined by Broomfield to be thin, weak or dead shall be replaced. No partial acceptance shall be made. 1050.00 LANDSCAPE IRRIGATION SYSTEMS 1051.00 General All irrigation design plans and specifications shall be submitted to Broomfield in accordance with Section 160.00 PLANS AND SPECIFICATIONS and Section 161.00 Construction Plan Requirements of these STANDARDS AND SPECIFICATIONS. The contractor is responsible for proper landscape irrigation system coverage. Landscape irrigation system design shall ensure that only planted areas are irrigated and not paved surfaces. The City Engineer shall review and approve the design plans prior to the commencement of any work. 1051.01 Turn-over Items Upon installation of an irrigation system, the Contractor shall furnish Broomfield with the following items: ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-274 A. Quick Coupler Key RB 55K-1 with Hose Swivel RB SH-1 B. Drain Key C. Slotted and square nut key D. Control Clock Keys E. Valve Box Key F. Irri-Tools G. Open End or Box Wrenches, 7/16” and ½” H. Transceiver Compatible with Controller I. Battery Charger J. Extra Battery K. Belt Clip L. Laminated 11”x17” as-built drawings for each controller with: • Color-coded valves and zones • Zone listing that shows the precipitation per valve, type of head per valve, and gallons per valve 1052.00 Materials 1052.01 Water License and Tap Fee The Developer shall purchase a water license and pay all applicable tap and meter fees prior to connecting into Broomfield's water system. The size of the water tap shall be determined and approved by the Broomfield Chief Building Official and/or the City Engineer. 1052.02 Water Tap All taps into Broomfield water mains shall comply with the requirements of Section 440.00 WATER SERVICE LINE CONSTRUCTION of these STANDARDS AND SPECIFICATIONS. Refer to the Detail Drawings. 1052.03 Water Service Line All taps into Broomfield water mains shall comply with the requirements of Section 440.00 WATER SERVICE LINE CONSTRUCTION of these STANDARDS AND SPECIFICATIONS. Refer to the Detail Drawings. 1052.04 Meter Pit One inch meter pits that house meters may be supplied by Broomfield. Meter pits for drains shall be supplied by the Contractor. Refer to the Detail Drawings for meter pit size and materials. Meters one and one-half (1 ½) inches and larger shall include a one inch ball stop drain valve on the side of the meter. 1052.05 Water Meter The water meter shall be provided by Broomfield. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-275 1052.06 Electrical Service All electrical service lines shall be run underground and in electrical PVC conduit with a minimum of eighteen (18) inches cover. All wire shall be copper and shall be properly sized. When the irrigation controller is the only electrical service demand, a twenty (20) amp minimum metered service shall be installed. If a booster pump is required, a sixty (60) Amp (minimum) metered service shall be installed. If the irrigation controller is the only electrical demand, an un-metered flat rate service can be installed. All electrical service lines shall have yellow electrical warning tape in the trench six inches above the conduit pipe. An electrical disconnect shall be mounted on the irrigation controller. Solar powered controllers may be allowed with approval by the Director of Public Works. 1052.07 Backflow Prevention All backflow preventers shall be sized in accordance with manufacturer's recommended velocities, but no velocities shall exceed the normal industrial practice of seven and one-half (7 ½) feet per second through the backflow device. The device shall meet the requirements of ASSE Standard 1013; AWWA Standard Code C 506-78; and USC Foundation for Cross Connection Control and Hydraulic Research, latest edition. Backflow preventers shall be installed in accordance with the applicable sections of the UBC. It shall have either a brass union or a bolted flange connection on both the inlet and discharge side of the device. Refer to the Detail Drawings. It shall be the responsibility of the contractor to have certified tests made of all installed backflow prevention devices. These tests shall be performed by a certified cross-connection technician and copies of results presented to the City & County of Broomfield before use of the backflow prevention device is allowed. Backflow preventers for water taps that are two inches and smaller shall be a FEBCO 825-Y or 825 YA Series. Each backflow preventer shall be enclosed in a locked, stainless steel strong box with the following features: A. Marine grade aluminum alloy construction B. 100% stainless steel hardware C. Flush-mounted, locking mechanism for security D. Full-release locking mechanism for service and repair access E. Pre-punched viewing ports The enclosure shall be permanently affixed to the concrete pad with a ⅜” x 6” lag anchor bolt and twenty-four (24) inches of Grade 70 transport chain permanently fixed on the end of the enclosure without a padlock. Backflow preventer enclosures shall be centered on a concrete pad with a twelve (12) inch mow strip border. The pad shall be a minimum of six inches thick and all piping shall have a PVC sleeve a minimum of one inch larger than pipe size. Strong boxes shall be sized in accordance with manufacturer’s recommendations, and shall be approved by the City Engineer. Refer to the Detail Drawings. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-276 For taps two and one-half (2 ½) inches and larger, the backflow prevention device shall be a FEBCO 860 or FEBCO 880 Series. 1052.08 Booster Pump The requirement for a booster pump shall be determined by Broomfield water main static pressure and the design requirements of the irrigation system. When a booster pump is needed, it shall be a Peerless-type P.E., or equal, with magnetic starter and heater and a motor minder to monitor the pump and shut it down if necessary. The starter, heater and motor minder shall be in a vandal resistant water tight enclosure approved by the Director of Public Works. All pumps shall include a bypass. Refer to the Detail Drawings. 1052.09 Pump Enclosures Pump enclosures shall protect equipment to thirty (30) degrees below zero. Pump house may be cast-in-place or precast concrete. Fabrication drawings shall be submitted to Broomfield for approval prior to delivery. The pump house shall have an exposed aggregate finish; heavy duty aluminum powder coated door and door jamb; non-locking door knob with latch; and a heavy duty slide bolt hasp assembly secured with a padlock. The pump house shall enclose all above ground, plumbing, such as piping fittings, backflow preventer, and booster pump; all electrical equipment, such as breaker panels, switches, overhead light and outlets; and irrigation controllers, heater, and ventilation. It shall have a minimum ceiling height of seven feet. All electrical equipment shall be Square D, Cuttler Hammer, or G.E., and a waterproof type. All wire shall be copper conductor and installed in conduit. Contractor shall submit detailed drawings of equipment. An alternate pump enclosure may be a pre-manufactured enclosure with all of the aforementioned features with approval by the Director of Public Works. 1052.10 Controllers The controller shall be a Toro Sentinel satellite controller. The controller shall be housed in a stainless steel enclosure. It shall feature a pump start, manual advance switch, lightning protection, manual operating mode, data retrieval, flow sensing and flow control. Each controller shall have a maximum of forty-eight (48) stations, which shall include a minimum of four spare stations. Controller shall be properly grounded with an eight foot long solid copper grounding rod to achieve a seven ohm or less grounding quality. The receiver shall be capable of being operated on an FM signal of 453.45. The transceiver shall be capable of transmitting and receiving signals and have a Dual Tone Multiple Frequency (DTMF) pad and programmable cadence. 1052.11 Master Valves and Zone Valves Master valves shall be installed at all connection points and shall be a Bermad 910-P Opto- switch Pulse Transmitter or a Broomfield approved master valve with a Data Industrial IR22OP flow sensor. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-277 All zone valves shall be preceded by a ball valve and shall include a threaded PVC union on the lateral line (upstream) side. The zone valves shall be Rainbird EFB-CP for zone valves two inches and smaller. Three inch or larger zone valves shall be Rainbird 300-BPE-PRS-D. Zone valves shall be operated with a twenty-four (24) volt solenoid and shall be capable of allowing compressed air to flow through them. Where working pressure exceeds 80 psi, a PRS- D or approved equal regulator shall be required where pop up, drip or bubbler irrigation equipment is installed. All zone valves shall be placed in a Rainbird or approved equivalent valve box. Valve box covers shall be brought to grade using stacked valve boxes. All valve boxes shall contain three inches of three quarter (3/4) inch washed rock covered with filter fabric four inches below valve. 1052.12 Irrigation Heads Consideration shall be given to water conserving equipment that minimizes spraying wherever practical. A. Turf Areas: All heads shall have a check valve. All gear drive heads shall be stainless steel. In large turf areas, Rainbird or approved equal gear driven heads shall be used. In turf areas wider than fifteen (15) feet, gear driven heads should be used unless overly obstructed. In turf areas narrower than fifteen (15) feet where spray heads are needed, Rainbird or approved equal heads shall be used. Each irrigation head shall have a minimum pop-up height of six inches and shall be installed on a PVC swing joint consisting of three street elbows and one eight inch or longer PVC nipple. B. Flower Bed Areas: Irrigation for a typical flowerbed design shall consist of a removable grid of Techline spaced at twelve (12) inches and delivering six-tenths (0.6) gallon per hour. Unions shall allow the grid to be totally removed for tilling. Removable sections shall be no larger than eight feet by eight feet. Multiple sections may be connected with unions to achieve coverage. A blow-off, air relief valve and a pressure indicating flag shall be installed in each bed. All piping not in the bed shall be one inch or larger Schedule 40 PVC or SDR 26 PVC (class 200). C. Shrub Beds: Shrub beds shall be irrigated by a drip system. Drip irrigation systems shall consist of ¾-inch or 1-inch drip line with emitters installed where required. Where approved by Parks Maintenance Staff, ¼-inch distribution tube with a maximum length of three feet may be used. All emitters shall be pressure compensating. All laterals not in shrub beds shall be PVC pipe. The ends of the drip line shall have a ball valve and no caps. Location of ball valves shall be shown in the Record Documents. Pressure compensating Techline irrigation system may be used if approved by Broomfield. In shrub spacings of 24-inches and greater, the Techline shall be snaked in between plants ensuring three emitters per plant. In shorter spacing, Techline shall be placed on two sides of the plant to ensure proper watering. Techline shall be staked in place under the weed mat and covered with mulch. Techline in ground cover beds shall be staked in a grid to water entire area and covered with mulch. In sloped areas, the maximum length of a bed will be 60 feet with upper and lower supply header control by ball valves to adjust the flow. The Techline will be run perpendicular ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-278 to the slope. The upper ⅔of the slope shall be spaced at manufacturer’s recommended spacing; for the lower ⅓of the slope, increase the spacing by 25%. For every 4.5 feet of elevation change, an inline check valve capable of holding a 13-foot column of water shall be included, or a separate zone(s) shall be necessary. D. Trees: Tree zones shall include the following sequence of items: ball valve, Rainbird EFB-CP electronic control valve, ball valve, Rainbird 5LRC quick coupler and Rainbird RWS-BCG. In native areas and shrub beds, three Rainbird RWS-BCG shall be required per tree. In turf areas, two Rainbird RWS-BCG shall be required per tree. 1052.13 Field Wiring All wire shall be buried under and to one side of the irrigation piping. All wire shall be buried with a minimum of eighteen (18) inches cover. All wiring shall be bundled every ten (10) feet. A. Lead Wire for Connecting Valve to Controller: For runs less than seven thousand seven hundred (7,700) feet, the lead wire shall be #14 UF single strand, direct bury, PE jacketed, copper wire. For zones (1-24), the insulation shall be red. For zones (25-48), the insulation shall be yellow. For runs in excess of seven thousand seven hundred (7,700) feet, the lead wire shall be #12 UF. Spare zone wire shall have orange insulation. Stations (1-24) shall have four spare wires. Stations (25-36) shall have two spare wires, and stations (37-48) shall have two spare wires. B. Common Wire: All common wire shall be #12 UF single strand, direct bury, PE jacketed, copper wire with white insulation. Stations (1-24) shall have one spare common wire with black insulation. Stations (25-48) shall have one spare common wire with black insulation. An eighteen (18) inch length of all spare wire shall be installed in every valve and wire splice box and left coiled. All wires shall be loosely installed on the back side of bends. C. Master Valve and Flow Sensor Wires: The Bermad 910-P master valve requires a minimum of four blue, one green, two brown, and one gray #14 AWG wire. As an alternate, the master valve shall require three brown and two gray wires, and the flow sensor shall require two blue and two green #14 AWG wires. D. Connectors: Only Snap-loc water-tight connectors shall be used to make wire connections, including connections in valve boxes. 1052.14 Pipe All PVC pipe shall be continuously and permanently marked showing the manufacturer's name, the size, and the class of the pipe. All PVC pipe shall conform to the requirements of IPS pressure pipe, ASTM D2241. Pressure pipe greater than six inches shall comply with AWWA C-900. Irrigation main pipe shall be installed with tracer wire and warning tape, and shall comply with Section 432.19 Tracer Wire and Warning Tape of these STANDARDS AND SPECIFICATIONS. Tracer wire shall be terminated in isolation valve boxes. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-279 The velocity of the water through PVC pipe shall not exceed five feet per second. The velocity of the water through copper pipe shall not exceed nine feet per second. Irrigation system piping shall be as follows: A. Primary water service line (from City water main to water meter) shall comply with Section 442.01 Water Service Lines of these STANDARDS AND SPECIFICATIONS. B. Secondary water service line (from water meter to backflow preventer) shall be either ductile iron or type rigid copper pipe. Copper fittings less than three inches diameter shall be soldered together using lead-free solder. Three inch copper fittings shall be soldered together using silver solder. C. Irrigation main pipe less than six inch diameter shall be ASTM D2241 Class 200 (SDR 21). One inch to three inch diameter pipe shall be solvent weld type and shall use ASTM F656 purple primer and ASTM D2564 glue. Four inch diameter pipe shall be intergral bell gasketed. D. Irrigation main pipe six inch diameter and larger shall be AWWA C900 Class 200 (DR-14). E. All gasketed pipe shall be restrained in compliance with Section 433.06 Thrust Blocking, Restrained Joints and Fittings of these STANDARDS AND SPECIFICATIONS. F. The lateral lines shall be Class 200 (SDR 21) PVC pipe, and shall be assembled using the same primer and glue noted in Section 1052.14 c above. No main or lateral line pipe shall be smaller than one inch diameter PVC. All gasketed pipe shall be restrained by thrust blocks and mechanical joint restraint as required in these STANDARDS AND SPECIFICATIONS. Mechanical joint restraint (wedge action, self- actuating, such as Megalugs) shall be used for fittings such as—but not limited to—directional elbows, directional tees, and gate valves. Push-on fittings may be allowed for bends less than ninety (90) degrees with proper thrust blocks and rebar restraint. 1052.15 Quick Coupler Valves Each system shall have a minimum of one quick coupler valve located near the backflow preventer and one at the end of each stub of the mainline. When there is a looped mainline, quick coupler valves shall be located at various points or where directed by Broomfield. This valve shall be a Rainbird No. 5LRC with restrained joints, and shall be both vinyl-covered and locking. It shall be installed in a ten (10) inch diameter valve box as manufactured by Rainbird or approved equal. Refer to the Detail Drawings. 1052.16 Manual Drain Valves All main lines shall have a minimum of two manual drain valves, one on either side of the backflow preventer. Drain valves shall be one inch diameter ball stop valves. One drain valve shall be installed inside the meter pit. One drain valve shall be installed on the side of the backflow preventer. Access to the drain valve shall be provided a two inch diameter PVC sleeve with a “Snug Cap” or approved equal. This shall be enclosed in a ten (10) inch diameter valve box manufactured by Rainbird or approved equal. All manual ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-280 drains shall discharge into a gravel sump containing a minimum of three cubic feet of three- fourths (3/4) inch washed rock. The top surface of the rock shall be covered with filter fabric. Refer to the Detail Drawings. 1052.17 Isolation Valves Isolation valves shall be installed at locations noted on the approved plans and at both sides of a street crossing. Isolation valves two inch diameter and larger shall be Clow or approved equal and shall comply with Section 432.05 Gate Valves and Section 442.10 Valves for Use with Meters of these STANDARDS AND SPECIFICATIONS. Valves one and one-half (1 ½) inches diameter or smaller shall be brass gate valves with cross handles and resilient seats. Direction of valve operation shall comply with Section 432.05 Gate Valves of these STANDARDS AND SPECIFICATIONS. 1052.18 Pressure Reducing Valves When Broomfield main line static pressure exceeds one hundred (100) psi, a pressure reducing valve approved by Broomfield shall be installed in an in-ground enclosure and shall comply with these STANDARDS AND SPECIFICATIONS. 1052.19 Sleeving Only irrigation equipment shall be installed in irrigation sleeves. Irrigation wiring and piping installed in separate sleeves under sidewalks, curbs, roadways or similar structures shall be sleeved. Sleeves shall be PVC IPS pressure pipe, SDR-26 or heavier, and shall be a minimum of one and one-half (1 ½) inches larger inside diameter than the maximum outside diameter (bell) of the pipe to be installed through it. Sleeves shall extend a minimum of twelve (12) inches beyond the edge of the sidewalk, curb, roadway or similar structure. The location of the sleeve shall be permanently marked on the structure that is crossed under. 1052.20 Materials for Use With Reclaimed Water Broomfield has some parks irrigated with reclaimed water. Materials used in reclaimed water irrigation systems shall comply with reclaimed water standards and shall be purple in color, or if approved, may be clearly marked as reclaimed. Materials covered by this requirement include (but are not limited to) meters, valves, quick couplers, valve box covers, irrigation heads, techline, hosebibs and warning tape. Broomfield shall provide and install its own signage. Reclaimed water connection point following the meter pit shall consist of, in consecutive order: isolation valve, ball stop drain and quick coupler. 1053.00 Site Conditions The Contractor shall coordinate his work with that of other trades to prevent conflicts. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-281 Changes or alterations in the system to meet site conditions shall be subject to Broomfield approval. Contractor shall prepare a set of Record Documents Section 200.00 Acceptance Procedures of these STANDARDS AND SPECIFICATIONS. The Contractor shall be responsible for providing electrical requirements required for the job. The appropriate electrical utility (Xcel Energy or United Power) should be contacted for information on possible electrical sources. All electrical work, except 24 volt, shall require a separate inspection by the Broomfield Building Official. 1054.00 Excavation All applicable portions of Section 350.00 Trenching, Backfilling and Compacting of these STANDARDS AND SPECIFICATIONS, shall apply. When approved by the City Engineer, trench excavation and backfill for irrigation systems in excess of the limits noted in Section 350.00 may be allowed. 1055.00 Process 1055.01 Staking Contractor shall ensure that all existing utilities are field located. Prior to new construction, locations of proposed irrigation lines, sprinkler heads and system equipment shall be staked. Stakes shall be color coded for materials and maintained throughout the sprinkler installation process. 1055.02 Pump House When a pump house is used, the secondary water service line shall be extended a minimum of twenty-four (24) inches below grade on the discharge side of the pump house and a minimum of twenty-four (24) inches beyond the pump house slab or footing. 1055.03 Pipe Assembly The adaptation from copper to PVC shall be made by using a female copper adapter receiving a male PVC adapter. PVC pipe shall comply with Section 1052.14 Pipe of these STANDARDS AND SPECIFICATIONS. All excess glue shall be wiped from the joint with a cloth rag or similar material after assembly. Broomfield shall not allow gluing of pipe unless the temperature is forty (40) degrees and rising for one hour. Install purple insulated tracer wire and purple warning tape along all main line pipe. Install tracer wire and blue warning tape along all potable water pipe. All threaded PVC fittings shall receive a double wrap of Teflon tape prior to assembly. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-282 1055.04 Trenching All pipes shall be installed along the center of an excavated trench to approved lines and grades. Trenches shall be dug true to the alignments shown on the approved plans. All bends shall be made with fittings. Excavation of the trenches shall be done in a workman-like manner with a flat bottom containing no rocks or other deleterious material that may damage the pipe. Separate trenches shall be dug for each line. No doubling up of lines in a single trench shall be allowed. Trenches shall be dug deep enough to allow the following cover over the top of the pipe: Main Line Size Minimum Cover Maximum Cover 1" – 1 ½" 18" 24" 2" - 3" 24" 36" Greater than 3" 36" 48" Lateral Line Size Minimum Cover Maximum Cover 3" Gear Driven Rotors 18" 24" 3" 6" Pop-Up Spray Heads 12" 24" 3" 12" Pop-Up Spray Heads 18" 24" > 3” 6” or 12" Pop-Up Spray Heads 18" 24" No trench shall be left open overnight without specific prior approval by Broomfield and without sufficient barricades to protect the public. Barricades shall comply with Section 141.12 Traffic Control, Barricades and Warning Signs of these STANDARDS AND SPECIFICATIONS. 1055.05 Control Valves Control valves shall be installed eight inches below the bottom of the valve box lid. Stacked valve boxes shall be used to bring the cover of the valve box to the finished grade. All irrigation boxes should be permanently marked with two inch high numbers or letters as follows: Master Valve (MV), Isolation Valve (GV), Quick Coupler (QC), Grounding Rod (GR), Wire Splice (WS), Manual Drain (MD). Zone valve boxes shall be marked as follows: (Timer A, B, C, etc.– Zone For example, markings shall read or 1055.06 Backfill Backfill material shall be free of rocks one inch in diameter and larger. Backfill shall comply with Section 354.00 Backfill for Pipelines and Service Lines of these STANDARDS AND SPECIFICATIONS. Compaction of soils in landscape areas shall be between eighty (80) and eighty-five (85) percent of the Standard Proctor per ASTM D698. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-283 1055.07 Turn-On and Winterization The Contractor shall start up the system in the spring and shall perform any necessary service work. In the fall, the Contractor shall shut down and protect the system from freezing. 1056.00 Inspections A copy of the approved construction plans, these STANDARDS AND SPECIFICATIONS, and the project inspection sheets shall be onsite at all times. Any allowable variances from the approved construction plans shall be noted on the project inspection sheets by the Broomfield Inspector/Representative. The Contractor shall request the following required inspections twenty-four (24) hours in advance: 1056.01 Trailer Inspection Broomfield shall inspect the storage area and equipment and materials trailer before any irrigation system installation begins. The results of the trailer inspection not withstanding, only approved materials and equipment shall be allowed. 1056.02 Sprinkler Location Staking Broomfield shall inspect the staked locations of all lines and heads for conformance to the approved plans and these STANDARDS AND SPECIFICATIONS. Broomfield reserves the right to move, shift and adjust any of the stakes to better achieve the design intentions. No trenching shall be done until the inspection is complete and the staked locations approved by Broomfield. 1056.03 Main Line Inspection Prior to trench backfilling, Broomfield shall inspect the depth of pipe, trust blocking, manual drain valves, sumps, control valves and wiring for conformance to the approved plans and these STANDARDS AND SPECIFICATIONS. 1056.04 Pressure Test The contractor shall pre-test the system prior to requesting an inspection. All main lines shall be pressure tested to one-hundred fifty (150) psi at the low point of the section being tested. The maximum loss shall be five psi in one hour. All valve boxes shall be opened and ball valves shall be open and flagged for inspection. Prior to a pressure test, the zone valves shall be wired. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-284 1056.05 Wiring Inspection When the wiring installation has been completed, Broomfield shall inspect it for conformance with the approved plans and these STANDARDS AND SPECIFICATIONS. 1056.06 Coverage Test Upon completion of all irrigation system installation, the Contractor—in the presence of Broomfield—shall perform a coverage test. Prior to the coverage test, the controller shall be wired and set to Broomfield frequency. The controller shall respond to the hand held radio or no test shall be performed. 1057.00 Turn-On and Winterization In the Fall, the Contractor shall shut down and protect the system from freezing. The Contractor shall start up the system in the spring and shall perform any necessary service work. Broomfield shall be notified prior to landscape irrigation system winterization and spring turn-on. Refer to Section 200 Acceptance Procedures of these STANDARDS AND SPECIFICATIONS. 1058.00 Acceptance and Warranty Acceptance and warranty shall comply with the requirements of Section 200 ACCEPTANCE PROCEDURES of these STANDARDS AND SPECIFICATIONS. 1060.00 PLANTING SPECIFICATIONS 1061.00 General The scope of work involves furnishing all plants, equipment, materials, labor and supervision necessary for the installation of plant materials as indicated on the approved plans and in these STANDARDS AND SPECIFICATIONS. 1062.00 Materials 1062.01 Mulch and Edging All trees shall be mulched with materials of a fibrous nature, such as shredded wood chips or shavings, which are between two inches and eight inches in length and are placed to a depth of three inches around each tree. In specific cases, when approved by Broomfield, cobble or rock mulch may be substituted for the fibrous mulch. All edging shall be six inch wide and fourteen (14) minimum gauge painted steel. 1062.02 Staking and Guying All trees shall be staked and guyed using the following material: A. Stakes: Six feet tall steel tee posts ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-285 B. Wires: A double strand of number sixteen (16) galvanized wire C. Nylon straps: One and one-half (1 ½) inch wide nylon strap with eyelets at each end. 1062.03 Ornamentals, Perennials, Shrubs and Trees The Contractor shall furnish and install all plants shown on the approved plans. All plant materials shall: A. Be alive, healthy and freshly dug B. Have a normal, well developed branch and root system C. Show good annual growth D. Have plump buds, well fitted for the species Evergreen foliage shall have a good intense color. Trees shall contain a central dominant leader with evenly spaced branches. Foliage and branches shall be distributed on the upper two-thirds (2/3) of the tree. The trunk shall taper from a solid base to a more slender diameter at the top. All plant materials shall be free from: A. Defects or mechanical damage B. Disfiguring knots C. Bark abrasions and discolorations D. Plant diseases and all forms of infestations E. Wilted leaves F. Insect eggs and borers Plants with damage shall be rejected. Plant tags stating the correct plant name and size shall be securely attached to all plant materials. Balled roots shall be firmly wrapped with burlap or similar material and bound with rope or wires. Roots shall not be girdling, circling or potbound. Plants with broken root balls shall not be installed. Any plant that is loose in the ball shall not be installed. All plant materials shall conform to the measurements noted in the plant specifications and on the approved plans. The following are minimum sizes: A. Deciduous trees – two inch caliper or larger B. Coniferous Evergreen trees – six feet tall or larger C. Shrubs – number five container D. Ornamentals and perennials – number one container ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-286 BALL SIZE – DECIDUOUS TREES Tree Size Ball Depth Minimum (in.) Ball Diameter Minimum (in.) 2" - 2-1/2" caliper 20 24 2-1/2" - 3" caliper 22 28 3-1/2" - 4" caliper 30 38 5' - 6' height 14 16 6' - 8' height 16 18 BALL SIZE CONIFEROUS EVERGREEN TREES** Types 1, 2 and 3 Types 4 and 5 Type 6 Spreading, semi- spreading, broad spreading, globe and compact upright Pyramidal, broad upright Columnar Spread (Types 1 and 2) Height (Type 3) (in.) Minimum diameter ball (in.) Height/ caliper (in.) Minimum diameter ball (in.) Height/ caliper (in.) Minimum diameter ball (in.) 9 8 12 8 12 7 12 10 15 10 15 8 15 12 18 12 18 9 18 14 24 14 24 11 24 16 30 16 30 13 30 18 36 18 36 14 36 24 48 20 48 16 42 26 60 22 60 18 48 28 72 24 72 20 60 36 84 26 84 22 72 40 96 28 96 24 84 46 111 32 110.5 26 96 52 111.5 34 111 28 112 38 111.5 32 112.5 42 112 36 113 48 112.5 40 113.5 54 113 44 114 60 113.5 48 115 72 114 54 116 84 115 66 117 90 116 78 117 90 ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-287 Notes: A. Plant sizes and caliper measurements indicate minimum size in the size interval “4 ½ in.” caliper indicates 4 ½ - 5 in. caliper interval). B. Rapid growing varieties may have root balls one size smaller. C. Check with American Standard for Nursery Stock for exact specifications of each species.) 1062.04 Weed Barrier Fabric All shrub beds and mulched areas shall have a continuous layer of weed barrier fabric installed under the mulch. It shall be Mirafi 140NSL fabric with 4.3 oz. per square yard, or an approved equal. Bed areas with perennial plants shall not require weed barrier fabric. The fabric should be cut around plant material, and not tucked and folded. 1062.05 Backfill Mixture BACKFILL MIXTURE FOR ANNUAL PLANT MATERIALS SHALL BE A MIX OF ONE-THIRD ORGANIC MATERIAL MIXED WITH NATIVE MATERIAL. REFER TO SECTION 1022.01 ORGANIC MATERIALS OF THESE STANDARDS AND SPECIFICATIONS. BACKFILL MIXTURE FOR TREES AND SHRUBS SHALL BE NATIVE MATERIAL. 1063.00 Landscaping All landscaping shall be designed in accordance with Broomfield’s Master Landscaping Plan as shown in the Detail Drawings. Xeriscape or other landscape plans may be permitted with the approval of Broomfield. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-288 1063.01 Street Right-of-Way The following landscape requirements for street R.O.W. and interchanges shall apply: Landscape Requirements for Local and Connector Streets Quantity Minimums Arrangement Ideal Locations Unacceptable Locations Purpose Specifics DECIDUOUS SHADE TREES 1 TREE/LOT FORMAL LANDSCAPE STRIPS MEDIANS SHADE/ MASSING MINIMUM OF 35’ SPACING CONIFEROUS EVERGREEN TREES N/R N/R N/R N/R N/R N/R ORNAMENTAL TREES 1 TREE/LOT INFORMAL FRONT YARD SIGHT TRIANGLES ACCENT MINIMUM OF 15’ SPACING DECIDUOUS SHRUBS N/R CLUSTERED, INFORMAL FRONT YARD SIGHT TRIANGLES (SHRUBS OVER MASSING EVERGREEN SHRUBS N/R CLUSTERED, INFORMAL FRONT YARD SIGHT TRIANGLES (SHRUBS OVER MASSING PERENNIALS N/R N/R SIGHT TRIANGLES, INTERSECTION CORNERS, FRONT YARD ALONG LENGTH OF STREET ACCENT LOW MAINTENAN CE TURFGRASS FRONT YARD N/R LENGTH OF STREET/ CORNERS 4:1 OR STEEPER SLOPES GROUND- COVER LOW WATER USE TURF MOSS ROCK BOULDERS N/R CLUSTERED SHRUB, PERENNIAL BEDS LAWN AREAS ACCENT, SLOPE STABILIZATION MOSS ROCK, 36” MINIMUM SIZE BERMS N/R N/R ALONG LENGTH OF STREET SIGHT TRIANGLES SCREEN, VISUAL INTEREST BERMS AT MAX 4:1 SLOPE *N/R represents not relevant at this location. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-289 Landscape Requirements for Minor Arterials Quantity Minimums Arrangement Ideal Locations Unacceptable Locations Purpose Specifics DECIDUOUS SHADE TREES 1 TREE/60’ FORMAL LANDSCAPE STRIPS MEDIANS SHADE, MASSING MINIMUM OF 35’ SPACING CONIFEROUS EVERGREEN TREES 1 TREE/90’ INFORMAL, INTERMIXED LANDSCAPE TRACT SIGHT TRIANGLES, MEDIANS & WITHIN 55’ OF R.O.W. ACCENT, SCREEN MINIMUM OF 25’ SPACING ORNAMENTAL TREES 1 TREE/120’ INFORMAL, INTERMIXED LANDSCAPE TRACT, MEDIANS, & INTERSECTIONS SIGHT TRIANGLES, WITHIN 55’ OF R.O.W. ACCENT MINIMUM OF 15’ SPACING DECIDUOUS SHRUBS 1/2 OF SHRUB MATERIAL CLUSTERED, INFORMAL ALL SIGHT TRIANGLES (SHRUBS OVER MASSING EVERGREEN SHRUBS 1/2 OF SHRUB MATERIAL CLUSTERED, INFORMAL ALL SIGHT TRIANGLES (SHRUBS OVER MASSING PERENNIALS N/R N/R SIGHT TRIANGLES/ INTERSECTION CORNERS ALONG LENGTH OF STREET, MEDIANS ACCENT LOW MAINTENAN CE TURFGRASS N/R N/R LENGTH OF STREET/ CORNERS 4:1 OR STEEPER SLOPES GROUND- COVER LOW WATER USE TURF MOSS ROCK BOULDERS N/R CLUSTERED SHRUB/PERENNIAL BEDS, MEDIANS, STEEP SLOPES LAWN AREAS ACCENT/ SLOPE STABILIZATION MOSS ROCK, 36” MINIMUM SIZE BERMS N/R N/R ALONG LENGTH OF STREET SIGHT TRIANGLES SCREEN, VISUAL INTEREST BERMS AT MAXIMUM OF 4:1 SLOPE *N/R represents not relevant at this location. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-290 Landscape Requirements for Major Arterials Quantity Minimums Arrangement Ideal Locations Unacceptable Locations Purpose Specifics DECIDUOUS SHADE TREES 1 TREE/50’ FORMAL LANDSCAPE STRIPS MEDIANS SHADE, MASSING MINIMUM OF 35’ SPACING CONIFEROUS EVERGREEN TREES 1 TREE/100’ INFORMAL, INTERMIXED LANDSCAPE TRACT SIGHT TRIANGLES, MEDIANS & WITHIN 65’ OF R.O.W. ACCENT, SCREEN MINIMUM OF 25’ SPACING ORNAMENTAL TREES 1 TREE/60’ INFORMAL, INTERMIXED LANDSCAPE TRACT, MEDIANS, & INTERSECTIONS SIGHT TRIANGLES, WITHIN 65’ OF R.O.W. ACCENT MINIMUM OF 15’ SPACING DECIDUOUS SHRUBS 1/2 OF SHRUB MATERIAL CLUSTERED, INFORMAL ALL SIGHT TRIANGLES (SHRUBS OVER MASSING EVERGREEN SHRUBS 1/2 OF SHRUB MATERIAL CLUSTERED, INFORMAL ALL SIGHT TRIANGLES (SHRUBS OVER MASSING PERENNIALS N/R N/R SIGHT TRIANGLES, INTERSECTION CORNERS ALONG LENGTH OF STREET, MEDIANS ACCENT LOW MAINTENAN CE TURFGRASS N/R N/R LENGTH OF STREET, CORNERS 4:1 OR STEEPER SLOPES GROUND- COVER LOW WATER USE TURF MOSS ROCK BOULDERS N/R CLUSTERED SHRUB, PERENNIAL BEDS, MEDIANS, STEEP SLOPES LAWN AREAS ACCENT, SLOPE STABILIZATION MOSS ROCK, 36” MINIMUM SIZE BERMS N/R N/R ALONG LENGTH OF STREET SIGHT TRIANGLES SCREEN, VISUAL INTEREST BERMS AT MAX 4:1 SLOPE SITE FURNITURE 1 BENCH/300’ DISPERSED ALONG LENGTH OF STREET SIGHT TRIANGLES, MEDIANS PEDESTRIAN USE BENCHES, TRASH RECEPTACL ES, & LIGHTING *N/R represents not relevant at this location. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-291 Landscape Requirements for Sheridan Parkway Quantity Minimums Arrangement Ideal Locations Unacceptable Locations Purpose Specifics DECIDUOUS SHADE TREES 1 TREE/50’ FORMAL ALL MEDIANS SHADE, MASSING MINIMUM OF 35’ SPACING CONIFEROUS EVERGREEN TREES 1 TREE/100’ INFORMAL, INTERMIXED LANDSCAPE TRACT SIGHT TRIANGLES, MEDIANS & WITHIN 65’ OF R.O.W. ACCENT, SCREEN MINIMUM OF 25’ SPACING ORNAMENTAL TREES 1 TREE/60’ INFORMAL, INTERMIXED LANDSCAPE TRACT, MEDIANS, & INTERSECTIONS SIGHT TRIANGLES, WITHIN 65’ OF R.O.W. ACCENT MINIMUM OF 15’ SPACING DECIDUOUS SHRUBS 1/2 OF SHRUB MATERIAL CLUSTERED, INFORMAL ALL SIGHT TRIANGLES (SHRUBS OVER MASSING EVERGREEN SHRUBS 1/2 OF SHRUB MATERIAL CLUSTERED, INFORMAL ALL SIGHT TRIANGLES (SHRUBS OVER MASSING PERENNIALS N/R N/R SIGHT TRIANGLES, INTERSECTION CORNERS ALONG LENGTH OF STREET, MEDIANS ACCENT LOW MAINTEN- ANCE TURFGRASS N/R N/R LENGTH OF STREET, CORNERS 4:1 OR STEEPER SLOPES GROUND- COVER LOW WATER USE TURF MOSS ROCK BOULDERS N/R CLUSTERED SHRUB, PERENNIAL BEDS, MEDIANS, STEEP SLOPES LAWN AREAS ACCENT, SLOPE STABILIZATION MOSS ROCK, 36” MINIMUM SIZE BERMS N/R N/R ALONG LENGTH OF STREET SIGHT TRIANGLES SCREEN, VISUAL INTEREST BERMS AT MAX 4:1 SLOPE SITE FURNITURE 1 BENCH/300’ DISPERSED ALONG LENGTH OF STREET SIGHT TRIANGLES, MEDIANS PEDESTRIAN USE BENCHES, TRASH RECEPTACLE S, & LIGHTING *N/R represents not relevant at this location. 1063.02 Mow Strip Concrete or crushed rock mow strips shall be constructed around all grouted rock areas and utilities, including fire hydrants, phone boxes, cable boxes, light fixtures and traffic controller boxes. Mow strips shall be placed along ballfield fencing and in site specific fenced areas in Open Space. They shall be six inches thick and eighteen inches (18”) wide, and fencing shall be centered over the mow strip. All materials and locations shall be determined and approved by Broomfield. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-292 1063.03 Ditch Banks All ditch banks, inlets or outlets lined with rock or cobblestone shall be grouted and contained by a mow strip. Materials and locations shall be determined and approved by Broomfield. 1063.04 Annual Flower Beds Annual flower beds shall be designed for high visibility areas in parks or traffic medians. They shall have separate irrigation system specific for beds. The beds shall have six inches of native soil removed and replaced with five inches of approved top soil. Broomfield may amend with organic materials at the time of planting. 1064.00 Planting 1064.01 Location Staking The Contractor shall stake the proposed locations of all trees and shrubs on-site for approval by Broomfield prior to planting. Broomfield reserves the right to move, shift or adjust any or all of the stakes to better achieve the planting design intentions as shown on the approved drawings. The Contractor shall arrange to have the locations of all utility lines (including but not limited to water, sewer, gas, electrical, phone and irrigation) marked prior to the inspection. 1064.02 Seasons of Planting Planting may occur whenever the soil conditions are favorable or as authorized by Broomfield. All conifers planted in Candle growth stage shall be hand foliage watered by the Contractor for a period of one week after planting. 1064.03 Planting Procedures All plantings shall be in accordance with the Detail Drawings. The size of tree pits shall be two times the diameter of the root ball and deep enough so that the tree’s root flair remains two inches higher than finished grade after settling has occurred. The sides of the tree pit shall taper inward to the bottom of the hole. The size of shrub pits shall be twelve (12) inches in diameter greater than the container diameter and as deep as necessary to properly set the plant. All plants shall be set plumb and in the center of the pit. The root ball shall be set on compacted backfill mix. Balled and burlapped trees shall be set with backfill mixture. Backfill mixture shall be thoroughly blended prior to placement in the pit or planter bed. After placing the backfill mixture around the root ball, thoroughly water the plant to remove all voids. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-293 REMOVE ALL ROPES OR WIRES FROM THE BASES OF TREES AND SHRUBS. REMOVE WIRE BASKETS FROM ROOT BALLS BEFORE TREES AND SHRUBS ARE BACKFILLED. REMOVE CONTAINERS (INCLUDING ORGANIC MANUFACTURED BASKETS) FROM CONTAINER-GROWN PLANT MATERIALS PRIOR TO PLANTING. Plant materials stored on site shall be watered daily. Plant materials stored on site for more than forth-eight (48) hours shall be healed in with mulch. Compaction of soils in landscape areas shall be between eighty (80) and eighty-five (85) percent of the Standard Proctor per ASTM D698. 1064.04 Pruning After installation, broken and dead branches shall be removed. All pruning shall be performed with clean, sharp, sterile tools. 1064.05 Tree Wrapping After installation, all deciduous trees shall be wrapped from November 1st until April 1st of the following year. No wrapping shall be permitted until the trees have been inspected by Broomfield. The trunks of all trees shall be wrapped spirally from bottom to top, overlapping the seams and entirely covering the trunk from the ground up to the second branch. The tree wrap shall be neat, snug and secured with vinyl electric or duct tape at twenty-four (24) inch intervals or tape approved by Broomfield. Only approved four inch wide tree wrap shall be used. 1064.06 Staking and Guying Immediately after installation, all deciduous and coniferous evergreen trees shall be staked and guyed. Staking and guying shall be done with six foot tall steel tee posts. Three stakes in a triangle formation shall be used for coniferous trees. Two stakes shall be used for deciduous trees up to three inches in diameter, and three stakes shall be used for trees larger than three inches in diameter. Stakes shall be placed in undisturbed ground within the tree mulch ring. The tree shall be guyed using a one and one-half (1 ½) inch wide nylon strap with eyelets in each end. A double strand of galvanized wire shall be used to connect the nylon strap to the steel tee post. Proper tension on the guy wires shall be obtained by twisting the double strands of wire. Large trees may require additional tree posts and guys. Materials shall comply with Section 1062.02 Staking and Guying of these STANDARDS AND SPECIFICATIONS. Refer to the Detail Drawings. 1064.07 Fertilizing Trees and shrubs shall not be fertilized for the first twelve (12) months after installation. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-294 1064.08 Mulching After installation of all plant material, the Contractor shall construct a three inch high earth berm built around the tree to form a saucer. The diameter of the saucer shall be twice the diameter for deciduous trees root ball and at the drip line for coniferous evergreen trees. Mulch shall be placed in the saucer to the depth of the berm and taper to the plant crown. A small gap shall be left between the tree trunk and the mulch. Mulch shall comply with Section 1062.01 Mulch of these STANDARDS AND SPECIFICATIONS. 1064.09 Shrub Beds and Mulched Areas In areas where plants are grouped into beds, or in areas where gravel, rock or wood mulch is to be used as a ground cover, the entire bed shall be excavated to a depth of three inches , a layer of weed barrier fabric shall be installed, and three inches of suitable ground cover, such as wood mulch or rock, shall be placed over it. All seams in the fabric shall overlap a minimum of twelve (12) inches. 1064.10 Clean-Up The project site shall be kept clean. Rope, wire, burlap, empty containers, rocks, clods and other debris shall be allowed to accumulate on the site. Soil excavated from plant pits and planter beds and debris shall be removed from the site. Upon completion of the planting, all excess soils, rocks and debris, which have not previously been cleaned up, shall be removed from the site or disposed of. 1064.11 Transportation of Plant Materials All plant material shall be covered with shade cloth tarps or enclosed so the plant material is protected from the wind and sun during transportation. 1065.00 Maintenance The Contractor shall be responsible for all maintenance following installation of all plant material and shall continue maintenance procedures until the project has been accepted by Broomfield. Maintenance shall include hand watering, weeding, spraying, cultivating, trimming, mulching, wrapping, tightening and repairing of guy wires, removal and replacement of all dead materials, and resetting plants to proper grades and upright positions as required. Planting stock, replaced under warranty, shall be warranted for an additional year, 1066.00 Inspections The Contractor shall request the following required inspections at least twenty-four (24) hours in advance: ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-295 1066.01 Plant Location Staking Broomfield shall inspect the plant location stakings prior to the installation of any plant materials specified in Section 1064.01 Location Staking of these STANDARDS AND SPECIFICATIONS. 1066.02 Quantity and Quality of Plant Material Broomfield shall inspect the plant material following their delivery to the site and prior to the planting on the site. Broomfield reserves the right to reject any plant not meeting the approved design requirements for size, shape and conditions at that time. 1066.03 Planting Operations Broomfield shall inspect the planting operations, including digging, planting, pruning, wrapping, fertilizing and mulching. 1070.00 RECREATION EQUIPMENT 1071.00 General Selection of recreation equipment shall be approved by the Superintendent of Parks prior to purchase by the Contractor. In selecting equipment, the brand, style, color, size and other criteria shall be considered and jointly selected by the Contractor and Broomfield. All installations of equipment shall be done by the Contractor. 1072.00 Ballfield Specifications Adequate drainage shall be taken into account in ballfield designs. Infield slopes shall be between one and one-half (1 ½) percent and two percent. Infield shall be designed so that drainage falls away from infield surface. Outfield slopes shall be between one and one-half (1 ½) percent and two and one-half (2 ½) percent. Outfield shall be designed so that drainage falls away from infield surface. 1072.01 Softball Infield Infields shall be cut on a seventy (70) foot arc from the back center of the pitching plate. Home plate shall be twenty-five (25) feet from the backstop, and the foul line shall be twenty-five (25) feet from wing fences. The pitching plate shall be located fifty (50) feet from the back point of home plate. Up to three sets of base receptacles shall be provided to accommodate play of different age groups. Infields shall include at least irrigation heads designated to water the infield surface. The irrigation head layout design shall be approved by Broomfield before installation. 1072.02 Baseball Infield Infields shall be cut on a ninety-five (95) foot arc from the back center of the pitching plate. Home plate shall be thirty-five (35) feet from the backstop with foul lines thirty-five (35) feet ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-296 from wing fences. The pitching plate shall be located sixty (60) feet six inches from the back point of home plate. Up to three sets of base receptacles shall be provided to accommodate play of different age groups. Infields shall include at least irrigation heads designated to water the infield surface. The irrigation head layout design shall be approved by Broomfield before installation. 1072.03 Field Composition The infield area shall be excavated eight inches below grade and eight inches of suitable infield mixture (similar to Hall Irwin’s Firestone infield mix), consisting of a computer blended ninety (90) percent sand and ten (10) percent silt/clay, shall be installed, leveled, and compacted to a firm, smooth surface. All mixtures shall be approved by Broomfield prior to installation. 1072.04 Field Drainage All areas outside of ballfield fencing such as concrete bleacher pads, walks and landscaping shall be graded to drain away from the field surface. 1072.05 Fencing A. Fabric: 1. All chain link fabric shall be six gauge, knuckled selvage top; barbed or knuckled selvage bottom; two and one-half (2 ½) inch mesh. B. Posts and rails: 1. Backstop support posts shall be 4” minimum 7.29 lbs. per foot of pipe. 2. Terminal and gate posts shall be 2-7/8” O.D. minimum 4.64 lbs. per foot of pipe. 3. Line posts shall be 2-⅜” O.D. minimum 3.117 lbs. per foot of pipe. 4. Top rail and horizontal bracing shall be 1-5/8” O.D. minimum 1.836 lbs. per foot of pipe. C. Fittings and Hardware: 1. Top rail caps, rail end caps, brace bands, tension bands etc. shall be pressed steel or cast steel; all commercial quality. 2. Nuts and bolts shall be commercial fencing quality. 3. All top rail caps shall be rounded top with no points or extrusions. D. Wire and ties: 1. Post and rail tie wires shall be #12 ½ gauge steel. 2. Tension wire shall be #7 gauge steel wire. 3. Tension bar shall be 3/16” X ¾” steel. E. Dimensions: 1. Backstops shall be twenty (20) feet high, twenty (20) feet across the back with ten (10) feet wings. Baseball backstops shall include a hood. The hood on baseball backstops can be nine gauge fabric. 2. Wing fences and dugout faces shall be ten (10) feet high from the backstop to a point one-hundred (100) feet out on line. 3. Wing fences, from the ten (10) feet high section to the home run fence (if applicable) shall be four high. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-297 4. Dugout sides and backs shall be six feet high. 5. Home run fences shall be eight feet high. 6. All posts – terminal, line, and backstop posts shall be spaced ten (10) feet apart or less, with even spacing; except for dugouts. 1072.06 Dugout Covers All dugouts shall be covered with a wood framed metal roofed structure to be approved by the Parks Division prior to installation. 1073.00 Playground Equipment 1073.01 Proposal Submittals The manufacturer’s representative shall provide the following items and information to Broomfield with each playground proposal: A. Complete three-dimensional drawings of equipment. B. Individual components specifications and schematic drawings of the play system. C. A minimum of three references for similar work recently completed. Each reference shall include a brief summary of work completed, location, and the owner’s representative name and phone number. D. A schedule of work that includes the time it shall take to order and receive the playground equipment and the time it shall take to install once the play equipment is delivered. E. The name and qualifications of the installer of playground equipment. F. A letter from the manufacturer stating that the playground equipment shall meet or exceed the latest Consumer Product Safety Commission Guidelines and ASTM F1487. Letters from the manufacturers shall reference the model number or drawing numbers of each unit. G. Copies of warranty information for playground equipment to Broomfield. Warranties shall include minimum: ten (10) years on posts and decks; five years on plastic; ten (10) years on clamps, and one year on all other parts. 1073.02 Safety and ADA Requirements All playground equipment shall meet or exceed the latest CPSC Handbook for Public Playground Safety Guidelines. All play equipment and the protective ground space area around the equipment shall meet or exceed ASTM F1487 Standard Consumer Safety Performance Specifications for Playground Equipment for public use. All playground equipment shall comply with the current ADA law using ASTM F1487. This can be accomplished either by a safety surface or a ramp system as determined by Broomfield. The safety surface shall be an ADA approved surface (poured in place) for accessing the transfer point. The color of the surface shall be approved by Broomfield. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-298 1073.03 Protective Ground Space Area The play system layout for each site shall include a safety surface area surrounded by a protective barrier. The safety surface material shall be selected by Broomfield. The safety surface area shall be installed to a depth of twelve (12) inches to eighteen (18) inches depending upon the components. A sub-surface drainage system shall be installed under each protective surface area and shall be separated from the finish surfacing by a layer of landscape fabric. The design of the drainage system shall be approved by Broomfield. The composition of the barrier for protective ground space area shall be approved by Broomfield. 1073.04 Component Requirements The following requirements for equipment components apply: A. Slides shall be double walled except for tube slides. B. All barrier handrail separation bars shall be less than three and one-half (3 ½) inch apart. C. Upper body climbers shall have end step ladders excluding overhead flyers. D. Components of the play system(s) for specific sites shall by approved by Broomfield. Each playground system shall include and not be limited to: roofs, climbers, slides, bridges, ladders, arches, overheads, play panels, transfer points, decks, barriers, guard rails, protective barriers and swings. E. Playground decks shall be a minimum of forty-seven (47) inch square. The maximum opening of holes in the deck surface shall be one-quarter inch. F. Component colors shall be approved by Broomfield. 1073.05 Materials A. Playground equipment components shall comply with the following material requirements: B. Wooden structures shall not be allowed. C. All decking and steps shall be PVC coated. D. Metal slides shall not be allowed. E. Support posts to be five inch OD steel with corrosion protection and finished in powder coat with metal caps. F. Playground decks shall be metal with PVC coating. G. Deck to deck riser enclosures shall be metal. H. Swing support framework shall be five inch OD steel with corrosion protection and finished in powder coat with metal caps. 1073.06 Installation and Inspection A factory representative shall supervise the unloading of all materials shipped to the individual job sites. A company representative shall conduct a post-installation inspection to certify the proper installation of playground equipment. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-299 1080.00 WALKWAYS, MAINTENANCE PATHS AND SOFT TRAILS 1081.00 Walkways and Maintenance Paths All walkways and maintenance paths within the parks, open land areas, or greenbelts, which will be utilized by the pubic and Broomfield maintenance staff, shall be a minimum of eight feet wide, and shall be constructed with a minimum of six inch thick concrete. The concrete shall comply with Section 800.00 CONCRETE MIX DESIGN AND CONSTRUCTION of these STANDARDS AND SPECIFICATIONS. 1082.00 Soft Trails Soft trails shall comply with the Detail Drawings unless otherwise approved by Broomfield. Trails shall generally be constructed with slope less than 12.5:1 (horizontal:vertical). Short sections of trail may be constructed up to a maximum slope of 7:1, if approved by Broomfield. 1082.01 Soft Trail Subgrade The subgrade for soft trails shall consist of twelve (12) inches of moisture density treated native material compacted to ninety-five (95) percent relative density as determined by AASHTO T-99. Moisture density tests shall be performed at two-hundred and fifty (250) foot intervals to demonstrate proper sub-grade preparation. Install a geotextile fabric, Mirafi 140N or approved equal, on top of the prepared sub-grade before installing soft trail aggregate material. 1082.02 Trails With Slope Less Than 12.5:1 (Horizontal:Vertical) Soft trails with a slope of less than 12.5:1 (horizontal:vertical) shall be constructed with six inches minimum of Soft Trail Aggregate. Aggregate material shall be compacted in place to ninety-five (95) minimum of the maximum standard Proctor dry density as defined in ASTM D698. 1082.03 Trails With Slope Equal To Or Greater Than 12.5:1 (Horizontal:Vertical) Soft trails with a slope equal to or greater than 5:1 (horizontal:vertical) shall be constructed with three to five inches of Soft Trail Aggregate stabilized with a binder material. The depth of the aggregate will depend on the binder material proposed. Aggregate and binder material shall be compacted in place to ninety-five (95) minimum of the maximum standard modified Proctor dry density as defined in ASTM D698. Soft trails with a slope equal to or greater than 10:1 (horizontal:vertical) shall have cross timbers installed at twenty (20) foot intervals along the trail alignment. A. Binder Material: The binder material shall be approved by Broomfield prior to trail construction. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-300 B. Cross Timbers: Eight inch by eight inch pressure treated timbers. Timbers shall be installed at fifteen (15) degrees from perpendicular to the trail centerline. The top of the timbers shall be at the same level as the trail surface and the bottom of the timbers shall be keyed into the treated sub-grade. Each timber shall be anchored in place with three – two foot long #4 steel reinforcing bars (rebar). No part of the rebar shall protrude above the top of the timber. 1082.04 Cross Slope Soft trails shall be constructed with a uniform two percent slope from the high side of the trail to the low side. No crown shall be constructed. The intent of the cross grade is to provide sheet drainage of water across the trail and not along the trail. 1082.05 Soft Trail Aggregate Soft trail aggregate shall be inch minus decomposed granite or crushed material approximating the following gradation: Sieve Designation Range of % Passing ⅜inch 100 No. 4 70 – 100 No. 8 50 – 75 No. 16 30 – 65 No. 30 20 – 45 No. 50 10 – 30 No. 100 2 – 20 No. 200 0 - 15 Submit the specific gradation proposed for the soft trail construction. Include binder details when aggregate is intended for soft trails with a slope equal to or greater than 12.5:1 (horizontal:vertical). Soft trail aggregate material color shall be grey unless otherwise specified. 1083.00 Underpass Lighting Lighting for pedestrian underpasses and similar applications shall be a Fail-Safe VR 2000 DW, DC 6½” Decorative Series fixture from Cooper Lighting, or equal approved by Broomfield. 1084.00 Site Furnishings Submittals for site furnishings such as benches, picnic tables, trash cans, dog waste stations, etc. shall be submitted to Broomfield for approval prior to installation. ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-301 1090.00 TREES, SHRUBS, ORNAMENTAL GRASSES AND PERENNIALS Acceptable trees, shrubs, ornamental grasses and perennials for landscaping in Broomfield are included in the following lists. Other plant materials may be submitted for review and approval by Broomfield. Preference shall be given to drought resistant species. 1091.00 Evergreen Shrubs a. Juniperus Chinensus Suggested: ‘Blue point’ ‘Holbert’ ‘Spearmint’ b. Juniperus Horizontalis Suggested: ‘Bar harbour’ ‘Blue chip’ ‘Hughes’ ‘Prince of wales’ ‘Wiltoni’ ‘Youngstown’ c .Juniperus x media Suggested: ‘Hetzi glauca’ ‘Old gold’ ‘Pfitzeriana’ ‘Ppfitzeriana auria’ ‘Sea green’ d. Juniperus procumbens Suggested: ‘Greenmound’ ‘Nana” e. Juniperus sabina Suggested: ‘Arcadia’ ‘Broadmoor’ ‘Buffalo’ ‘Scandia’ ‘Seirra spreader’ ‘Tamariscifolia’ f. Juniperus scopulorum Suggested: ‘Gray gleam’ ‘Wichita blue’ g. Juniperus virginiana Suggested: ‘Skyrocket’ ‘Cupressifolia’ h. Pinus Mugo Suggested : ‘Mops’ ‘Slowmound’ ‘White bud’ ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-302 1092.00 Deciduous Shrubs Alnus tenuifolia Alder Thinleaf Amelanchier alnifolia Serviceberry Amphora canescens Leadplant Atriplex canescens Fourwing Saltbush Berberis Barberry Buddleia davidi Butterfly Bush Cargana arboresens Siberian Pea Shrub Caryopteris x clandonensis “Dark Knight” Dark Knight Spirea Caryopteris x clandonensis Blue Mist Spirea Cercocarpus montanaus Mountain Mahogony Cercocarpus intricatus Mahonia Littleleaf Mountain Mahogony Cercocarpus ledifolius Curl Leaf Mountain Mahogony Chaenomeles japonica Red Quince Chamaebatiara millefolium Fernbush nauseosus Rabbit Brush nauseosus nauseosus Dwarf Rabbit Brush Cornus sericea ‘Isanti’ Isante Dogwood Cornus alba ‘Argenteo-marginata Varigated Dogwood Cornus sericea ‘Baileyi’ Redtwig Dogwood Cornus sericea ‘ flaviramea Yellow twig Dogwood Cornus sericea ‘Kelseyi’ Kelsey’s Dogwood Corylus avellana ‘Rote Zeller’ Filbert - Red Leaf Cotinus Purple Smoke Tree Cotoneaster apiculatus Cranberry Cotoneaster Cotoneaster dammeri Coral Beauty Cotoneaster Cotoneaster horizontalis Lowfast Cotoneaster Cotoneaster lucidus Peking Cotoneaster Cytisus purgan’Spanish gold’ Spanish Gold Broom Euonymus alatus compacta Burning Bush – Compact Euonymus alatus Burning Bush Euonymus fortunei ‘Emerald Gaiety’ European Euonymus Euonymus fortunei radicans ‘Harlequin’ Euonymus Emerald Gaiety Euonymus fortunei ‘Emerald and Gold’ Emerald n’Gold Euonymus Euonymuskiautschovica 'Mannhattan’ Manhattan Euonymus Fallugia paridoxa Apache Plume Arnolds Dwarf’ Arnolds Dwarf Arnolds Gold Arnolds Gold x intermedia ‘Spring Glory’ Spring Glory Hippophae rhamnoides Sea Buckthorn Kolkwitzia amabilis Beauty Bush Ligustrum vulgare ‘Cheyenne’ Cheyenne Privet Ligustrum vulgare ‘Lodense’ Lodense Privet Lonicera korolkowii v. floribun Honeysuckle Blue Velvet da’ BlueVel’ Lonicera xylosteum compactum Honeysuckle - Emerald Mound Mahonia aquifolium Mahonia ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-303 Mahonia aquilolium compacta Compact Mahonia Perovskia atripicifloria Russian Sage Philadelphus Virginalis Littleleaf Mockorange Philadelphus lewisii ‘Cheyanne’ Cheyenne Mockorange Philadelphus x Virginalis‘Minnesota snowflake’ Minnesota Snowflake Mockorange Philadelphus x. virginalis Mock orange Virginal Physocarpus momogynus Mountain Ninebark Physocarpus opulifolius ‘Lutus’ Golden Ninebark Physocarpus opulifolius ‘Nanus’ Dwarf Ninebark Potentilla fruticosa ‘ Golden Drop’ Golden Drop Potentilla Potentilla fruticosa ‘Goldfinger’ Goldfinger Potentilla Potentilla fruticosa ‘Katherine Dyke’ Katherine Dyke Potentilla Potentilla fruticosa ‘McKay’s White’ McKay’s White Potentilla Potentilla fruticosa ‘Tangerine’ Tangerine Potentilla Prunus besseyi Western Sand Cherry Prunus besseyi ‘Pawnee Buttes’ Pawnee Buttes Sand Cherry Prunus besseyi Western Sand Cherry Prunus frutisosa Flowering Almond Prunus tomentosa Nanking Cherry Prunus virginia Choke cherry Native Prunus x cistena Cistina Plum Prunus x cistena Cistena plum Qurcus gambelli Gambel Oak Qurcus unulata Wavyleaf Oak Rhamnus frangula ‘ Columnaris Buckthorn Rhamnus frangula ‘Aspenifolia Fernleaf Buckthorn Rhamnus frangula ‘Smithii’ Smith Buckthorn Rhus aromatica Gro-low Sumac Rhus glabra Dwarf Smooth Sumac Rhus trilobata Threeleaf Sumac Rhus typhina ‘lanciniata’ Cutleaf Sumac Ribes alpinum Alpine Currant Ribes alpinum ‘Greenmound’ Greenmound Current Ribes aureum Yellow Flowering Currant Ribes uva-crispa ‘Comanchee’ Gooseberry Comanche Rosa sp. Roses Shrub, see 892.01 Salix purpurea Dwarf Artic Willow Sambucus canadensis Elder, Golden Spirea japonica ‘Goldflame’ Goldflame Spirea Spirea japonica ‘Little Princes’ Little Princess Spirea Spirea japonica ‘Froebel’ Froebel Spirea Spirea nipponica Cheyenne Snowmound Spirea Spirea x bumalda ‘Gumball’ Gumball Spirea Spirea x bumalda ‘goldmound’ Goldmound Spirea Spirea x bumalda Anthony Waterer Spirea occindentalis Western Snowberry x chenault ‘Hancock’ Hancock Coralberry ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-304 x orbiculatus Indian Current/Red Snow Coralberry Syringa meyeri , ‘Palibin’s Dwarf Korean Lilac Syringa patula ‘Miss Kim’ Miss Kim Lilac Syringa vilgaris French hybrids Lilac Syringa vulgaris alba Common White Lilac Syringa vulgaris Common Purple Lilac Syringa x chinensi Chinese Lilac Viburmum opulus ‘Nanum’ Dwarf European Cranberry Viburnum lantana Lantana Viburnum Viburnum trilobum Highbush Cranberry Viburnum trilobum ‘Compactum’ American Compact Cranberry Viburnum x burkjwoodii Burkwood Viburnum Yucca baccata Banana Yucca Yucca filamentosa Filamentosa Yucca 1092.01 Shrub Roses A. Adeleide Hoodless B. Agnes C. Austrian Copper D. Cuthberg Grant E. F.J. Grootendorst F. Hansa G. Meidiland Series (several var.) H. Morden Centennial I. Nearly Wild J. Pink Grootendorst K. Pink Prairie L. Rugosa M. Sea Foam N. Sunblaze O. The Fairy P. Therese Bugnet Q. The Hunter 1093.00 Ornamental Grasses A. Andropogon gerardii Big Bluestem B. Calamagrostis arundinacea ‘Karl Forester Feather Reed- Karl Forester C. Chasmanthium latifolium Northern Sea Oats D. Descampsia caespitosa Tufted Hair Grass E. Erianthus ravennace Pampas Grass F. Festuca glauca ‘Elijah Blue Blue Fescue G. Helictotrichon sempervirens Blue Avena / Oat Grass H. Imperarata Cylindrica ‘rubra’ Blood Grass I. Miscanthus sinensis ‘Gracillimus’ Maiden Grasses J. Misicanthus sinensis ‘Zebrinus’ Zebra Grass ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-305 K. Panicum virgatum ’Heavy Metal’ Heavy Metal Switch Grass L. Pennistum alorecuroides ‘Hameln’ Hardy /Fountain Grass M. Phalaris arundinacea ‘Pieta’ Ribbon Grass N. Schizachyrium scoparium Little Bluestem 1094.00 Deciduous Trees A. Acer ginnala Amur Maple B. Acer grandidentatum Big Tooth Maple, Wasatch Maple C. Acer platanoides ‘Emerald Queen’ Emerald Queen Maple D. Acer platanoides ‘Schewedleri’ Schwedler Maple E. Acer platanoides Norway Maple F. Acer platanoides ‘Crimson King’ Crimson King Maple G. Acer rubrum ‘Franksred’ Red Sunset Maple H. Acer saccharum ‘Green Mountian’ Green Mountain Sugar Maple I. Acer titarian Tatarian Maple J. Acer x freemanii Autumn Blaze Maple K. Aesculus carnea Horsechestnut L. Asculus glabra Ohio Buckeye M. Carpinus betulus European Hornbeam N. Carpinus caroliniana American Hornbeam O. Catalpa speciosa Western Catalpa P. Celtis occidentalis Western Hackberry Q. Corylus colurna Turkish Filbert R. Crataegus phaenphrum Washington Hawthorn S. Crataegus crus galli inermis ThornlessCockspur Hawthorn T. Crataegus mollis Downy Hawthorn U. Crataegus virdis ‘Winterking’ Winterking Hawthron V. Crataegus x mordenensis ‘Toba’ Toba Hawthorn W. Fragus sylvatica ‘Currea’ Copper Beach X. Fragus sylvatica ‘roseomarginata’ Tricolor Beech Y. Fraxinas nigra – Black Ash Black Ash Z. Fraxinus americana ‘Autumn Purple’ Autumn Purple Ash AA. Fraxinus ‘Patmore’ Patmore Green Ash BB. Fraxinus ‘Summit’ Summit Green Ash CC. Fraxinus ‘Cimarron’ Cimarron Green Ash DD. Gleditsia triacanthos inermis ‘Imperial’ Imperial Honeylocust EE. Gleditsia triacanthos inermis ‘Shademaster’ Shademaster Honeylocust FF. Gleditsia triacanthos inermis ‘Skyline’ Skyline Honeylocust GG. Gleditsia triacanthos inermis ‘Sunburst’ Sunburst Honeylocust HH. Gymnocaldus dioicus Kentucky Coffeetree II. Juglans nigra Black Walnut JJ. Koelrenteria paniculata Golden Raintree KK. Malus ‘Thunberchild’ Thunderchild Crabapple LL. Malus ‘ David’ David Crabapple MM. Malus ‘ Prairie Fire’ Prairie Fire Crabapple NN. Malus ‘ Profusion’ Profusion Crabapple ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-306 OO. Malus ‘ Radiant’ Radiant Crabapple PP. Malus ‘ Spring Snow’ Spring Snow Crabapple QQ. Malus ‘Bob White’ Bob White Crabapple RR. Malus ‘Centurion’ Centurion Crabapple SS. Malus ‘Coralburst' Coralburst Crabapple TT. Malus ‘Guinnevere’ Guinnevere Crabapple UU. Populas tremuloides Aspen VV. Prunus cerasifera ‘Newportii’ Newport Plum WW. Prunus virginiana ‘Canada Red’ Canada Red Cherry XX. Pyrus calleryana ‘Chantecleer’ Chanticleer Pear YY. Pyrus calleryana ‘Aristocrat’ Aristocrat Pear ZZ. Pyrus ussuriensis Ussurian Pear AAA. Quercus bicolor Swamp White Oak BBB. Quercus macrocarpa Burr Oak CCC. Quercus muehlenbergii Chinkapin Oak DDD. Quercus robur English Oak EEE. Quercus ruba ‘Fastigata’ Columnar English Oak FFF. Quercus rubra Northern Red Oak GGG. Quercus shumardii Shumard Oak HHH. Robinia pseudoacaia Purple Robe Locust III. Sophora japonica Japanese Pagoda Tree JJJ. Syringa retictlata Japanese Tree Lilac KKK. Tilia americana American Linden LLL. Tilia americana ‘Redmond’ Redmond Linden MMM. Tilia cordata ‘Glenleven’ Glenleven Linden NNN. Tilia cordata ‘Greenspire’ Greenspire Linden OOO. Ulmus ‘Fronter’ Frontier Elm 1095.00 Conifer Trees A. Abies concolor Fir - Concolor B. Psiudotsuga menzissii Fir - Douglas C. Larix occidentalis Larch -Western D. Pinus nigra Pine - Austrian E. Pinus heldreichii Pine - Bosnian F. Pinus aristata Pine – Foxtail, Bristlecone G. Pinus flexilis Pine - Limber H. Pinus edulis Pine - Pinyon I. Pinus ponderosa Pine - Ponderosa J. Pinus silvestris Pine - Scotch K. Pinus bungeana Pine – Lacebark L. Picea pungens Spruce - Colorado Blue ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-307 1096.00 Perennials A. Achillea spp. Yarrow B. Agastache aurantiaca Coronado Hyssop C. Agastache cana, Sinning Hyssop Sonoran Sunset D. Agastache rupestris Sunset Hyssop E. Armeria maritime Thrift F. Anchusa azurea Anchusa (Italian bugloss) G. Aquilegia spp. Columbine H. Asclepias tuberose Butterfly weed I. Aster novae-angliae Aster (New England) J. Aurinia saxatilis Basket-of-gold K. Callirhoe involucrate Winecups L. Campanula medium Canterbury bells M. Campanula spp. Harebell N. Centaurea cyanus Cornflower O. Coreopsis lanceolata Coreopsis P. Crysanthemum morifolium Hardy Mum Q. Delosperma floribundum Starburst Iceplant- Mesa Verde R. Delphinium hybrids Delphinium S. Dendranthema coccineum Painted daisy T. Dianthus barbatus Sweet Shalliam U. Dianthus First Love V. Diacia integerrim W. Dicentra spectabilis X. Coral Canyon Twin Spur Bleeding heart Y. Dictamnus albus Gas plant Z. Echinacea purpurea Purple coneflower AA. Eriogonum umbellatum Sulphur flower BB. Gaillardia aristata Gaillardia, blanket flower CC. Gazania linearism Colorado Gold Gazania DD. Gazania krebsiana Tanager Gazania EE. Geranium magniflorum Geranium, La Veta Lace FF. Geranium sanguineum Bloody Cranesbill GG. Gypsophila paniculata Baby's breath HH. Hemerocallis spp. Daylily II. Heuchera sanguinea Coral Bells Snow Angel JJ. Hosta spp. Hosta KK. Iberis sempervirens Candytuft LL. Iris hybrids Bearded iris MM. Lavandula angustifolia Lavender NN. Leucanthemum x superbum Shasta daisy OO. Liatris scariosa Gayfeather PP. Linum perenne Blue flax QQ. Lobelia cardinalis Cardinal flower RR. Lupinus Lupine SS. Monarda didyma Beebalm ---PAGE BREAK--- PARKS AND RECREATION CONSTRUCTION SECTION 1000 STANDARDS AND SPECIFICATIONS 2007 Edition PAGE 1000-308 TT. Oenothera macrocarpa subsp.incana Silverblade, Evening Primrose UU. Osteospermum barberia var. compactum Purple Mountain Sun Daisy VV. Osteospermum Lavender Mist WW. Paeonia hybrids Peony XX. Papaver nudicaule Iceland poppy YY. orientale Oriental poppy ZZ. Penstemon spp. Penstemon AAA. Penstemon grandiflorus Prairie Jewel, Pikes Peak Purple, Red Rocks BBB. Phlox paniculata Garden phlox CCC. Physostegia virginiana Dragonhead (false) DDD. Rudbeckia hirta Black-eyed Susan EEE. Rudbeckia laciniata 'Hortensiana' - Golden glow FFF. Scabiosa caucasia Pincushion flower GGG. Sedum spp. Sedum, stonecrop HHH. Thermopsis rhombifolia Golden banner, false lupine III. Veronica spicata Veronica JJJ. Viola corneta Horned violet, viola KKK. Viola odorata Sweet violet LLL. Zauschneria garrettii Orange Carpet Hummingbird Trumpet Fruit trees drop fruit onto streets, sidewalks and park areas, and may create a safety hazard. Many varieties are highly subject to insect and disease problems that require special maintenance practices. These trees may be approved by Broomfield for use as accents but shall not be used in Broomfield parks or rights-of-way (ROW) unless approved by Broomfield. ---PAGE BREAK--- ORIGINAL SIGNED DRAWINGS ARE ON FILE AT THE CITY & COUNTY OF BROOMFIELD!!! ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007 ---PAGE BREAK--- Burt Knight 1/9/2007