Document Redmond_doc_55e754f81c

Willows Road between NE 90th Street and NE 124th Street Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 100-RCE-T37723 August 2018 PRESENTED TO PRESENTED BY Department of Public Works 15670 NE 85th Street Redmond, Washington 98073 Tetra Tech 1420 Fifth Ave, Suite 550 Seattle, WA 98101 P [PHONE REDACTED] F [PHONE REDACTED] tetratech.com ---PAGE BREAK--- ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report i TABLE OF CONTENTS 1 INTRODUCTION 1.1 Purpose and Scope of Work 1.2 Willows Creek Culvert 1.3 Gun Club Creek Culvert 1.4 Background and Previous Studies 2 FISH PASSAGE DESIGN 2.1 Design Methodology and Criteria 2.2 Bankfull Width Determination 2.2.1 Willows Creek 2.2.2 Gun Club Creek 2.3 Culvert Sizing 2.4 Channel Bed Profile 3 HYDROLOGIC ANALYSIS UPDATE 3.1 HSPF Model Development 3.1.1 Climate 3.1.2 Subbasin Delineation 3.1.3 Hydrologic Response Units 10 3.1.4 Definition of FTABLES 10 3.1.5 HSPF Model 12 3.2 Flood Frequency 13 4 HYDRAULIC ANALYSIS 14 4.1 Willows Creek 14 4.1.1 HEC-RAS Modeling 14 4.1.2 Existing and Proposed Hydraulics 16 4.1.3 Aggradation / Degradation Trends 16 4.1.4 Scour Analysis 19 4.1.5 Proposed Culvert Substrate Design 20 4.2 Gun Club Creek 20 4.2.1 HY-8 Model 20 4.2.2 21 4.2.3 Proposed Culvert Substrate Design 21 5 REFERENCES 22 APPENDIX A. BANKFULL WIDTH ASSESSMENT A-1 Willows Creek A-1 ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report ii Gun Club Creek A-11 APPENDIX B. FLOOD FREQUENCY B-1 APPENDIX C. HEC-RAS OUTPUT C-1 APPENDIX D. SEDIMENT MOBILITY SUMMARY D-1 Existing Conditions D-1 Existing Sediment Mobility D-4 Proposed Bed Mobility D-4 APPENDIX E. HY-8 OUTPUT E-1 LIST OF TABLES Table 1. Land use Comparison Tributary to Project Culverts 12 Table 2. Flood Frequency Flow (cfs) at Willows Rd. 13 Table 3. Culvert Performance – Willows Creek 16 Table 4. Sediment Size for Bulk Samples and Placed Material 18 Table 5. Hydraulic Condition at Willows Creek – 100-year Return Period 19 Table 6. Proposed Culvert and Streambed Gradation – Willows Creek Culvert 20 Table 7. Culvert Performance - Gun Club Creek 21 Table 8. Proposed Culvert Substrate Gradation - Gun Club Creek 22 LIST OF FIGURES Figure 1. Project Vicinity Map Figure 2. Outlet to Willows Creek Culvert at Willows Figure 3. Inlet to Gun Club Creek Culvert under Willows Road Figure 4. Typical Section for Bankfull Width Measurement at Willows Figure 5. Typical Engineered Section for Bankfull Width Measurement at Gun Club Creek Figure 6. Cross Section for Willows Creek Culvert Figure 7. Cross Section for Gun Club Creek Crossing Figure 8. Willows Road Longitudinal Stream Profile in the Vicinity of the Road Crossing Figure 9. Gun Club Creek Longitudinal Stream Profile in the Vicinity of the Road Crossing Figure 10. Gun Club Creek Subbasins 10 Figure 11. Soils – Gun Club Creek 11 Figure 12. Land Use - Gun Club Creek 11 Figure 13. HSPF Model Schematic for Gun Club Creek 12 Figure 14. HEC-RAS Cross Sections 15 Figure 15. Willows Creek Sediment Study Reach 17 Figure 16. Sediment Placed Upstream of Road 18 Figure 17. Sediment Gradation at Bulk Sample 18 ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 1 1 INTRODUCTION Road improvements to Willows Road between NE 90th Street and NE 124th Street provide an opportunity to replace two existing culvert crossings with fish-passable structures. One crossing to be replaced lies on Willows Creek and is currently a 43-inch wide x 27-inch high corrugated metal pipe arch (CMPA). The second crossing lies directly to the north on Gun Club Creek and is a 36-inch diameter corrugated metal pipe (CMP) at the inlet that changes to a 36-inch wide 22-inch high CMPA. Both streams are tributary to the Sammamish River, providing habitat for several species of salmon and trout. Figure 1 shows the location of the Willows Creek and Gun Club Creek culvert replacement projects. Figure 1. Project Vicinity Map ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 2 1.1 PURPOSE AND SCOPE OF WORK This report documents the culvert sizing analysis for the two culverts under Willows Road. The study includes an update to a 2006 HSPF model to provide design flow data. A newly developed HEC-RAS model will be used to assess culvert conveyance and fish-passage performance. The study includes an analysis of sediment transport capacity to assist in developing scour depths and potential influence on the fish-passage design. 1.2 WILLOWS CREEK CULVERT The Willows Creek CMPA culvert at Willows Road is 43-inch wide x 27-inch high and 85 feet long. It crosses Willows Road approximately 350 feet north of NE 95th Street (see Figure Willows Creek upstream of Willows Road flows through a wooded dedicated Native Growth Protection Area. of Willows Road, the creek flows through a 12-foot wide arch pipe culvert under the Redmond Central Connector trail and then into a constructed channel and culvert system in the Willows Business Center. Figure 2 shows the existing Willows Creek culvert. Figure 2. Outlet to Willows Creek Culvert at Willows Road The Willows Creek culvert will be replaced with a 12-foot wide x 5-foot high, 83 foot long four-sided concrete box culvert. The culvert will be placed on an 30-inch deep rock pad foundation. An 24-inch layer of streambed sediment, gravel and cobble will be placed in the bottom of the channel with a triangular low–flow channel 0.5 feet deep with 3:1 side-slopes. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 3 1.3 GUN CLUB CREEK CULVERT The Gun Club Creek culvert at Willows Road is a 106 foot long pipe that was constructed in two sections. The 20- foot-long upstream section is a 36-inch diameter corrugated pipe (CMP) and the section is a 36-inch wide by 22-inch high CMPA. A catch basin is located where the pipe sections connect. A 12-inch diameter polyethylene (PE) pipe outfall from the adjacent stormwater pond also connects to the culvert at the catch basin. The culvert crosses Willows Road approximately 300 feet south of NE 100th Court (see Figure Gun Club Creek immediately upstream of Willows Road flows in a constructed channel in a narrow riparian corridor in Willows Commerce Park. of Willows Road, the creek flows through a roadside ditch/wetland north to NE 100th Court where it flows through a twin 18-inch diameter CMP culvert and then enters to a 24-inch diameter pipe system that outfalls to a tributary channel to the Sammamish River. Figure 3 shows the existing Gun Club Creek culvert. Figure 3. Inlet to Gun Club Creek Culvert under Willows Road At Gun Club Creek, the existing culvert will be replaced with a 10-foot wide by 4-foot high four-sided concrete box culvert backfilled with streambed gravel and cobble. The culvert will be placed on an 30-inch deep rock pad foundation. An 18-inch layer of streambed sediment, gravel and cobble will be placed in the bottom of the channel with a triangular low-flow channel 0.5 feet deep with 3:1 side-slopes. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 4 1.4 BACKGROUND AND PREVIOUS STUDIES Historical documentation was reviewed to gain a better understanding of site characteristics. Documents reviewed are listed in order starting from most recent: • Ross Hill Subarea Plan (Osborn Consultants, 2017) • Central Connector Stream Report (Otak, 2014) • Stormwater Master Plan Modeling – Model Documentation and Application in Willows Creek and 95th Street Pilot Watersheds Technical Memorandum (NHC, 2006) • 2005 Willows Business Center-Stream Daylighting (Taylor) • Record Drawings 2 FISH PASSAGE DESIGN The existing culverts under Willows Road at Willows Creek and Gun Club Creek will be replaced with new structures meeting fish passage per WAC 220-110-070 and sized to meet fish passage requirements outlined in Water Crossing Design Guidelines (Bernard et al., 2013). 2.1 DESIGN METHODOLOGY AND CRITERIA The Willows Creek and Gun Club Creek replacement culverts are sized to meet fish passage requirements using the Stream Simulation method described in the Water Crossing Design Guidelines. This method is used to create a stream channel through the culvert based on the natural channel slope and the bankfull width condition in the upstream reach. Local design criteria for stream crossings in the City of Redmond are defined in the Stormwater Technical Notebook (Redmond, 2017). Relevant guidance in the technical notebook states that stream culverts shall be designed to have natural bottom conditions, with 1/3 of the pipe diameter buried and bridges shall be the first choice for stream crossings. According to the Stormwater Technical Notebook, all new culverts shall be sized so that the 50-year fully developed peak flow should not exceed the allowable headwater of 1.25 times the culvert diameter and should not exceed the elevation of the base course of the roadway. If the culvert is on a stream that is determined to be fish bearing by the City of Redmond or Washington Department of Fish and Wildlife (WDFW), then the culvert should be designed to be fish passable. One foot of freeboard is recommended for debris clearance during the 100-year event. The Water Crossing Design Guidelines suggest 1 foot of clearance for a stream with bankfull width less than 8 feet and 2 feet of clearance where bankfull width is between 8 and 15 feet. Additional hydraulic design criteria found in the Washington State Department of Transportation (WSDOT) Hydraulics Manual (M23-03) state that 1 foot of debris clearance is required for the 50-year peak flow. 2.2 BANKFULL WIDTH DETERMINATION Bankfull width was determined at Willows Creek and the Gun Club Creek through field observation and validated using the hydraulic modeling. Bankfull width observations are summarized below and documented in Appendix A. 2.2.1 Willows Creek The study reach for the bankfull width determination for Willows Creek extended from Willows Road to the next road crossing upstream, about 570 feet from Willows Road. The bankfull width study reach is characterized by a confined / incised channel between the Willows Road crossing and the upstream culvert. Upstream of the bankfull width study reach, Willows Creek runs through a poorly defined braided channel within reed canary grass. The undefined upstream channel makes it impractical to estimate a bankfull width in that reach. of the ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 5 bankfull width study reach, Willows Creek flows into the Willows Business Center through a highly altered channel and culvert system. No bankfull width measurements were taken of Willows Road because the altered channel conditions preclude its use as a reference reach. Field survey was performed by Tetra Tech in December 2017 following a moderate rainfall event. Eleven cross sections were occupied and bankfull width and depth measurements were recorded. Two sediment samples were taken for laboratory sieve analysis. The stream channel is moderately incised, with measured depths ranging from 1.5 to 2.5 feet deep. At the time of field work on 12/18/2017, Willows Creek was flowing a few inches below bankfull depth, with flow estimated at about 15 to 20 cubic feet per second (cfs), based on existing hydraulic modeling. Bankfull width was estimated based on a sampling of widths at the 11 representative sections. Measured bankfull width ranged from 6 to 9 feet, with an average width of 7.9 feet, a standard deviation of 1.0 feet and a coefficient of variation of ~13%. Figure 4 shows the bankfull width for a representative section in Willows Creek. Figure 4. Typical Section for Bankfull Width Measurement at Willows Creek Bankfull width was validated using Equation C.1 found in Bernard, et al. (2013) that relates watershed area and average annual rainfall to estimated bankfull width. This equation is shown in Appendix A. The Willows Creek watershed area is 272 acres and the average annual rainfall at the project site is 42.6 inches, which results in an estimated bankfull width of 6.4 feet. The standard error of this estimate is 16%, which results in a bankfull width estimate ranging from 5.4 to 7.4 feet. The observed average value of 7.9 feet is above this range of estimate and will be used as the design bankfull width for culvert sizing. The streambed was generally a mixture and sand and very fine gravel. Bulk sediment samples were taken at two locations. Bulk sampling was chosen over pebble counts at this location due to the lack of larger particles and variability in the size of the gradation. Larger material was present near the upstream and extents of the reach as well as near existing stabilization sites, but the material was determined to be placed, based on its location and uniformity. Details on the sediment size and bankfull measurements are provided in Appendices A and D. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 6 2.2.2 Gun Club Creek Gun Club Creek is a small stream directly north of the Willows Creek drainage. The study reach for the bankfull width determination for Gun Club Creek extended from Willows Road to the next road crossing upstream, about 570 feet from Willows Road. The Gun Club Creek channel was observed to be altered from its natural condition for about 1,000 feet upstream of Willows Road. of the bankfull width study reach, Willows Creek flows into a roadside ditch and culvert system north and then east to the Sammamish River. No bankfull width measurements were taken of Willows Road because the altered channel condition precludes its use as a reference reach. Bankfull measurements were performed at four locations where measurable. Bankfull width was measured to be 6 feet wide based on sampling at two representative sites, located 300 to 400 feet upstream of Willows Road. The reach directly upstream of Willows Road was determined not to be representative because it is a constructed channel with an indeterminate bankfull width and depth. At the cross-section in this reach, top width and depth were measured instead. The stream channel could not be located at the most upstream site due to dense vegetation. Figure 5 shows the bankfull width for a representative section in the Gun Club Creek. Figure 5. Typical Engineered Section for Bankfull Width Measurement at Gun Club Creek The bankfull width estimate for the Gun Club Creek was validated using Equation C.1 found in Bernard, et al. and shown in Appendix A. The Gun Club Creek watershed area tributary to the culvert crossing is 163 acres, which results in an estimated bankfull width of 5.1 feet. With the 16% standard error, the estimated range is 4.3 to 5.9 feet. The observed value of 6 feet is higher than the upper range of the estimate and will be used as the design bankfull width for culvert sizing. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 7 2.3 CULVERT SIZING Using the Stream Simulation Method, the proposed culvert size is determined as 1.2 times the bankfull width plus 2 feet (Equation 3.2, Bernard, et al.) rounded up to the nearest foot. The minimum culvert width is computed to be 11.5 feet at Willows Creek and 9.2 feet at the Gun Club Creek. Adjusting culvert width to the next nominal size results in a 12-foot wide culvert at Willows Creek and 10-foot wide culvert at Gun Club Creek. Figure 6 shows the proposed culvert cross section for Willows Creek and Figure 7 shows the proposed culvert cross section for Gun Club Creek. Figure 6. Cross Section for Willows Creek Culvert ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 8 Figure 7. Cross Section for Gun Club Creek Crossing 2.4 CHANNEL BED PROFILE The Willows Creek channel upstream of the Willows Road culvert has an average slope of about 1 percent, with a short section immediately adjacent to the culvert with a slope of 5.4 percent. The slope of the culvert is 0.8 percent, which is within 125 percent of the channel slope criterion presented in the Water Crossing Design Guidelines (WDFW, 2013). Figure 8 shows the channel and culvert profile at Willows Creek. The profile is shown with HEC-RAS results in Appendix C. Figure 8. Willows Road Longitudinal Stream Profile in the Vicinity of the Road Crossing The Gun Club Creek channel upstream of the Willows Road culvert has a relatively steep slope at 6.5 percent. The slope of the proposed culvert is 1.0 percent, which is much less than 125% of the slope of the upstream channel slope, per the criterion presented in the Water Crossing Design Guidelines (WDFW, 2013). The channel substrate upstream of the culvert is relatively large and would likely remain immobile with minimal scour potential during large flow events. Figure 9 shows the channel and culvert profile at Gun Club Creek. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 9 Figure 9. Gun Club Creek Longitudinal Stream Profile in the Vicinity of the Road Crossing 3 HYDROLOGIC ANALYSIS UPDATE The hydrologic analysis is based on the HSPF model (USEPA, 2005) developed by NHC in 2006 (NHC, 2006) for the Willows Creek watershed. Tetra Tech updated this analysis to include Gun Club Creek and extended the climate data through 2017. In this report, the original model developed by NHC is referred to as the 2006 model and the updated model is referred to as the 2017 model. This section covers the modifications implemented by Tetra Tech for the 2017 model. The 2006 HSPF model is documented in the draft memorandum Stormwater Master Plan modeling – Model Documentation and Application in Willows Creek and 95th Street Pilot Watershed (NHC, 2006). 3.1 HSPF MODEL DEVELOPMENT The 2017 HSPF model update was based on the 2006 Willows Creek watershed calibrated HSPF model. The 2006 model was calibrated by NHC to an observed 10-minute stream flow at the City of Redmond Willows Road gage. The City of Redmond’s Overlake-Sears rain gage was used as the primary data source for rainfall. Five flow events were used for calibration, spanning water year 1999 to water year 2004. Calibration was performed based on 30-minute peak flows and 2-day volumes for selected hydrographs (NHC 2006). 3.1.1 Climate The rainfall and evapotranspiration record used in the 2006 modeling effort was extended through October 2017 using King County’s 51T Sammamish River precipitation gage. Fifteen-minute data obtained from King County were disaggregated to a 10-minute time step and appended into the existing NHC-generated rainfall record. The model was run using the extended rainfall record to evaluate flood frequency with the additional 10 years of data. 3.1.2 Subbasin Delineation The 2017 HSPF model was expanded to include Gun Club Creek. Basin delineation was performed using 1-meter bare earth LiDAR from the Puget Sound LiDAR Consortium that was collected in 2014. Basin boundaries generally follow breaks in topography, but storm drain infrastructure and aerial photography were used as well to incorporate roads and additional drainage features that alter flow pathways. Twelve basins were delineated for a total of 244 acres of drainage within the Gun Club Creek watershed. Approximately 207 acres lies west of Willows Road with about 151 acres tributary to the culvert crossing. Figure 10 shows the Gun Club Creek subbasins labeled with ID numbers. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 10 Figure 10. Gun Club Creek Subbasins 3.1.3 Hydrologic Response Units The 2017 HSPF model maintained the nine calibrated pervious and one impervious hydrologic response units developed for the 2006 model. Pervious hydrologic response units are based on soils mapping shown in Figure 11. Effective impervious area is allocated based on land-use shown in Figure 12 and effective impervious fractions used in the 2006 modeling documentation. A summary of areas associated with each hydrologic response unit for the Gun Club Creek model is provided in Table 1. For comparison, a summary of Willows Creek is provided as well. Areas provided are only for subbasins tributary to the project culverts; they do not include area between Willows Road and the Sammamish River. 3.1.4 Definition of FTABLES HSPF uses a stage-storage-discharge relationship (FTABLE) to simulate routing surface water runoff through hydraulic structures such as ponds, culverts, and open channels. Six FTABLEs were developed representing hydraulic controls within the study area that were assumed to provide significant attenuation of peak flows. The stage and discharge relationship for pipes and culverts was developed using Bentley CulvertMaster software. Storm inventory data was used to determine pipe slope and material when available. Stage and volume (storage) relationships were developed using a normal depth calculator for an approximate channel shape and multiplied by the length to determine the volume. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 11 Figure 11. Soils – Gun Club Creek Figure 12. Land Use - Gun Club Creek ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 12 Table 1. Land use Comparison Tributary to Project Culverts Location Willows Creek (acres) Gun Club Creek (acres) Till, Forest, Moderate Slope 30.2 (11%) 0.0 Till, Pasture, Moderate Slope 5.0 0.0 Till, Grass, Moderate Slope 65.6 (24%) 0.0 Outwash, Forest, Moderate Slope 13.1 30.6 (19%) Outwash, Pasture, Moderate Slope 0.5 2.6 Outwash, Grass, Moderate Slope 2.4 72.4 (48%) Alluvial 3.5 9.3 Saturated 85.8 (32%) 13.8 Effective Impervious Area 65.4 (23%) 22.1 (15%) Total Area 271.9 150.7 3.1.5 HSPF Model Configuration The HSPF model schematic for the Willows Creek model can be found in the NHC report. The Willows Creek model connections were not modified for this project. Figure 13 shows the additional model connections for Gun Club Creek developed with the 2017 model update. Figure 13. HSPF Model Schematic for Gun Club Creek ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 13 3.2 FLOOD FREQUENCY Flood frequency curves were calculated from peak annual flow estimates derived by the HSPF model using the HEC Statistical Software Package (HEC-SSP, USACE, 2016a). HEC-SSP performs statistical analysis of hydrologic data based on the methodology of Bulletin 17B and other procedures. Sixty-nine years of annual peak flows were extracted from the HSPF model and imported into HEC-SSP for reporting at Willows Road for Gun Club Creek and Willows Creek. Table 2 shows flood frequency at Willows Creek and Gun Club Creek for the culvert crossing at Willows Road (RCHRES 150 and RCHRES 900). Table 2 also shows the flood-frequency computed using the 2006 NHC HSPF model to show the change in flood-frequency with the longer record. This table shows that the flood frequency is effectively unchanged between the original 2006 HSPF model and the 2017 update. Table 2. Flood Frequency Flow (cfs) at Willows Rd. Location Willows Creek (RCHRES 150) 2017 HSPF Update Willows Creek (RCHRES 150) 2006 HSPF Gun Club Creek (RCHRES 900) 2017 HSPF Update Number of Peaks 69 58 69 Station Skew 0.754 0.802 0.822 2-year 20 20 5.5 10-year 40 40 9.2 25-year 54 54 11.7 50-year 68 68 13.8 100-year 83 84 16.2 Peak flows on a unit area basis are significantly higher for Willows Creek. This difference is attributed to different land cover between the watersheds. Land cover in the Willows Creek watershed upstream of Willows Road consists of till and saturated soils (69% of total area). The Gun Club Creek tributary area is dominated by outwash soils (70% of total area) and a relatively smaller area of impervious surface Typically, till and saturated soils generate significantly higher stormwater runoff rates than outwash soils and lower levels of impervious area. Similarly, a higher percentage of impervious area would result in higher stormwater runoff rates. Flood frequency plotting position is shown in Appendix B. The discrepancy between outwash and till areas between the Willows Creek and Gun Club watersheds is attributed to the hydrologic soil type designation used for Alderwood Soils. Earlier studies (NHC, 2006, Osborne Consultants, 2017) assumed Alderwood soils to be Type C (till) hydrologic soils. This assumption was based on guidance from the Stormwater Management Manual for Western Washington (Ecology, 2014) and the King County Soil Survey (USDA, 1973). These documents describe Alderwood soils as having a 3 foot outwash layer over a permeable till layer. The analysis described in this report assumed outwash soils based on the soil description provided by the NRCS (USDA, 2018) which indicates more than 5 feet of highly permeable material. Culvert sizing for Gun Club Creek is based on the bankfull width rather than peak flow conveyance so this discrepancy was not fully resolved. However, use of this the flow data should be carefully considered for future applications. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 14 4 HYDRAULIC ANALYSIS 4.1 WILLOWS CREEK HEC-RAS was used to simulate the performance of the existing and proposed culvert at Willows Creek and to provide a higher level of detail for evaluating scour and sediment transport capacity. 4.1.1 HEC-RAS Modeling A HEC-RAS model (USACE, 2016b) of Willows Creek study area near the proposed crossing was developed to achieve the following objectives: • Establish water surface elevations pre- and post-project for the Willows Creek culvert replacement. • Evaluate scour and sediment transport capacity. Existing and proposed geometries were developed extending approximately 600 feet upstream and 800 feet of the Willows Road culvert crossing. Three culvert crossings are included in the model to ensure adequate representation of tailwater conditions at the Willows Road culvert. Crossings include triple 24- inch CMPs located 340 and 230 feet of the Willows Road culvert and a 12-foot wide pipe arch culvert under the Redmond Central Connector Trail immediately of Willows Road. A 60-inch diameter CMP culvert about 570 feet upstream of the Willows Road Crossing was also included in the model. Twenty-eight cross sections were georeferenced into the HEC-RAS model using the HEC-GeoRAS 10.2 tool within ArcGIS. The HEC-GeoRAS tool allows for the automated development of the RAS geometry schematic including the extraction of topographic elevations from the developed terrain. Data sources for cross-section geometry came from three separate sources: 2017 topographic survey, cross section survey from the 2016 study, and bare-earth LiDAR collected in 2014 for the City of Redmond. Figure 14 shows the HEC-RAS cross sections upstream of Willows Road. Topographic survey performed in 2017 was used as the primary source of geometry in the immediate vicinity of the Willows Road crossing. The survey extended 700 feet upstream of the Willows Road culvert crossing, and included measurement of culvert inverts, and diameters as well as slope conditions. A Triangular-Irregular-Network (TIN) terrain model was developed as part of topographic survey extending approximately 50 feet upstream and 100 feet Sections were cut from this terrain to represent the area immediate to the project culvert crossing. An additional five cross sections were collected upstream of Willows Road. Cross sections were maintained from the 2006 survey to provide greater detail within the upstream and reaches. Geometry surveyed in 2006 and georeferenced transect lines were maintained, allowing for the incorporation of SWMM sections with the additional survey. Through field investigation, it appears that there were no major geomorphic changes in Willows Creek between 2006 and present. Therefore, the 2006 cross sections were assumed to be accurate for the purposes of this study. Elevation data from the 2016 study were adjusted to account for the conversion of vertical datum from NGVD29 to NAVD88. Bare-Earth LiDAR (Quantum Spatial 2014) was obtained from the Puget Sound LiDAR Consortium and included in the model to supplement additional geometry where survey was not performed. In order to retain the accuracy of the dataset, the ground classification points were extracted from the LAS dataset and developed into a TIN. This provided greater resolution to capture elevation changes and grade breaks than the raster version of the LiDAR dataset. Manning’s roughness numbers were originally extracted from the SWMM model and used as a starting point for RAS model development. After evaluating field conditions, it was concluded that increasing model roughness values would be warranted. Chanel roughness was 0.045 and overbank roughness was 0.07, except near the proposed structure, where the overbank roughness used ranged from 0.04-0.06. of the proposed culvert, Manning’s roughness numbers were between 0.03-0.04 for both the channel and the overbank. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 15 Figure 14. HEC-RAS Cross Sections model extents not shown ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 16 The model reach boundary conditions assumed normal depth with a slope of 1% upstream and 0.5% in the perched channel system. Slope conditions were based on channel slopes from 2017 survey. Model sensitivity to tailwater was tested, and it was determined that intermediate culverts control flow conditions at the Willows Road culvert rather than tailwater conditions in the perched channel. Backwater effects of the Sammamish River were assumed to be mitigated by overflow from the perched channel in the reach of the model reach. During a flood, stream flow in the channel overtops the banks and spills into the lower elevation parking area of the business park. The proposed concrete culvert at Willows Road was modeled as a bridge with a 12-foot opening and a triangular low–flow channel 0.5 feet deep with 3:1 side-slopes. Substrate in the channel was assumed to be streambed sediment/cobble with a roughness coefficient of 0.035, which is typical for this type of material. 4.1.2 Existing and Proposed Hydraulics The HEC-RAS model was used to evaluate culvert hydraulics for the existing CMPA culvert and the proposed concrete box structure. Hydraulics at the crossing are summarized in Table 3. The water surface profiles for the existing and proposed culvert and detailed output are provided in Appendix C. Table 3. Culvert Performance – Willows Creek Return Period (years) Discharge (cfs) Existing Culvert Proposed 12’x 5’ Box Culvert Headwater Elevation (feet NAVD88) Headwater Elevation (feet NAVD88) Average Flow Depth (feet) Freeboard (feet) Velocity (fps) 2 20 42.53 41.70 1.2 1.8 2.9 10 40 45.05 42.10 1.6 1.4 3.7 25 54 45.92 42.26 1.8 1.2 4.2 50 68 46.03 42.38 1.9 1.1 4.5 100 83 46.0 42.51 2.0 1.0 4.8 4.1.2.1 Culvert Headwater The model predicted overtopping of the existing roadway for the 25-year storm event. The 10-year event was surcharged above the top of culvert. The 2-year event provided sufficient capacity, with over 1 foot of freeboard within the pipe. The proposed concrete box culvert would reduce the headwater elevation by nearly 4 feet for the 25-year event. Freeboard for the 100-year design event is 1.0 foot and meets the design criteria. 4.1.3 Aggradation / Degradation Trends Bed-material sediment mobility and corresponding aggradation/degradation trends in the vicinity of the proposed culvert crossing were evaluated. Figure 15 shows the study reach and four subdivisions of it (1A – 1D). Provisional results indicate that sufficient continuity in transport potential exists to route sands and gravels supplied from Reach 1A through Reach 1B and 1C to the detention pond in Reach 1D. The analysis of aggradation/degradation trends is documented in Appendix D. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 17 Figure 15. Willows Creek Sediment Study Reach 4.1.3.1 Existing Conditions The sediment mobility study area is upstream of the Willows Road crossing and falls within Reach 1 as shown in Figure 15. In general, Reach 1 is characterized by gradually flattening slopes, with Reach 1A, being an alluvial fan that stores sediment, Reach 1B a transition reach with channel-spanning log weirs that store sediment, Reach 1C a response reach, and Reach 1D a depositional reach that ends in an inline detention pond. The existing channel bed in the vicinity of the Willows Road crossing was observed during a field visit in December 2017 (see Appendix Figure 16 shows an example of the placed sediment upstream of the road crossings. Coarse material present on the surface of the channel bed in localized patches—coincident with the existing Willows Road culvert crossing (between Reaches 1C/1D) and the next crossing upstream (between 1B/1C)—was partially covered with finer material. This coarse material appears to have been placed in the channel as part of the culvert installation and remained relatively immobile. The placed material generally appeared to be uniformly distributed with coarse gravel, small cobbles, and a limited amount of large cobble material. Two pebble counts were performed to characterize the surface layer of sediment immediately upstream of the crossing. The first pebble count was performed in the vicinity of Site W1 between Station 10+60 (see Figure 16) at the culvert face and Station 10+30, where a natural break in the sediment distribution was observed. The second pebble count was performed in the vicinity of Site W2 and spanned from Station 10+30 to Station 10+10, where coarse sediment was no longer observed. Results yielded D50 values of 51 mm and 42 mm, respectively. Outside the culvert transition areas where the coarser placed material was observed, the channel bed was found to consist of much finer sediment, predominantly unconsolidated patches of sand and gravel. Two bulk samples of bed material were collected in Reach 1C for sieve analysis. Sample 1 was collected about 60 feet upstream of the existing Willows Road culvert at Site W3 and Sample 2 was collected about 385 feet upstream of the culvert at Site W9. Both samples consisted of relatively fine material—approximately three-quarters sand and one-quarter gravel. The median particle size was coarse sand in the sample and very fine gravel in the upstream sample. Figure 17 shows an example of the bulk sample material. Table 4 shows the gradation for the pebble counts and bulk samples. Figure 15 shows sample locations. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 18 Figure 16. Sediment Placed Upstream of Road Culverts Figure 17. Sediment Gradation at Bulk Sample Locations. Table 4. Sediment Size for Bulk Samples and Placed Material Size Class (Cumulative Percent of Sample) Placed Material 0 – 30 feet Upstream of Culvert at site W1 Placed Material 30 - 50 feet Upstream of Culvert at site W2 Bulk Sample at Site W3 Bulk Sample at Site W9 D16 5 mm 4 mm 0.16 mm 0.30 mm D50 51 mm 42 mm 0.7 mm 2.3 mm D84 108 mm 83 mm 5.0 mm 6.1 mm D90 119 mm 96 mm 5.9 mm 6.9 mm ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 19 4.1.3.2 Sediment Mobility The HEC-RAS model was used to evaluate the magnitude and continuity of sediment mobility in Reach 1. Results indicate a general trend of moderately decreasing shear stress from upstream to in the upper 375 feet of Reach 1C. The channel grade steepens about 160 feet upstream of the Willows Road culvert where the channel curves to the northeast and approaches Willows Road. Despite the increased approach slope, the backwater created by the existing Willows Road culvert effectively dampens the hydraulic energy in the upstream approach section, resulting in deposition of sands and gravels. In addition, the reduced capacity of the existing culvert results in increased outlet energy, sufficient to mobilize small cobble particles up to 32 mm. The proposed Willows Road crossing would have increased hydraulic capacity, allowing the steeper slope of the upstream approach section to influence the hydraulics. Provisional results indicate that the upstream approach section would experience increased shear stress within the upstream 160-foot-long reach. The velocity and shear stress through and at the culvert outlet would be dampened relative to existing conditions. Immediately upstream of the proposed culvert, the local channel is armored with placed small cobble material (up to 90 mm), which would be partially mobilized under flows exceeding 20 cfs. This mobilization could result in short-term channel adjustment between 0 and 1.2 feet and subsequent smoothing of the energy grade in the 160-foot-long section of Willows Creek upstream of the road culvert. However, vegetation and spanning logs in the channel may reduce the potential for readjustment. Monitoring of the channel profile and adaptive management is recommended for this channel. If readjustment occurs, additional stabilization measures, such as large wood and channel substrate fortified with a cobble mix (median size 76mm) be installed as a maintenance action. 4.1.4 Scour Analysis Three types of scour are possible at a box culvert: • Contraction scour is caused by flow constriction in the structure compared to upstream. Contraction scour can be either live-bed or clear-water, depending on whether the bed material is mobilized upstream of the crossing. Contraction scour depends on the channel discharge, width, and depth upstream and at the structure. • Pressure scour adds to contraction scour by causing plunging flow at the structure opening. Pressure scour is not a consideration for this structure because the culvert top is not in contact with the water surface. • Local scour occurs at the upstream corners of the culvert. Table 5 shows the structure and upstream hydraulic results for proposed conditions at Willows Creek for the 100-year discharge. Because the discharge is contained in the channel and the upstream width is approximately the same as the structure opening width, no contraction scour is expected for the 100-year event. This assumption is supported by the fact that the velocity in the structure is less than the upstream channel velocity. The calculated scour for these conditions is less than zero, which indicates that no contraction scour will occur, but some sedimentation is likely along the side of the opening. Table 5. Hydraulic Condition at Willows Creek – 100-year Return Period Location HEC-RAS XC Discharge (cfs) Top Width (feet) Flow Velocity (feet/second) Hydraulic Depth (feet) Channel upstream of Culvert 4000 83 9.2 6.6 1.4 In Proposed Culvert 3909.4 83 12.0 4.4 1.6 The HEC-18 manual (FHWA, 2012) includes an equation for box culvert scour that is only applicable for free surface flow conditions in the culvert (no pressure flow) and clear-water bed conditions. The proposed culvert is not in pressure flow, but has live-bed (mobile) conditions upstream. Because this culvert does not constrict the upstream channel, application of this equation would indicate that no local scour is expected at the culvert. This finding is ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 20 reasonable for live-bed conditions, because computed clear-water scour is more severe when live-bed conditions actually exist. During extreme events, the bed will mobilize and general scour can occur. General scour includes the passage of bed forms and the mobile layer of the bed. General scour was calculated using two methods: Blench (1969) and Lu et al. (2012). The general scour for the 100-year event calculated by these two methods is 1.9 and 1.5 feet, respectively. Therefore, an average general scour value of 2 feet is recommended for this crossing. There is uncertainty in the scour estimate due to the uncertainty in the estimate of peak flows derived with the HSPF model. This uncertainty is mitigated somewhat by the use of a calibrated model, although future climate trends were not considered in the scour analysis. Another source of uncertainty is the use of an uncalibrated HEC-RAS model to determine the physical parameters (depth, velocity, shear stress) used as input to the formulas for scour. Some of this uncertainty is addressed by the use of surveyed cross sections in the model and a conservative estimate of input parameters (e.g. Manning’s roughness coefficients). A third source of uncertainty is that the formulas used to develop scour estimates are based on empirical rather than theoretical relationships between scour and sediment gradation. However, these formulas have been in use for a number of years and have been shown to provide conservative estimates of scour. 4.1.5 Proposed Culvert Substrate Design The streambed gradation for the proposed culvert was designed based off the shields approach as documented within the WDFW Stream Habitat Restoration Guidelines (Cramer 2012). Results of the hydraulic model show a critical shear up to 1.0 lbs/ft2 though the proposed culvert, supporting a maximum shear stress capable of moving up to the 32 mm size class (See Appendix Bed material was sized for the D100 to remain stable up to the 100- year event due to the highly altered system Higher shear stresses exceeding 2.0 lbs/ft2 are found immediately upstream of the proposed culvert, capable of mobilizing up to the 64mm size class. However, larger material with a D84 ranging from 83 mm - 108 mm is located immediately upstream and the material is expected to remain relatively stable despite increased shear stress due a reduced backwater condition. A mixture of 35% streambed sediment (WSDOT 9-03.11(1)) per part of 6-inch minus Streambed Cobble (WSDOT 9-03.11(2)) will be specific for the design. Streambed cobble has an average 35% void space and 2-inch minus streambed sediment is used to fill void space and increase the stability of the mixture. The proposed streambed gradation is provided below in Table 6. Table 6. Proposed Culvert and Streambed Gradation – Willows Creek Culvert Particle Frequency Particle Size (mm) Particle Size (inch) D100 152 6.00 D84 113 4,5 D65 58 2.3 D50 42 1.7 D35 26 1.0 D16 9 0.3 4.2 GUN CLUB CREEK 4.2.1 HY-8 Model The culvert hydraulics at Gun Club Creek were analyzed using the HY-8 model (FHWA, 2015). The HY-8 model is specifically designed for culvert analysis and is able to evaluate a wide variety of culverts types and site conditions. The hydraulic analysis for Gun Club Creek assumed a 10-foot wide, 4-foot high rectangular concrete box structure. Culvert sizing was determined based on bankfull width documented in Section 2.2. A user-defined shape was ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 21 assumed, in order to incorporate a low-flow channel in the bottom of the culvert. The culvert was analyzed using a roughness coefficient of 0.013, which is typical of concrete. The low–flow channel was assumed to be a triangular channel 0.5 feet deep with 3:1 side-slopes. Substrate in the channel was assumed to be streambed sediment/cobble with a roughness coefficient of 0.035, which is typical for this type of material. Tail-water conditions were established based on uniform flow in the roadside channel. This is a grass- lined channel with a 10-foot bottom width, 1:1 side-slopes and 0.5% longitudinal slope. A 0.035 roughness coefficient, typical of grass conditions, was assumed for this channel. 4.2.2 Results Table 7 summarizes the hydraulic performance of the existing and proposed culvert at Gun Club Creek. HY-8 output is provided in Appendix E. Model results show that existing Gun Club Creek culvert has sufficient capacity to convey peak flows up to and including the 100-year event without surcharging at the upstream end. However, the end is submerged due to high tailwater. Furthermore, for modeling purposes the Gun Club Creek existing culvert was simplified to a single 36" CMP pipe with a length of 110 feet. This overestimates existing capacity by not accounting for losses in the manhole and the smaller pipe The proposed concrete box culvert would reduce the headwater elevation by approximately 0.2 to 0.4 feet for events at or above the 25-year peak design flow. The proposed culvert would not significantly reduce headwater because of the relatively high tailwater conditions at the culvert outlet. The high tailwater conditions are due to capacity restrictions in the roadside ditch and culvert system that drains to the north. Freeboard for the 100-year design event is 0.7 feet, which is less than the 1-foot design criterion. Adjustment to the channel independent of the culvert slope during the design process could result in meeting the freeboard criterion, but franchise utility conflicts will need to be resolved prior to making this adjustment. However, the potential for debris loading in this system is limited due to the relatively small size of the upstream channel. Furthermore, the roadway prism is fairly shallow, and higher freeboard would require raising the road profile. Table 7. Culvert Performance - Gun Club Creek Return Period (years) Discharge (cfs) Existing Culvert Proposed 10’x4’ Box Culvert Headwater Elevation (feet NAVD88) Headwater Elevation (feet NAVD88) Inlet Depth (feet) Freeboarda (feet) Flow Depthb (feet) Velocity (fps) 2 5.5 35.82 35.94 0.6 1.9 0.6 2.5 10 9.2 36.26 36.30 1.0 1.5 2.1 0.5 25 11.7 37.17 37.02 1.7 0.8 2.5 0.6 50 13.8 37.38 37.08 1.8 0.7 2.5 0.7 100 16.2 37.52 37.14 1.8 0.7 2.5 0.8 a. Measured at culvert entrance. b. Measured at culvert outlet. 4.2.3 Proposed Culvert Substrate Design The streambed gradation for the Gun Club Creek culvert was designed based off the shields approach as documented within the WDFW Stream Habitat Restoration Guidelines (Cramer, 2012). Results of the HY-8 model show a maximum shear stress of approximately 0.5 lbs/ft2 capable of mobilizing material up to the 1-inch size class. Maximum shear stress occurs at the 2-year event due to a high tailwater reducing shear stress at larger flows. Bed material was sized for the D100 to remain stable through all events due to the highly altered system A mixture of 35% streambed sediment (WSDOT 9-03.11(1)) per part of 4-inch minus Streambed Cobble (WSDOT 9- 03.11(2)) will be specific for the design. Streambed cobble has an average 35% void space and 2-inch minus ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report 22 streambed sediment is used to fill void space and increase the stability of the mixture. The proposed streambed gradation is provided below in Table 8. Table 8. Proposed Culvert Substrate Gradation - Gun Club Creek Particle Frequency Particle Size (mm) Particle Size (inch) D100 102 4.0 D84 72 2.8 D65 54 2.1 D50 40 1.6 D35 25 1.0 D16 20 0.8 5 REFERENCES Bernard, R.J., J. Johnson, P. Brooks, K.M. Bates, B. Heiner, J.P. Klavas, D.C. Ponder, P.D. Smith, and P.D. Powers. 2013. Water Crossing Design Guidelines, Washington Department of Fish and Wildlife, Olympia, WA. Cramer, Michelle L. (managing editor). 2012. Stream Habitat Restoration Guidelines. Copublished by the Washington Departments of Fish and Wildlife, Natural Resources, Transportation and Ecology, Washington State Recreation and Conservation Office, Puget Sound Partnership, and the U.S. Fish and Wildlife Service. Olympia, Washington. Federal Highway Commission. 2012. Hydraulic Engineering Circular No. 18, Evaluating Scour at Bridges, Fifth Edition. FHWA-HIF-12-003 Federal Highway Administration. 2015. HY-8 Culvert Analysis Program. Version 7.40. Northwest Hydraulic Consultants, Inc. 2006. Draft – Stormwater Mater Plan Modeling- Model Documentation and Application in Willows Creek and 95th Street Pilot Watersheds. Memorandum prepare for Stephen Hitch, City of Redmond. Osborn Consulting, Inc. 2017. Rose Hill Subarea Plan. Prepared for City of Redmond, WA. Otak, Inc. 2014. Redmond Central Connector, Phase 2 Drainage Report (60 Percent). Prepared for City of Redmond, WA. Taylor Associates, Inc and RW Beck. 2005 Willows Creek Center-Stream Daylighting Habitat Report. Prepared for City of Redmond, WA. U.S. Army Corps of Engineers (USACE). 2016a. Statistical Software Package, HEC-SSP 2.1.00.137 Hydrologic Engineering Center. Davis, CA U.S. Army Corps of Engineers (USACE). 2016b. River Analysis System, HEC-RAS 5.0.1. Hydrologic Engineering Center. Davis, CA U.S. Department of Agriculture (USDA), Soil Conservation Service. 1973. Soil Survey, King County Area, Washington. In cooperation with Washington Agricultural Experiment Station. U.S. Department of Agriculture (USDA), Natural Resources Conservation Service. Website accessed 2018. Custom Soil Resource Report for King County Area, Washington: Willows Road Culvert Improvement. U.S. Environmental Protection Agency (USEPA). 2005. Hydrologic Simulation Program – Fortran. Release 12.2. United States Environmental Protection Agency. Washington, D.C. Washington State Department of Ecology (Ecology). 2014. 2012 Stormwater Manual for Western Washington, as amended in December 2014, Olympia, WA. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.1 APPENDIX A. BANKFULL WIDTH ASSESSMENT A field investigation was performed by Tetra Tech staff in December 2017 to determine bankfull width of Willows Creek and the Gun Club Creek. This assessment was performed to support the design of the replacement culverts at Willows Road. A moderate rainfall event occurred prior to the assessment which elevated flows but did not interfere with the bankfull width determination. Bankfull width was also validated using equation C.1 from Bernard, et al. (2013), shown below. WILLOWS CREEK Willows Creek runs through poorly defined braided channel within reed canary grass until it reaches the Puget Sound Energy business park. This reach is characterized by a moderately confined / incised channel between the Willows Road crossing and the upstream culvert marking the upstream extent of the study reach. Eleven cross sections were occupied and bankfull width / depth measurements were recorded. Two sediment samples were taken for laboratory sieve analysis. The incised channel was measured to be approximately 1.5 to 2.5 feet deep and average approximately 8.0 feet wide. Bankfull width sample site locations are shown in Figure A- 1 and width measurements are listed in Table A-1. Photos showing the bankfull width measurement follow the table. At the time of field work, the stream was flowing a few inches below bankfull depth and estimated to be about 15- 20 cfs based on existing hydraulic modeling. Bankfull width was validated using the Equation C.1 from Bernard et.al. (shown above). The Willows Creek watershed area is 272 acres and the average annual rainfall at the project site is 42.6 inches, which results in an estimated bankfull width of 6.4 feet. The standard error of this estimate is 16%, which results in a bankfull width estimate ranging from 5.4 to 7.4 feet. The observed average value of 7.9 feet is above this range of estimate and will be used as the design bankfull width for culvert sizing. The streambed is generally a mixture and sand and very fine gravel. Bulk sediment samples were taken at Site W3 and Site W9. Pebble counts were not performed at those locations due to the lack of larger particles and variability in the size of the gradation. Larger material was present near the upstream and extents of the reach as well as near existing stabilization sites, but the material was determined to be placed due its location and uniformity. Details on the sediment gradation are provided in Figures D-3 and D-4. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.2 Figure A-1. Willows Creek Bankfull Width Measurement Locations ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.3 Table A-1. Willows Creek Bankfull Width Summary Sitea CAD Cross- Section Distance Upstream of Willows Road Centerline (feet) Bankfull Width (feet) Bankfull Depth (feet) Comments W1 10+48 60 9.0 N/A Pebble count location W2 10+29 75 6.0 1.5 Pebble count location W3 9+90 115 8.0 2.4 Bulk sample location W4 9+00 195 9.0 1.4 W5 8+43 250 9.0 1.3 W6 8+21 275 7.0 2.0 W7 7+61 320 7.0 1.7 W8 7+26 365 8.0 1.7 W9 6+60 430 9.0 1.8 Bulk sample location W10 5+88 485 8.0 2.0 W11 4+99 560 7.0 1.6 Immediately d/s of PSE road Average 7.9 1.7 a. See Figure A-1. WILLOWS CREEK SITE: W1 BANKFULL DEPTH: N/A BANKFULL WIDTH: 9.0’ ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.4 WILLOWS CREEK SITE: W1 SEDIMENT SAMPLE ASSUMED TO BE PLACED DURING CULVERT INSTALLATION WILLOWS CREEK SITE: W2 BANKFULL WIDTH: 6.0’ BANKFULL DEPTH: 1.5' ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.5 WILLOWS CREEK SITE: W3 BANKFULL WIDTH: 8.0’ BANKFULL DEPTH: 2.4’ WILLOWS CREEK SITE: W4 BANKFULL WIDTH: 9.0’ BANKFULL DEPTH: 1.4’ ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.6 WILLOWS CREEK SITE: W5 SEDIMENT SAMPLE ASSUMED TO BE PLACED DURING STREAM STABILIZATION DESIGN WILLOWS CREEK SITE: W5 BANKFULL WIDTH: 9.0’ BANKFULL DEPTH: 1.3’ ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.7 WILLOWS CREEK SITE: W6 BANKFULL WIDTH: 7.0’ BANKFULL DEPTH: 2.0’ WILLOWS CREEK SITE: W6 SEDIMENT SAMPLE ASSUMED TO BE PLACED DURING STREAM STABILIZATION DESIGN ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.8 WILLOWS CREEK SITE: W7 BANKFULL WIDTH: 7.0’ BANKFULL DEPTH: 1.7’ WILLOWS CREEK SITE: W8 BANKFULL WIDTH: 8.0’ BANKFULL DEPTH: 1.7’ ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.9 WILLOWS CREEK SITE: W9 BANKFULL WIDTH: 9.0’ BANKFULL DEPTH: 1.8’ WILLOWS CREEK SITE: W9 REPRESENTATIVE SEDIMENT SAMPLE ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.10 WILLOWS CREEK SITE: W10 BANKFULL WIDTH: 8.0’ BANKFULL DEPTH: 2.0’ WILLOWS CREEK SITE: W11 BANKFULL WIDTH: 7.0’ BANKFULL DEPTH: 1.6’ ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.11 WILLOWS CREEK SITE: W11 SEDIMENT SAMPLE ASSUMED TO BE PLACED DURING CULVERT INSTALLATION GUN CLUB CREEK The Gun Club Creek is a small stream directly north of the Willows Creek drainage. The channel was observed to be heavily engineered in the lower reaches and naturally braided and poorly defined through reed canary grass in the upper reaches. Four cross-sections were occupied and bankfull measurements were performed where measurable. No sediment samples were taken because sediment appeared to be placed in the lower reaches and not within the active channel in the upper reach. Average bankfull width was measured to be 6 feet wide. Site GC1 is not a natural channel and has no bankfull width or depth associated, top width and depth were measured in its place. Site GC4 provides a typical section upstream of the engineered portion of the stream where access could be found due to dense vegetation. Bankfull width sample site locations are shown in Figure A-2 and width measurements are listed in Table A-2. Photos showing the bankfull width measurement follow the table. The bankfull width estimate for the Gun Club Creek was validated using the equation from Bernard et.al. (shown above). The Gun Club Creek watershed area tributary to the culvert crossing is 163 acres, which results in an estimated bankfull width of 5.1 feet. With the 16% standard error, the estimated range is 4.3 to 5.9 feet. The observed value of 6 feet is higher than the upper range of the estimate and will be used as the design bankfull width for culvert sizing. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.12 Figure A-2. Gun Club Creek Bankfull Width Measurement Sites ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.13 Table A-2. Gun Club Creek Bankfull Width Summary Sitea Distance Upstream of Willows Road Centerline (feet) Bankfull Width (feet) Bankfull Depth (feet) Comments GC1 85 11b 1.5b Engineered channel GC2 285 6.0 1.2 Representative of bankfull conditions in stream GC3 425 6.0 1.3 Representative of bankfull conditions in stream GC4 9.0 N/A Reach undefined Representative Bankfull Width 6.0 1.2 a. See Figure A-2. b. Top width and maximum depth reported. GUN CLUB CREEK SITE: GC1 ENGINEERED CHANNEL DIRECTLY UPSTREAM OF WILLOWS ROAD TOP WIDTH = 11’ MAX DEPTH = 1.5’ ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.14 GUN CLUB CREEK SITE: GC2 OF 24” DIA. CULVERT BANKFULL WIDTH: 6.0’ BANKFULL DEPTH: 1.2’ GUN CLUB CREEK SITE: GC3 UPSTREAM OF 24” DIA. CULVERT BANKFULL WIDTH: 6.0’ BANKFULL DEPTH: 1.3’ ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report A.15 GUN CLUB CREEK SITE: GC4 UPSTREAM IN UNDEFINED REACH BANKFULL WIDTH: 9.0’ BANKFULL DEPTH: N/A ---PAGE BREAK--- ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report B.1 APPENDIX B. FLOOD FREQUENCY Figure B-1 Flood Frequency, Willows Creek at Willows Road Crossing 2017 HSPF Update Figure B-2 Flood Frequency, Gun Club Creek at Willows Road Crossing 2017 HSPF Update ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report B.2 Figure B-3 Flood Frequency, Willows Creek at Willows Road Crossing 2006 HSPF ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report C.1 APPENDIX C. HEC-RAS OUTPUT Figure C-1. Willows Creek 2-year Flood Profiles Figure C-2. Willows Creek 10-year Flood Profile ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report C.2 Figure C-3. Willows Creek 25-year Flood Profile Figure C-4. Willows Creek 50-year Flood Profile ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report C.3 Figure C-5. Willows Creek 100-year Flood Profile Figure C-6. Willows Creek River STA 4050.6 Cross Section ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report C.4 Figure C-7. Willows Creek HEC-RAS Cross-section Locations ---PAGE BREAK--- Reach River Sta Profile Q Total Max Chl Dpth Volume Top W Act Chan Flow Area Ch Hydr Depth Q Channel Vel Chnl Hydr Radius C Shear Chan Top Width Froude # Chl (cfs) (ft) (acre-ft) (ft) (sq ft) (ft) (cfs) (ft/s) (ft) (lb/sq ft) (ft) Willows_Creek 4738 2-Yr 20.00 0.86 0.45 11.90 6.70 0.56 20.00 2.99 0.55 0.62 11.90 0.70 Willows_Creek 4738 10-Yr 40.00 1.24 0.98 13.54 11.56 0.85 40.00 3.46 0.82 0.73 13.54 0.66 Willows_Creek 4738 25-Yr 54.00 1.46 1.38 13.87 14.56 1.01 53.98 3.71 1.01 0.78 14.54 0.64 Willows_Creek 4738 50-Yr 68.00 1.66 1.58 13.87 17.30 1.13 67.81 3.92 1.20 0.83 15.58 0.62 Willows_Creek 4738 100-Yr 83.00 1.85 1.80 13.87 19.98 1.25 82.40 4.12 1.38 0.87 16.58 0.61 Willows_Creek 4711 2-Yr 20.00 1.42 0.44 13.33 14.75 1.10 20.00 1.36 1.04 0.10 13.43 0.23 Willows_Creek 4711 10-Yr 40.00 1.87 0.97 13.41 20.79 1.38 39.87 1.92 1.46 0.19 15.40 0.27 Willows_Creek 4711 25-Yr 54.00 2.12 1.37 13.41 24.12 1.51 53.52 2.22 1.69 0.24 16.72 0.29 Willows_Creek 4711 50-Yr 68.00 2.33 1.57 13.41 27.05 1.62 66.93 2.47 1.90 0.28 17.87 0.31 Willows_Creek 4711 100-Yr 83.00 2.54 1.78 13.41 29.85 1.44 81.18 2.72 2.10 0.33 23.13 0.32 Willows_Creek 4681 2-Yr 20.00 1.45 0.43 9.66 8.24 0.85 20.00 2.43 0.81 0.36 9.66 0.46 Willows_Creek 4681 10-Yr 40.00 1.71 0.96 10.47 10.89 1.00 39.99 3.67 0.99 0.78 10.94 0.64 Willows_Creek 4681 25-Yr 54.00 1.89 1.35 10.47 12.77 1.10 53.88 4.22 1.16 0.97 11.80 0.67 Willows_Creek 4681 50-Yr 68.00 2.09 1.55 10.47 14.85 1.21 67.53 4.55 1.34 1.07 12.75 0.67 Willows_Creek 4681 100-Yr 83.00 2.28 1.76 10.47 16.88 0.96 81.66 4.84 1.53 1.16 19.12 0.67 Willows_Creek 4644.9 2-Yr 20.00 2.09 0.42 12.79 15.35 1.08 19.95 1.30 1.15 0.09 14.48 0.21 Willows_Creek 4644.9 10-Yr 40.00 2.26 0.94 12.79 17.53 1.16 39.73 2.27 1.31 0.27 15.59 0.34 Willows_Creek 4644.9 25-Yr 54.00 2.44 1.34 12.79 19.75 1.25 53.28 2.70 1.47 0.37 16.72 0.38 Willows_Creek 4644.9 50-Yr 68.00 2.66 1.53 12.79 22.67 1.30 66.35 2.93 1.69 0.41 19.27 0.39 Willows_Creek 4644.9 100-Yr 83.00 2.89 1.74 12.79 25.50 1.10 79.77 3.13 1.90 0.45 27.24 0.39 Willows_Creek 4585.7 2-Yr 20.00 0.85 0.41 11.06 5.37 0.49 20.00 3.72 0.48 1.01 11.06 0.94 Willows_Creek 4585.7 10-Yr 40.00 1.20 0.92 13.86 9.66 0.70 40.00 4.14 0.69 1.11 13.86 0.87 Willows_Creek 4585.7 25-Yr 54.00 1.37 1.32 15.28 12.16 0.80 54.00 4.44 0.78 1.23 15.28 0.88 Willows_Creek 4585.7 50-Yr 68.00 1.48 1.51 16.12 13.90 0.86 68.00 4.89 0.85 1.45 16.21 0.93 Willows_Creek 4585.7 100-Yr 83.00 1.57 1.71 16.50 15.46 0.91 82.98 5.37 0.92 1.70 17.03 0.98 Willows_Creek 4579.8 2-Yr 20.00 1.68 0.39 16.71 19.36 1.16 20.00 1.03 1.11 0.06 16.71 0.17 Willows_Creek 4579.8 10-Yr 40.00 2.23 0.90 19.08 29.29 1.54 40.00 1.37 1.46 0.09 19.08 0.19 Willows_Creek 4579.8 25-Yr 54.00 2.45 1.29 19.14 33.36 1.61 53.97 1.62 1.66 0.13 20.76 0.22 Willows_Creek 4579.8 50-Yr 68.00 2.53 1.48 19.14 35.04 1.65 67.92 1.94 1.74 0.18 21.47 0.25 Willows_Creek 4579.8 100-Yr 83.00 2.59 1.68 19.14 36.09 1.67 82.86 2.30 1.80 0.25 21.92 0.29 Willows_Creek 4530.2 2-Yr 20.00 0.90 0.36 8.74 5.91 0.67 20.00 3.38 0.65 0.76 8.81 0.72 Willows_Creek 4530.2 10-Yr 40.00 1.22 0.85 8.74 8.75 0.89 39.80 4.55 0.96 1.20 10.12 0.80 Willows_Creek 4530.2 25-Yr 54.00 1.44 1.23 8.74 10.63 1.03 53.28 5.01 1.17 1.36 10.98 0.80 Willows_Creek 4530.2 50-Yr 68.00 1.69 1.41 8.74 12.86 1.18 66.23 5.15 1.42 1.35 12.01 0.75 Willows_Creek 4530.2 100-Yr 83.00 2.05 1.61 8.74 15.99 1.39 79.10 4.95 1.76 1.16 13.45 0.64 Willows_Creek 4506.7 2-Yr 20.00 0.88 0.36 6.94 4.80 0.66 19.98 4.16 0.65 1.14 7.28 0.88 Willows_Creek 4506.7 10-Yr 40.00 1.36 0.85 7.01 8.16 0.97 39.29 4.82 1.10 1.29 8.97 0.79 Willows_Creek 4506.7 25-Yr 54.00 1.69 1.22 7.01 10.51 1.19 52.03 4.95 1.42 1.25 10.06 0.71 Willows_Creek 4506.7 50-Yr 68.00 2.05 1.41 7.01 13.01 1.39 64.02 4.92 1.76 1.15 11.31 0.64 Willows_Creek 4506.7 100-Yr 83.00 2.51 1.60 7.01 16.21 1.54 75.90 4.68 2.19 0.97 13.88 0.54 Willows_Creek 4466.7 2-Yr 20.00 1.32 0.35 5.00 6.31 1.26 20.00 3.17 1.26 0.53 16.83 0.50 Willows_Creek 4466.7 10-Yr 40.00 2.04 0.82 5.00 9.94 1.99 40.00 4.03 1.99 0.74 21.60 0.50 Willows_Creek 4466.7 25-Yr 54.00 2.48 1.19 5.00 12.09 2.42 54.00 4.47 2.42 0.85 25.00 0.51 Willows_Creek 4466.7 50-Yr 68.00 2.88 1.37 5.00 14.13 2.83 68.00 4.81 2.82 0.94 28.22 0.50 Willows_Creek 4466.7 100-Yr 83.00 3.33 1.55 5.00 16.37 3.27 83.00 5.07 3.27 0.99 31.75 0.49 Willows_Creek 4434.8 Culvert Willows_Creek 4402.8 2-Yr 20.00 1.51 0.33 5.70 7.38 1.10 19.88 2.69 1.00 0.41 7.72 0.42 Willows_Creek 4402.8 10-Yr 40.00 2.10 0.80 5.70 10.79 1.70 38.62 3.58 1.47 0.65 18.28 0.46 Willows_Creek 4402.8 25-Yr 54.00 2.42 1.17 5.70 12.56 2.01 51.51 4.10 1.71 0.81 19.94 0.49 Willows_Creek 4402.8 50-Yr 68.00 2.67 1.34 5.70 13.99 2.26 64.34 4.60 1.90 0.98 21.28 0.52 Willows_Creek 4402.8 100-Yr 83.00 2.89 1.51 5.70 15.29 2.49 78.02 5.10 2.08 1.17 22.49 0.55 Willows_Creek 4297.3 2-Yr 20.00 1.36 0.31 7.29 7.31 1.00 20.00 2.74 0.88 0.45 7.29 0.48 Willows_Creek 4297.3 10-Yr 40.00 1.89 0.77 8.58 11.51 1.34 40.00 3.47 1.15 0.66 8.58 0.53 Willows_Creek 4297.3 25-Yr 54.00 2.19 1.12 9.05 14.15 1.20 53.96 3.81 1.33 0.76 11.87 0.54 Willows_Creek 4297.3 50-Yr 68.00 2.38 1.29 9.05 15.86 0.99 67.32 4.25 1.49 0.90 17.29 0.57 Willows_Creek 4297.3 100-Yr 83.00 2.55 1.45 9.05 17.40 0.92 80.59 4.63 1.64 1.04 22.18 0.59 Willows_Creek 4198.5 2-Yr 20.00 1.44 0.29 11.65 9.76 0.84 20.00 2.05 0.74 0.27 11.65 0.39 Willows_Creek 4198.5 10-Yr 40.00 2.02 0.74 13.22 17.07 1.19 39.99 2.34 1.13 0.30 14.40 0.36 Willows_Creek 4198.5 25-Yr 54.00 2.40 1.08 13.55 22.15 0.95 53.19 2.40 1.43 0.29 25.47 0.33 Willows_Creek 4198.5 50-Yr 68.00 2.57 1.24 13.55 24.42 0.87 65.62 2.69 1.58 0.36 33.40 0.35 Willows_Creek 4198.5 100-Yr 83.00 2.73 1.39 13.55 26.60 0.85 77.79 2.92 1.72 0.41 41.21 0.37 Willows_Creek 4060 2-Yr 20.00 1.91 0.23 13.24 21.84 0.91 19.77 0.91 1.45 0.04 26.09 0.12 Willows_Creek 4060 10-Yr 40.00 2.63 0.60 13.24 31.38 0.97 33.83 1.08 2.09 0.05 55.18 0.12 Willows_Creek 4060 25-Yr 54.00 3.10 0.88 13.24 37.70 1.16 39.61 1.05 2.51 0.05 72.83 0.11 Willows_Creek 4060 50-Yr 68.00 3.25 1.00 13.24 39.63 1.22 47.73 1.20 2.64 0.06 78.21 0.12 Willows_Creek 4060 100-Yr 83.00 3.40 1.12 13.24 41.59 1.28 55.72 1.34 2.77 0.07 83.67 0.13 Willows_Creek 4050.6 2-Yr 20.00 1.68 0.22 8.08 7.18 0.89 20.00 2.79 0.76 0.49 8.08 0.52 HEC-RAS Plan: EX River: Willows_Creek Reach: Willows_Cree ---PAGE BREAK--- Willows_Creek 4050.6 10-Yr 40.00 2.50 0.58 9.60 14.90 0.95 37.81 2.54 1.36 0.33 19.20 0.36 Willows_Creek 4050.6 25-Yr 54.00 3.01 0.85 9.60 19.84 1.13 46.67 2.35 1.81 0.26 26.50 0.29 Willows_Creek 4050.6 50-Yr 68.00 3.13 0.97 9.60 20.93 1.17 57.53 2.75 1.91 0.35 28.29 0.33 Willows_Creek 4050.6 100-Yr 83.00 3.24 1.09 9.60 22.01 1.16 69.13 3.14 2.00 0.45 31.37 0.37 Willows_Creek 4045 2-Yr 20.00 1.09 0.21 11.95 7.98 0.67 20.00 2.51 0.65 0.42 11.95 0.54 Willows_Creek 4045 10-Yr 40.00 2.54 0.52 14.22 28.22 0.95 28.23 1.00 1.94 0.05 66.99 0.13 Willows_Creek 4045 25-Yr 54.00 3.10 0.75 14.22 36.27 1.41 31.50 0.87 2.49 0.03 73.48 0.10 Willows_Creek 4045 50-Yr 68.00 3.21 0.86 14.22 37.79 1.50 38.52 1.02 2.59 0.04 74.34 0.11 Willows_Creek 4045 100-Yr 83.00 3.31 0.97 14.22 39.29 1.59 45.74 1.16 2.69 0.06 75.13 0.12 Willows_Creek 4038 2-Yr 20.00 1.63 0.20 11.40 9.42 0.48 18.71 1.99 0.79 0.24 25.00 0.39 Willows_Creek 4038 10-Yr 40.00 3.35 0.44 11.40 29.02 1.11 21.32 0.73 2.43 0.02 90.21 0.08 Willows_Creek 4038 25-Yr 54.00 3.92 0.62 11.40 35.51 1.55 23.54 0.66 2.97 0.02 99.45 0.07 Willows_Creek 4038 50-Yr 68.00 4.02 0.72 11.40 36.71 1.64 28.71 0.78 3.07 0.02 100.95 0.08 Willows_Creek 4038 100-Yr 83.00 4.13 0.82 11.40 37.90 1.60 35.09 0.93 3.17 0.03 109.83 0.09 Willows_Creek 4032 2-Yr 20.00 2.46 0.19 9.76 16.53 0.89 19.85 1.20 1.49 0.07 19.77 0.16 Willows_Creek 4032 10-Yr 40.00 4.20 0.40 9.76 33.60 1.38 26.17 0.78 3.02 0.02 65.44 0.07 Willows_Creek 4032 25-Yr 54.00 4.77 0.56 9.76 39.15 1.62 30.23 0.77 3.52 0.02 81.50 0.07 Willows_Creek 4032 50-Yr 68.00 4.88 0.66 9.76 40.17 1.67 37.04 0.92 3.61 0.03 84.43 0.08 Willows_Creek 4032 100-Yr 83.00 4.98 0.76 9.76 41.17 1.71 44.01 1.07 3.70 0.04 87.33 0.09 Willows_Creek 4030 2-Yr 20.00 1.86 0.19 8.55 10.61 0.68 19.94 1.88 1.11 0.20 16.09 0.30 Willows_Creek 4030 10-Yr 40.00 3.65 0.39 8.55 25.93 1.29 23.01 0.89 2.71 0.03 63.99 0.09 Willows_Creek 4030 25-Yr 54.00 4.22 0.55 8.55 30.81 1.54 26.23 0.85 3.22 0.03 80.59 0.08 Willows_Creek 4030 50-Yr 68.00 4.33 0.65 8.55 31.69 1.58 32.07 1.01 3.31 0.04 83.60 0.09 Willows_Creek 4030 100-Yr 83.00 4.43 0.74 8.55 32.57 1.63 38.05 1.17 3.40 0.05 86.58 0.11 Willows_Creek 4020 2-Yr 20.00 1.22 0.19 6.24 5.54 0.89 20.00 3.61 0.77 0.81 6.24 0.68 Willows_Creek 4020 10-Yr 40.00 3.30 0.37 10.23 25.28 1.03 28.10 1.11 2.20 0.05 58.81 0.12 Willows_Creek 4020 25-Yr 54.00 3.88 0.52 10.23 31.16 1.41 30.63 0.98 2.72 0.04 69.21 0.10 Willows_Creek 4020 50-Yr 68.00 3.98 0.62 10.23 32.20 1.49 37.29 1.16 2.81 0.05 70.47 0.12 Willows_Creek 4020 100-Yr 83.00 4.08 0.71 10.23 33.23 1.56 44.09 1.33 2.90 0.07 71.64 0.13 Willows_Creek 4010 2-Yr 20.00 1.20 0.19 5.59 4.61 0.83 20.00 4.34 0.72 1.20 5.59 0.84 Willows_Creek 4010 10-Yr 40.00 3.53 0.36 7.44 21.28 1.08 23.84 1.12 2.40 0.05 62.02 0.12 Willows_Creek 4010 25-Yr 54.00 4.11 0.51 7.44 25.56 1.48 25.00 0.98 2.89 0.04 71.59 0.09 Willows_Creek 4010 50-Yr 68.00 4.21 0.60 7.44 26.32 1.56 30.27 1.15 2.97 0.05 72.59 0.11 Willows_Creek 4010 100-Yr 83.00 4.31 0.70 7.44 27.07 1.64 35.62 1.32 3.06 0.07 73.57 0.12 Willows_Creek 4000 2-Yr 20.00 1.44 0.19 7.90 8.04 1.02 20.00 2.49 0.92 0.36 7.90 0.43 Willows_Creek 4000 10-Yr 40.00 3.81 0.35 10.35 31.28 1.02 29.02 0.93 2.61 0.04 69.55 0.09 Willows_Creek 4000 25-Yr 54.00 4.39 0.48 10.35 37.25 1.40 30.46 0.82 3.11 0.03 81.96 0.08 Willows_Creek 4000 50-Yr 68.00 4.49 0.57 10.35 38.30 1.47 36.86 0.96 3.20 0.04 83.61 0.09 Willows_Creek 4000 100-Yr 83.00 4.59 0.66 10.35 39.34 1.55 43.33 1.10 3.28 0.05 85.25 0.10 Willows_Creek 3918.7 2-Yr 20.00 3.23 0.18 8.48 17.10 2.02 20.00 1.17 1.71 0.07 14.30 0.15 Willows_Creek 3918.7 10-Yr 40.00 5.57 0.32 9.06 38.18 4.21 40.00 1.05 3.53 0.04 71.75 0.09 Willows_Creek 3918.7 25-Yr 54.00 6.13 0.45 9.06 43.30 4.78 54.00 1.25 4.01 0.06 78.46 0.10 Willows_Creek 3918.7 50-Yr 68.00 6.26 0.54 16.52 72.77 1.96 45.13 0.62 3.82 0.01 79.41 0.05 Willows_Creek 3918.7 100-Yr 83.00 6.36 0.63 16.52 74.43 2.04 53.65 0.72 3.90 0.02 80.17 0.06 Willows_Creek 3909.4 2-Yr 20.00 2.25 0.18 2.25 4.95 2.20 20.00 4.04 2.19 0.57 15.03 0.48 Willows_Creek 3909.4 10-Yr 40.00 4.63 0.31 2.25 10.30 4.58 40.00 3.88 4.56 0.41 41.27 0.32 Willows_Creek 3909.4 25-Yr 54.00 5.50 0.42 24.72 91.42 1.81 48.07 0.53 3.45 0.01 67.30 0.05 Willows_Creek 3909.4 50-Yr 68.00 5.61 0.51 24.72 94.13 1.85 59.44 0.63 3.55 0.01 69.87 0.06 Willows_Creek 3909.4 100-Yr 83.00 5.71 0.60 24.72 96.59 1.89 71.33 0.74 3.64 0.02 72.20 0.07 Willows_Creek 3862.9 Culvert Willows_Creek 3816.3 2-Yr 20.00 1.26 0.17 8.41 7.00 0.81 19.97 2.85 0.78 0.40 21.69 0.55 Willows_Creek 3816.3 10-Yr 40.00 1.65 0.29 8.41 10.24 1.14 39.52 3.86 1.14 0.65 23.02 0.62 Willows_Creek 3816.3 25-Yr 54.00 1.83 0.38 8.41 11.72 1.28 52.99 4.52 1.30 0.85 23.63 0.68 Willows_Creek 3816.3 50-Yr 68.00 2.03 0.46 8.41 13.40 1.21 65.37 4.88 1.49 0.94 37.81 0.68 Willows_Creek 3816.3 100-Yr 83.00 2.22 0.53 8.41 15.07 1.41 77.36 5.13 1.67 1.00 39.26 0.68 Willows_Creek 3813.6 2-Yr 20.00 1.36 0.17 9.84 9.18 0.88 19.93 2.17 0.89 0.22 14.87 0.40 Willows_Creek 3813.6 10-Yr 40.00 1.75 0.29 9.84 13.04 1.15 39.18 3.01 1.26 0.38 17.75 0.46 Willows_Creek 3813.6 25-Yr 54.00 1.93 0.38 9.84 14.83 1.32 52.05 3.51 1.43 0.49 22.40 0.50 Willows_Creek 3813.6 50-Yr 68.00 2.14 0.45 9.84 16.84 1.52 64.32 3.82 1.62 0.56 35.13 0.51 Willows_Creek 3813.6 100-Yr 83.00 2.34 0.53 9.84 18.79 1.72 77.24 4.11 1.81 0.63 37.63 0.52 Willows_Creek 3790.4 Bridge Willows_Creek 3770.4 2-Yr 20.00 1.27 0.16 12.01 10.99 0.92 20.00 1.82 0.79 0.12 12.01 0.34 Willows_Creek 3770.4 10-Yr 40.00 2.17 0.27 12.01 21.77 1.81 40.00 1.84 1.38 0.10 12.01 0.24 Willows_Creek 3770.4 25-Yr 54.00 2.55 0.36 12.01 26.40 2.20 54.00 2.05 1.60 0.12 12.01 0.24 Willows_Creek 3770.4 50-Yr 68.00 2.82 0.43 12.02 29.62 2.47 68.00 2.30 1.74 0.15 12.02 0.26 Willows_Creek 3770.4 100-Yr 83.00 3.07 0.50 12.02 32.61 2.71 83.00 2.55 1.86 0.18 12.02 0.27 Willows_Creek 3756.4 2-Yr 20.00 1.76 0.15 6.18 7.44 1.20 20.00 2.69 1.00 0.33 6.18 0.43 Willows_Creek 3756.4 10-Yr 40.00 2.68 0.26 7.57 13.85 1.65 39.65 2.86 1.47 0.33 8.68 0.37 Willows_Creek 3756.4 25-Yr 54.00 3.05 0.35 7.66 16.70 1.90 52.56 3.15 1.75 0.37 9.92 0.38 ---PAGE BREAK--- Willows_Creek 3756.4 50-Yr 68.00 3.29 0.41 7.66 18.54 2.06 65.30 3.52 1.94 0.45 10.75 0.40 Willows_Creek 3756.4 100-Yr 83.00 3.51 0.48 7.66 20.21 2.19 78.64 3.89 2.11 0.53 11.50 0.42 Willows_Creek 3605.5 2-Yr 20.00 1.37 0.12 7.00 9.59 1.37 20.00 2.08 1.37 0.18 8.55 0.31 Willows_Creek 3605.5 10-Yr 40.00 2.49 0.20 7.00 17.42 2.49 40.00 2.30 2.49 0.18 17.97 0.26 Willows_Creek 3605.5 25-Yr 54.00 2.92 0.26 9.20 24.71 1.43 46.94 1.90 2.10 0.13 22.00 0.20 Willows_Creek 3605.5 50-Yr 68.00 3.16 0.32 9.20 26.88 1.67 55.40 2.06 2.28 0.15 22.00 0.21 Willows_Creek 3605.5 100-Yr 83.00 3.37 0.37 9.20 28.83 1.88 64.13 2.22 2.45 0.17 22.00 0.22 Willows_Creek 3570.75 Culvert Willows_Creek 3536 2-Yr 20.00 1.66 0.11 8.39 13.02 1.55 20.00 1.54 1.28 0.08 8.92 0.22 Willows_Creek 3536 10-Yr 40.00 2.64 0.17 9.20 22.15 1.45 37.06 1.67 1.89 0.08 18.02 0.19 Willows_Creek 3536 25-Yr 54.00 2.95 0.22 9.20 25.02 1.53 47.19 1.89 2.14 0.10 21.03 0.20 Willows_Creek 3536 50-Yr 68.00 3.18 0.27 9.20 27.14 1.74 56.35 2.08 2.32 0.11 21.28 0.21 Willows_Creek 3536 100-Yr 83.00 3.40 0.31 9.20 29.17 1.94 65.62 2.25 2.49 0.13 21.52 0.22 Willows_Creek 3511 2-Yr 20.00 1.63 0.10 8.89 12.96 1.46 20.00 1.54 1.19 0.08 8.89 0.23 Willows_Creek 3511 10-Yr 40.00 2.62 0.16 9.20 22.00 1.44 37.18 1.69 1.88 0.08 17.94 0.19 Willows_Creek 3511 25-Yr 54.00 2.93 0.21 9.20 24.85 1.51 47.40 1.91 2.12 0.10 21.01 0.20 Willows_Creek 3511 50-Yr 68.00 3.16 0.25 9.20 26.95 1.72 56.60 2.10 2.30 0.12 21.26 0.22 Willows_Creek 3511 100-Yr 83.00 3.38 0.29 9.20 28.97 1.92 65.91 2.27 2.48 0.13 21.50 0.23 Willows_Creek 3480 2-Yr 20.00 1.57 0.09 6.49 10.05 1.55 20.00 1.99 1.49 0.12 8.81 0.28 Willows_Creek 3480 10-Yr 40.00 2.60 0.14 9.20 21.79 1.43 37.34 1.71 1.86 0.08 17.84 0.20 Willows_Creek 3480 25-Yr 54.00 2.90 0.18 9.20 24.61 1.49 47.69 1.94 2.10 0.10 20.98 0.21 Willows_Creek 3480 50-Yr 68.00 3.13 0.22 9.20 26.70 1.70 56.95 2.13 2.28 0.12 21.23 0.22 Willows_Creek 3480 100-Yr 83.00 3.35 0.26 9.20 28.70 1.90 66.31 2.31 2.45 0.14 21.46 0.23 Willows_Creek 3422.4 Culvert Willows_Creek 3364.8 2-Yr 20.00 2.70 0.07 8.75 19.73 2.25 20.00 1.01 2.13 0.02 20.99 0.12 Willows_Creek 3364.8 10-Yr 40.00 3.29 0.11 8.75 24.87 2.84 40.00 1.61 2.69 0.05 25.81 0.17 Willows_Creek 3364.8 25-Yr 54.00 3.48 0.14 10.60 30.04 1.66 42.81 1.43 2.60 0.04 27.58 0.15 Willows_Creek 3364.8 50-Yr 68.00 3.67 0.16 10.60 32.08 1.41 54.57 1.70 2.78 0.05 36.50 0.17 Willows_Creek 3364.8 100-Yr 83.00 3.90 0.19 10.60 34.56 1.64 61.99 1.79 2.99 0.06 36.50 0.18 Willows_Creek 3279.5 2-Yr 20.00 1.22 0.04 5.40 4.55 0.76 19.98 4.39 0.75 0.54 6.04 0.84 Willows_Creek 3279.5 10-Yr 40.00 1.63 0.07 5.40 6.74 0.82 38.35 5.69 1.11 0.80 9.21 0.90 Willows_Creek 3279.5 25-Yr 54.00 1.92 0.08 5.40 8.28 0.88 48.16 5.82 1.36 0.78 12.18 0.83 Willows_Creek 3279.5 50-Yr 68.00 2.12 0.10 5.40 9.37 0.98 57.09 6.10 1.54 0.82 13.61 0.82 Willows_Creek 3279.5 100-Yr 83.00 2.26 0.12 5.40 10.13 1.05 66.75 6.59 1.66 0.93 14.64 0.85 Willows_Creek 3222.5 2-Yr 20.00 1.37 0.03 6.20 5.91 0.75 19.80 3.35 0.84 0.30 8.17 0.61 Willows_Creek 3222.5 10-Yr 40.00 1.82 0.05 6.30 8.74 0.90 36.54 4.18 1.23 0.42 11.74 0.63 Willows_Creek 3222.5 25-Yr 54.00 2.05 0.07 6.30 10.20 1.03 46.69 4.58 1.43 0.47 13.11 0.63 Willows_Creek 3222.5 50-Yr 68.00 2.25 0.08 6.30 11.43 1.15 55.98 4.90 1.60 0.52 14.01 0.64 Willows_Creek 3222.5 100-Yr 83.00 2.44 0.10 6.30 12.64 1.28 65.23 5.16 1.77 0.56 14.77 0.64 Willows_Creek 3001.5 2-Yr 20.00 1.38 5.50 5.91 0.84 19.74 3.34 0.93 0.29 7.32 0.57 Willows_Creek 3001.5 10-Yr 40.00 1.86 5.50 8.53 0.97 36.35 4.26 1.34 0.42 10.91 0.60 Willows_Creek 3001.5 25-Yr 54.00 2.10 5.50 9.86 1.09 46.27 4.69 1.55 0.48 12.22 0.62 Willows_Creek 3001.5 50-Yr 68.00 2.31 5.50 10.99 1.20 55.42 5.04 1.73 0.54 13.32 0.63 Willows_Creek 3001.5 100-Yr 83.00 2.50 5.50 12.05 1.30 64.61 5.36 1.89 0.59 14.36 0.64 Willows_Creek 3001.5 100-Yr 83.00 2.50 5.50 12.04 1.30 64.62 5.37 1.89 0.59 14.36 0.64 ---PAGE BREAK--- Reach River Sta Profile Q Total Max Chl Dpth Volume Top W Act Chan Flow Area Ch Hydr Depth Q Channel Vel Chnl Hydr Radius C Shear Chan Top Width Froude # Chl (cfs) (ft) (acre-ft) (ft) (sq ft) (ft) (cfs) (ft/s) (ft) (lb/sq ft) (ft) Willows_Creek 4738 2-Yr 20.00 0.86 0.45 11.90 6.69 0.56 20.00 2.99 0.55 0.62 11.90 0.70 Willows_Creek 4738 10-Yr 40.00 1.24 0.76 13.54 11.56 0.85 40.00 3.46 0.82 0.73 13.54 0.66 Willows_Creek 4738 25-Yr 54.00 1.46 0.96 13.87 14.56 1.01 53.98 3.71 1.01 0.78 14.54 0.64 Willows_Creek 4738 50-Yr 68.00 1.66 1.15 13.87 17.30 1.13 67.81 3.92 1.20 0.83 15.58 0.62 Willows_Creek 4738 100-Yr 83.00 1.85 1.35 13.87 19.98 1.25 82.40 4.12 1.38 0.87 16.58 0.61 Willows_Creek 4711 2-Yr 20.00 1.42 0.44 13.32 14.74 1.10 20.00 1.36 1.04 0.10 13.42 0.23 Willows_Creek 4711 10-Yr 40.00 1.87 0.74 13.41 20.79 1.38 39.87 1.92 1.46 0.19 15.40 0.27 Willows_Creek 4711 25-Yr 54.00 2.12 0.95 13.41 24.12 1.51 53.52 2.22 1.69 0.24 16.72 0.29 Willows_Creek 4711 50-Yr 68.00 2.33 1.14 13.41 27.05 1.62 66.93 2.47 1.90 0.28 17.87 0.31 Willows_Creek 4711 100-Yr 83.00 2.54 1.34 13.41 29.85 1.44 81.18 2.72 2.10 0.33 23.14 0.32 Willows_Creek 4681 2-Yr 20.00 1.45 0.43 9.65 8.22 0.85 20.00 2.43 0.81 0.36 9.65 0.46 Willows_Creek 4681 10-Yr 40.00 1.71 0.73 10.47 10.89 1.00 39.99 3.67 0.99 0.78 10.94 0.63 Willows_Creek 4681 25-Yr 54.00 1.89 0.94 10.47 12.79 1.10 53.88 4.21 1.16 0.97 11.80 0.67 Willows_Creek 4681 50-Yr 68.00 2.09 1.12 10.47 14.87 1.21 67.52 4.54 1.35 1.07 12.76 0.67 Willows_Creek 4681 100-Yr 83.00 2.28 1.32 10.47 16.89 0.96 81.65 4.83 1.53 1.16 19.22 0.67 Willows_Creek 4644.9 2-Yr 20.00 2.09 0.42 12.79 15.31 1.08 19.95 1.30 1.14 0.09 14.46 0.21 Willows_Creek 4644.9 10-Yr 40.00 2.26 0.72 12.79 17.54 1.16 39.72 2.26 1.31 0.27 15.59 0.34 Willows_Creek 4644.9 25-Yr 54.00 2.44 0.92 12.79 19.79 1.25 53.27 2.69 1.48 0.36 16.74 0.38 Willows_Creek 4644.9 50-Yr 68.00 2.67 1.11 12.79 22.71 1.29 66.34 2.92 1.70 0.41 19.34 0.39 Willows_Creek 4644.9 100-Yr 83.00 2.89 1.30 12.79 25.54 1.10 79.75 3.12 1.91 0.45 27.29 0.39 Willows_Creek 4585.7 2-Yr 20.00 0.85 0.41 11.06 5.38 0.49 20.00 3.72 0.48 1.01 11.06 0.94 Willows_Creek 4585.7 10-Yr 40.00 1.20 0.70 13.85 9.65 0.70 40.00 4.14 0.68 1.12 13.85 0.88 Willows_Creek 4585.7 25-Yr 54.00 1.37 0.90 15.27 12.14 0.80 54.00 4.45 0.78 1.23 15.27 0.88 Willows_Creek 4585.7 50-Yr 68.00 1.48 1.08 16.12 13.88 0.86 68.00 4.90 0.85 1.45 16.20 0.93 Willows_Creek 4585.7 100-Yr 83.00 1.57 1.27 16.50 15.45 0.91 82.98 5.37 0.92 1.70 17.02 0.98 Willows_Creek 4579.8 2-Yr 20.00 1.68 0.39 16.70 19.39 1.16 20.00 1.03 1.12 0.06 16.70 0.17 Willows_Creek 4579.8 10-Yr 40.00 2.24 0.68 19.07 29.31 1.54 40.00 1.36 1.46 0.09 19.07 0.19 Willows_Creek 4579.8 25-Yr 54.00 2.45 0.87 19.14 33.34 1.62 53.98 1.62 1.66 0.13 20.72 0.22 Willows_Creek 4579.8 50-Yr 68.00 2.53 1.05 19.14 35.00 1.65 67.93 1.94 1.74 0.18 21.43 0.25 Willows_Creek 4579.8 100-Yr 83.00 2.59 1.24 19.14 36.08 1.67 82.86 2.30 1.80 0.25 21.88 0.29 Willows_Creek 4530.2 2-Yr 20.00 0.90 0.36 8.74 5.91 0.67 20.00 3.38 0.65 0.76 8.81 0.72 Willows_Creek 4530.2 10-Yr 40.00 1.22 0.63 8.74 8.75 0.89 39.80 4.55 0.96 1.20 10.12 0.80 Willows_Creek 4530.2 25-Yr 54.00 1.44 0.82 8.74 10.64 1.03 53.28 5.01 1.17 1.36 10.99 0.80 Willows_Creek 4530.2 50-Yr 68.00 1.69 0.99 8.74 12.87 1.18 66.22 5.14 1.42 1.35 12.02 0.75 Willows_Creek 4530.2 100-Yr 83.00 2.05 1.16 8.74 16.01 1.40 79.08 4.94 1.76 1.16 13.47 0.64 Willows_Creek 4506.7 2-Yr 20.00 0.88 0.36 6.94 4.80 0.66 19.98 4.16 0.65 1.14 7.28 0.88 Willows_Creek 4506.7 10-Yr 40.00 1.36 0.62 7.01 8.16 0.97 39.29 4.81 1.10 1.28 8.97 0.79 Willows_Creek 4506.7 25-Yr 54.00 1.70 0.81 7.01 10.53 1.19 52.02 4.94 1.42 1.24 10.07 0.71 Willows_Creek 4506.7 50-Yr 68.00 2.05 0.98 7.01 13.03 1.39 64.00 4.91 1.76 1.14 11.32 0.64 Willows_Creek 4506.7 100-Yr 83.00 2.51 1.15 7.01 16.24 1.54 75.88 4.67 2.19 0.96 13.90 0.54 Willows_Creek 4466.7 2-Yr 20.00 1.31 0.35 5.00 6.29 1.26 20.00 3.18 1.26 0.54 16.82 0.50 Willows_Creek 4466.7 10-Yr 40.00 2.04 0.60 5.00 9.92 1.98 40.00 4.03 1.98 0.74 21.61 0.50 Willows_Creek 4466.7 25-Yr 54.00 2.48 0.78 5.00 12.10 2.42 54.00 4.46 2.42 0.85 25.05 0.51 Willows_Creek 4466.7 50-Yr 68.00 2.88 0.94 5.00 14.14 2.83 68.00 4.81 2.82 0.94 28.27 0.50 Willows_Creek 4466.7 100-Yr 83.00 3.33 1.10 5.00 16.37 3.27 83.00 5.07 3.27 0.99 31.80 0.49 Willows_Creek 4434.8 Culvert Willows_Creek 4402.8 2-Yr 20.00 1.51 0.33 5.70 7.38 1.10 19.88 2.69 1.00 0.41 7.72 0.42 Willows_Creek 4402.8 10-Yr 40.00 2.11 0.58 5.70 10.80 1.70 38.62 3.58 1.47 0.64 18.29 0.46 Willows_Creek 4402.8 25-Yr 54.00 2.42 0.75 5.70 12.61 2.02 51.50 4.08 1.71 0.80 19.99 0.48 Willows_Creek 4402.8 50-Yr 68.00 2.67 0.91 5.70 14.03 2.27 64.32 4.58 1.91 0.97 21.32 0.52 Willows_Creek 4402.8 100-Yr 83.00 2.90 1.07 5.70 15.33 2.50 78.01 5.09 2.08 1.16 22.53 0.55 Willows_Creek 4297.3 2-Yr 20.00 1.36 0.31 7.29 7.30 1.00 20.00 2.74 0.88 0.45 7.29 0.48 Willows_Creek 4297.3 10-Yr 40.00 1.88 0.55 8.54 11.36 1.33 40.00 3.52 1.14 0.68 8.54 0.54 Willows_Creek 4297.3 25-Yr 54.00 2.14 0.71 9.05 13.69 1.32 53.99 3.94 1.29 0.82 10.43 0.57 Willows_Creek 4297.3 50-Yr 68.00 2.34 0.86 9.05 15.50 1.01 67.52 4.36 1.46 0.96 16.15 0.59 Willows_Creek 4297.3 100-Yr 83.00 2.52 1.01 9.05 17.10 0.93 80.96 4.73 1.61 1.09 21.24 0.61 Willows_Creek 4198.5 2-Yr 20.00 1.44 0.29 11.67 9.84 0.84 20.00 2.03 0.74 0.26 11.67 0.39 Willows_Creek 4198.5 10-Yr 40.00 1.92 0.52 13.02 15.67 1.20 40.00 2.55 1.05 0.37 13.02 0.41 Willows_Creek 4198.5 25-Yr 54.00 2.16 0.67 13.43 18.96 1.14 53.87 2.84 1.24 0.43 16.91 0.42 Willows_Creek 4198.5 50-Yr 68.00 2.37 0.81 13.55 21.76 0.97 67.14 3.09 1.40 0.49 24.10 0.43 Willows_Creek 4198.5 100-Yr 83.00 2.56 0.96 13.55 24.32 0.87 80.19 3.30 1.57 0.54 33.04 0.43 Willows_Creek 4060 2-Yr 20.00 1.91 0.23 13.24 21.86 0.91 19.77 0.90 1.45 0.04 26.14 0.12 Willows_Creek 4060 10-Yr 40.00 2.41 0.40 13.24 28.49 0.90 35.93 1.26 1.90 0.07 47.25 0.15 Willows_Creek 4060 25-Yr 54.00 2.66 0.53 13.24 31.86 0.98 45.20 1.42 2.12 0.09 56.52 0.16 Willows_Creek 4060 50-Yr 68.00 2.88 0.64 13.24 34.75 1.07 53.35 1.54 2.31 0.10 64.57 0.17 Willows_Creek 4060 100-Yr 83.00 3.09 0.75 13.24 37.48 1.15 61.19 1.63 2.49 0.11 72.14 0.17 Willows_Creek 4050.6 2-Yr 20.00 1.68 0.22 8.08 7.17 0.89 20.00 2.79 0.76 0.49 8.08 0.52 HEC-RAS Plan: PROP River: Willows_Creek Reach: Willows_Cr ---PAGE BREAK--- Willows_Creek 4050.6 10-Yr 40.00 2.04 0.39 9.60 10.53 0.85 39.74 3.77 0.96 0.83 12.94 0.64 Willows_Creek 4050.6 25-Yr 54.00 2.23 0.51 9.60 12.33 0.88 52.82 4.29 1.12 1.01 15.45 0.67 Willows_Creek 4050.6 50-Yr 68.00 2.39 0.62 9.60 13.91 0.92 65.22 4.69 1.27 1.16 17.74 0.69 Willows_Creek 4050.6 100-Yr 83.00 2.54 0.72 9.60 15.30 0.96 77.96 5.10 1.39 1.33 19.79 0.71 Willows_Creek 4045 2-Yr 20.00 1.10 0.21 12.00 8.01 0.67 20.00 2.50 0.65 0.41 12.00 0.54 Willows_Creek 4045 10-Yr 40.00 1.56 0.37 14.22 14.31 0.75 36.21 2.53 0.98 0.37 24.28 0.44 Willows_Creek 4045 25-Yr 54.00 1.80 0.48 14.22 17.76 0.85 46.90 2.64 1.22 0.37 29.15 0.42 Willows_Creek 4045 50-Yr 68.00 2.00 0.58 14.22 20.66 0.79 57.45 2.78 1.42 0.39 40.30 0.41 Willows_Creek 4045 100-Yr 83.00 2.18 0.68 14.22 23.13 0.88 67.02 2.90 1.59 0.41 44.83 0.40 Willows_Creek 4038 2-Yr 20.00 1.64 0.20 11.40 9.53 0.49 18.64 1.96 0.80 0.24 25.18 0.38 Willows_Creek 4038 10-Yr 40.00 2.24 0.34 11.40 16.39 0.73 31.03 1.89 1.37 0.18 42.64 0.28 Willows_Creek 4038 25-Yr 54.00 2.52 0.45 11.40 19.56 0.88 37.76 1.93 1.64 0.18 50.29 0.26 Willows_Creek 4038 50-Yr 68.00 2.74 0.54 11.40 22.06 0.97 44.17 2.00 1.85 0.19 57.92 0.25 Willows_Creek 4038 100-Yr 83.00 2.92 0.62 11.40 24.14 1.05 50.71 2.10 2.02 0.20 64.03 0.25 Willows_Creek 4032 2-Yr 20.00 2.47 0.19 9.76 16.64 0.89 19.83 1.19 1.49 0.07 20.02 0.16 Willows_Creek 4032 10-Yr 40.00 3.08 0.33 9.76 22.61 0.99 35.43 1.57 2.03 0.11 34.64 0.18 Willows_Creek 4032 25-Yr 54.00 3.35 0.43 9.76 25.30 1.08 44.59 1.76 2.27 0.14 41.64 0.19 Willows_Creek 4032 50-Yr 68.00 3.57 0.51 9.76 27.39 1.15 53.05 1.94 2.46 0.16 47.52 0.20 Willows_Creek 4032 100-Yr 83.00 3.75 0.60 9.76 29.11 1.21 61.73 2.12 2.62 0.19 52.49 0.22 Willows_Creek 4030 2-Yr 20.00 1.87 0.19 8.55 10.71 0.66 19.92 1.86 1.12 0.19 16.97 0.29 Willows_Creek 4030 10-Yr 40.00 2.49 0.33 8.55 16.02 0.82 33.68 2.10 1.67 0.21 33.20 0.27 Willows_Creek 4030 25-Yr 54.00 2.77 0.43 8.55 18.42 0.94 41.30 2.24 1.92 0.23 39.94 0.27 Willows_Creek 4030 50-Yr 68.00 2.99 0.51 8.55 20.28 1.03 48.32 2.38 2.12 0.25 45.49 0.27 Willows_Creek 4030 100-Yr 83.00 3.17 0.59 8.55 21.79 1.10 55.61 2.55 2.28 0.28 50.19 0.28 Willows_Creek 4020 2-Yr 20.00 1.28 0.19 6.44 5.87 0.91 20.00 3.40 0.79 0.72 6.44 0.63 Willows_Creek 4020 10-Yr 40.00 1.85 0.32 10.23 10.43 0.89 39.98 3.83 0.91 0.87 11.84 0.67 Willows_Creek 4020 25-Yr 54.00 2.17 0.42 10.23 13.74 0.75 52.59 3.83 1.20 0.79 21.03 0.58 Willows_Creek 4020 50-Yr 68.00 2.41 0.50 10.23 16.13 0.76 63.22 3.92 1.41 0.79 28.27 0.55 Willows_Creek 4020 100-Yr 83.00 2.57 0.58 10.23 17.82 0.79 73.95 4.15 1.55 0.85 33.78 0.55 Willows_Creek 4010 2-Yr 20.00 1.11 0.19 5.47 4.09 0.75 20.00 4.89 0.66 1.57 5.47 1.00 Willows_Creek 4010 10-Yr 40.00 1.58 0.32 6.62 6.91 1.04 40.00 5.79 0.89 1.99 6.62 1.00 Willows_Creek 4010 25-Yr 54.00 1.85 0.42 7.30 8.79 1.04 53.99 6.14 1.02 2.14 8.51 0.99 Willows_Creek 4010 50-Yr 68.00 2.14 0.50 7.44 10.94 0.77 66.65 6.09 1.24 1.98 15.88 0.89 Willows_Creek 4010 100-Yr 83.00 2.41 0.58 7.44 12.97 0.71 76.79 5.92 1.46 1.77 25.13 0.79 Willows_Creek 4000 2-Yr 20.00 0.93 0.19 6.53 4.34 0.67 20.00 4.61 0.62 1.43 6.53 1.00 Willows_Creek 4000 10-Yr 40.00 1.34 0.32 7.62 7.23 0.95 40.00 5.53 0.86 1.84 7.62 1.00 Willows_Creek 4000 25-Yr 54.00 1.57 0.42 8.23 9.04 1.10 54.00 5.97 0.99 2.05 8.23 1.00 Willows_Creek 4000 50-Yr 68.00 1.77 0.49 8.71 10.75 1.23 68.00 6.33 1.10 2.22 8.71 1.00 Willows_Creek 4000 100-Yr 83.00 1.97 0.57 9.18 12.54 1.37 83.00 6.62 1.20 2.36 9.18 1.00 Willows_Creek 3918.7 2-Yr 20.00 1.18 0.18 10.16 6.72 0.66 20.00 2.97 0.63 0.47 10.16 0.64 Willows_Creek 3918.7 10-Yr 40.00 1.57 0.32 11.49 10.91 0.95 40.00 3.66 0.90 0.63 11.49 0.66 Willows_Creek 3918.7 25-Yr 54.00 1.74 0.41 12.09 12.97 1.07 54.00 4.16 1.01 0.78 12.09 0.71 Willows_Creek 3918.7 50-Yr 68.00 1.89 0.49 12.58 14.76 1.17 68.00 4.61 1.10 0.93 12.58 0.75 Willows_Creek 3918.7 100-Yr 83.00 2.04 0.57 13.11 16.74 1.28 83.00 4.96 1.19 1.05 13.11 0.77 Willows_Creek 3909.4 2-Yr 20.00 1.23 0.18 12.00 8.54 0.71 20.00 2.34 0.65 0.29 12.00 0.49 Willows_Creek 3909.4 10-Yr 40.00 1.63 0.31 12.00 13.37 1.11 40.00 2.99 0.95 0.41 12.00 0.50 Willows_Creek 3909.4 25-Yr 54.00 1.80 0.41 12.00 15.40 1.28 54.00 3.51 1.07 0.54 12.00 0.55 Willows_Creek 3909.4 50-Yr 68.00 1.94 0.49 12.00 17.04 1.42 68.00 3.99 1.16 0.68 12.00 0.59 Willows_Creek 3909.4 100-Yr 83.00 2.08 0.56 12.00 18.76 1.56 83.00 4.42 1.26 0.82 12.00 0.62 Willows_Creek 3862.9 Bridge Willows_Creek 3816.3 2-Yr 20.00 1.03 0.17 12.00 6.10 0.50 19.93 3.26 0.50 0.61 12.43 0.81 Willows_Creek 3816.3 10-Yr 40.00 1.28 0.29 12.00 9.08 0.73 39.66 4.37 0.75 0.95 12.75 0.89 Willows_Creek 3816.3 25-Yr 54.00 1.49 0.38 12.00 11.65 0.93 53.31 4.57 0.96 0.96 13.03 0.82 Willows_Creek 3816.3 50-Yr 68.00 1.74 0.46 12.00 14.57 1.14 66.78 4.58 1.20 0.89 13.34 0.73 Willows_Creek 3816.3 100-Yr 83.00 1.99 0.53 12.00 17.64 1.37 81.07 4.60 1.45 0.84 13.67 0.67 Willows_Creek 3813.6 2-Yr 20.00 1.06 0.17 11.96 8.48 0.63 19.15 2.26 0.69 0.26 14.53 0.47 Willows_Creek 3813.6 10-Yr 40.00 1.32 0.29 11.96 11.61 0.84 37.28 3.21 0.94 0.48 15.73 0.57 Willows_Creek 3813.6 25-Yr 54.00 1.56 0.38 11.96 14.39 1.01 49.14 3.42 1.16 0.50 16.80 0.55 Willows_Creek 3813.6 50-Yr 68.00 1.81 0.45 11.96 17.46 1.19 60.28 3.45 1.41 0.48 17.98 0.50 Willows_Creek 3813.6 100-Yr 83.00 2.08 0.53 11.96 20.63 1.37 71.66 3.47 1.67 0.46 19.19 0.47 Willows_Creek 3790.4 Bridge Willows_Creek 3770.4 2-Yr 20.00 1.27 0.16 12.01 10.99 0.92 20.00 1.82 0.79 0.12 12.01 0.34 Willows_Creek 3770.4 10-Yr 40.00 2.17 0.27 12.01 21.77 1.81 40.00 1.84 1.38 0.10 12.01 0.24 Willows_Creek 3770.4 25-Yr 54.00 2.55 0.36 12.01 26.40 2.20 54.00 2.05 1.60 0.12 12.01 0.24 Willows_Creek 3770.4 50-Yr 68.00 2.82 0.43 12.02 29.62 2.47 68.00 2.30 1.74 0.15 12.02 0.26 Willows_Creek 3770.4 100-Yr 83.00 3.07 0.50 12.02 32.61 2.71 83.00 2.55 1.86 0.18 12.02 0.27 Willows_Creek 3756.4 2-Yr 20.00 1.76 0.15 6.18 7.44 1.20 20.00 2.69 1.00 0.33 6.18 0.43 Willows_Creek 3756.4 10-Yr 40.00 2.68 0.26 7.57 13.85 1.65 39.65 2.86 1.47 0.33 8.68 0.37 Willows_Creek 3756.4 25-Yr 54.00 3.05 0.35 7.66 16.70 1.90 52.56 3.15 1.75 0.37 9.92 0.38 ---PAGE BREAK--- Willows_Creek 3756.4 50-Yr 68.00 3.29 0.41 7.66 18.54 2.06 65.30 3.52 1.94 0.45 10.75 0.40 Willows_Creek 3756.4 100-Yr 83.00 3.51 0.48 7.66 20.21 2.19 78.64 3.89 2.11 0.53 11.50 0.42 Willows_Creek 3605.5 2-Yr 20.00 1.37 0.12 7.00 9.59 1.37 20.00 2.08 1.37 0.18 8.55 0.31 Willows_Creek 3605.5 10-Yr 40.00 2.49 0.20 7.00 17.42 2.49 40.00 2.30 2.49 0.18 17.97 0.26 Willows_Creek 3605.5 25-Yr 54.00 2.92 0.26 9.20 24.71 1.43 46.94 1.90 2.10 0.13 22.00 0.20 Willows_Creek 3605.5 50-Yr 68.00 3.16 0.32 9.20 26.88 1.67 55.40 2.06 2.28 0.15 22.00 0.21 Willows_Creek 3605.5 100-Yr 83.00 3.37 0.37 9.20 28.83 1.88 64.13 2.22 2.45 0.17 22.00 0.22 Willows_Creek 3570.75 Culvert Willows_Creek 3536 2-Yr 20.00 1.66 0.11 8.39 13.02 1.55 20.00 1.54 1.28 0.08 8.92 0.22 Willows_Creek 3536 10-Yr 40.00 2.64 0.17 9.20 22.15 1.45 37.06 1.67 1.89 0.08 18.02 0.19 Willows_Creek 3536 25-Yr 54.00 2.95 0.22 9.20 25.02 1.53 47.19 1.89 2.14 0.10 21.03 0.20 Willows_Creek 3536 50-Yr 68.00 3.18 0.27 9.20 27.14 1.74 56.35 2.08 2.32 0.11 21.28 0.21 Willows_Creek 3536 100-Yr 83.00 3.40 0.31 9.20 29.17 1.94 65.62 2.25 2.49 0.13 21.52 0.22 Willows_Creek 3511 2-Yr 20.00 1.63 0.10 8.89 12.96 1.46 20.00 1.54 1.19 0.08 8.89 0.23 Willows_Creek 3511 10-Yr 40.00 2.62 0.16 9.20 22.00 1.44 37.18 1.69 1.88 0.08 17.94 0.19 Willows_Creek 3511 25-Yr 54.00 2.93 0.21 9.20 24.85 1.51 47.40 1.91 2.12 0.10 21.01 0.20 Willows_Creek 3511 50-Yr 68.00 3.16 0.25 9.20 26.95 1.72 56.60 2.10 2.30 0.12 21.26 0.22 Willows_Creek 3511 100-Yr 83.00 3.38 0.29 9.20 28.97 1.92 65.91 2.27 2.48 0.13 21.50 0.23 Willows_Creek 3480 2-Yr 20.00 1.57 0.09 6.49 10.05 1.55 20.00 1.99 1.49 0.12 8.81 0.28 Willows_Creek 3480 10-Yr 40.00 2.60 0.14 9.20 21.79 1.43 37.34 1.71 1.86 0.08 17.84 0.20 Willows_Creek 3480 25-Yr 54.00 2.90 0.18 9.20 24.61 1.49 47.69 1.94 2.10 0.10 20.98 0.21 Willows_Creek 3480 50-Yr 68.00 3.13 0.22 9.20 26.70 1.70 56.95 2.13 2.28 0.12 21.23 0.22 Willows_Creek 3480 100-Yr 83.00 3.35 0.26 9.20 28.70 1.90 66.31 2.31 2.45 0.14 21.46 0.23 Willows_Creek 3422.4 Culvert Willows_Creek 3364.8 2-Yr 20.00 2.70 0.07 8.75 19.73 2.25 20.00 1.01 2.13 0.02 20.99 0.12 Willows_Creek 3364.8 10-Yr 40.00 3.29 0.11 8.75 24.87 2.84 40.00 1.61 2.69 0.05 25.81 0.17 Willows_Creek 3364.8 25-Yr 54.00 3.48 0.14 10.60 30.04 1.66 42.81 1.43 2.60 0.04 27.58 0.15 Willows_Creek 3364.8 50-Yr 68.00 3.67 0.16 10.60 32.08 1.41 54.57 1.70 2.78 0.05 36.50 0.17 Willows_Creek 3364.8 100-Yr 83.00 3.90 0.19 10.60 34.56 1.64 61.99 1.79 2.99 0.06 36.50 0.18 Willows_Creek 3279.5 2-Yr 20.00 1.22 0.04 5.40 4.55 0.76 19.98 4.39 0.75 0.54 6.04 0.84 Willows_Creek 3279.5 10-Yr 40.00 1.63 0.07 5.40 6.74 0.82 38.35 5.69 1.11 0.80 9.21 0.90 Willows_Creek 3279.5 25-Yr 54.00 1.92 0.08 5.40 8.28 0.88 48.16 5.82 1.36 0.78 12.18 0.83 Willows_Creek 3279.5 50-Yr 68.00 2.12 0.10 5.40 9.37 0.98 57.09 6.10 1.54 0.82 13.61 0.82 Willows_Creek 3279.5 100-Yr 83.00 2.26 0.12 5.40 10.13 1.05 66.75 6.59 1.66 0.93 14.64 0.85 Willows_Creek 3222.5 2-Yr 20.00 1.37 0.03 6.20 5.91 0.75 19.80 3.35 0.84 0.30 8.17 0.61 Willows_Creek 3222.5 10-Yr 40.00 1.82 0.05 6.30 8.74 0.90 36.54 4.18 1.23 0.42 11.74 0.63 Willows_Creek 3222.5 25-Yr 54.00 2.05 0.07 6.30 10.20 1.03 46.69 4.58 1.43 0.47 13.11 0.63 Willows_Creek 3222.5 50-Yr 68.00 2.25 0.08 6.30 11.43 1.15 55.98 4.90 1.60 0.52 14.01 0.64 Willows_Creek 3222.5 100-Yr 83.00 2.44 0.10 6.30 12.64 1.28 65.23 5.16 1.77 0.56 14.77 0.64 Willows_Creek 3001.5 2-Yr 20.00 1.38 5.50 5.91 0.84 19.74 3.34 0.93 0.29 7.32 0.57 Willows_Creek 3001.5 10-Yr 40.00 1.86 5.50 8.53 0.97 36.35 4.26 1.34 0.42 10.91 0.60 Willows_Creek 3001.5 25-Yr 54.00 2.10 5.50 9.86 1.09 46.27 4.69 1.55 0.48 12.22 0.62 Willows_Creek 3001.5 50-Yr 68.00 2.31 5.50 10.99 1.20 55.42 5.04 1.73 0.54 13.32 0.63 Willows_Creek 3001.5 100-Yr 83.00 2.50 5.50 12.05 1.30 64.61 5.36 1.89 0.59 14.36 0.64 Willows_Creek 3001.5 100-Yr 83.00 2.50 5.50 12.04 1.30 64.62 5.37 1.89 0.59 14.36 0.64 ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report D.1 APPENDIX D. SEDIMENT MOBILITY SUMMARY Bed-material sediment mobility and corresponding aggradation/degradation trends in the vicinity of the proposed culvert crossing were evaluated. The study area was subdivided into four sub-reaches (1A-1D) as shown in Figure D-1. Provisional results indicate sufficient continuity in transport potential exists to route sands and gravels supplied from Reach 1A through Reach 1B and 1C to the detention pond in Reach 1D as detailed in the following section. Figure D-1. Reach 1 study area and sub-reaches relative to Willows Road crossing. EXISTING CONDITIONS The sediment mobility study area upstream of the Willows Road crossing falls within Reach 1 as shown in Figure D-1. In general, Reach 1 is characterized by gradually flattening slopes, with Reach 1A, being an alluvial fan that stores sediment, Reach 1B a transition reach with channel spanning log weirs that store sediment, Reach 1C a response reach, and Reach 1D a depositional reach that ends in an inline detention pond. The existing channel bed in the vicinity of the Willows Road crossing was observed during a field visit in December 2017. Coarse material was present on the surface of the channel bed in localized patches, coincident with the existing Willows Road culvert crossing between Reaches 1C/1D as well as the next crossing upstream between 1B/1C and were partially covered with finer material as shown in Figure D-3. This coarse material appears to have been placed in the channel as part of the culvert installation and remained relatively immobile. Two pebble counts were performed to characterize the surface layer of sediment immediately upstream of the Willows Road culvert crossing. The first pebble count was performed in the vicinity of Site W1 between Station 10+60 at the culvert face and Station 10+30, where a natural break in the sediment distribution was observed. The second pebble count was performed in the vicinity of Site W2 and spanned from Station 10+30 to Station 10+10, where coarse sediment was no longer observed. Results yielded D50 values of 51 mm and 42 mm, respectively. Outside of the culvert transition areas where the coarser placed material was observed, the channel bed was found to be comprised of much finer sediment, predominately unconsolidated patches of sand and gravel. Two bulk samples of bed material were collected in Reach 1C for sieve analysis, the first at Site W3 (Station 9+90) and the second ~325 feet further upstream at Site W9 (Station 6+60). Both samples were comprised of relatively fine material, approximately three-quarters sand and one-quarter gravel. The D50 of the sample at W3 was coarse sand (0.75mm) and the D50 of the upstream sample W9 was very fine gravel (2.25mm). A summary of the particle size distribution for the two bulk samples is presented in Table D-2 and Figure D-4. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report D.2 Table D-1. Summary of Reach 1 Characteristics Reach ID Length Upstream Characteristics 1A ~1000’ Headwaters reaches slope 48” Culvert under business park road that may be replaced with larger box culvert as part of PSE restoration project. PSE Parcel slated for future stream restoration. This 60-acre alluvial fan begins where the stream exists the steeper canyon above. Despite having slopes Reach 1A currently stores/lags upslope sediment but could deliver additional sediment into Reach 1B following restoration project implementation. 1B 380’ 60” Culvert 60” Culvert Reach 1B lies between two culvert crossings of business park access roads. There are multiple constructed channel spanning log weirs with armored banks in this reach creating backwater pools that retain some sediment. Reach 1B appears to be horizontally and vertically stable due to armoring. 1C 635’ 60” Culvert Willows Road Crossing Reach 1C upstream of Willows Road is characterized by relatively narrow channel with bankfull widths between 6 and 9 feet, and a low overbank floodplain 40 to 60 feet wide on average. This response reach has an average bankfull slope of with locally variable channel facet slopes between 0.1% and The creek bottom is heavily vegetated and includes some small deciduous large woody debris. This reach also includes some placed large woody debris that is anchored with rebar & cable, which appears to have resulted in some localized bank erosion. Reach 1C appears to be moderately stable due to vegetation density and access to a relatively wide floodplain. 1D 200’ Detention Pond This short reach transitions between the Willows Creek culvert outlet and a stormwater detention pond; it includes a 12’ arch culvert at 3% slope under the Redmond Central Connector Trail. Figure D-2. Left, channel in lower Reach 1C near Station 9+50. Center, channel in upper Reach 1C near Station 6+00. Right, looking upstream into Reach 1B from road crossing at Station 4+50. ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report D.3 Table D-2. Percentages of fractional components for two bed material sieve samples from Reach 1C. Gravel Sand Fines Site Coarse Fine Total Coarse Medium Fine Total Total W3 0.6 15.7 16.3 24.4 17.8 35.3 77.5 6.2 W9 0.0 25.9 25.9 26.4 20.9 24.8 73.1 1.0 Figure D-3. Sediment Placed Upstream of Willows Road Culvert Figure D-4. Sediment Gradation at Bulk Sample Locations ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report D.4 EXISTING SEDIMENT MOBILITY The HEC-RAS model (Section 4.1.1) was used to evaluate the magnitude and continuity of sediment mobility in Reach 1. Results indicate a general trend of moderately decreasing shear stress from upstream to in the upper 375 feet of Reach 1C. of ~Station 9+00 as the channel begins to curve to the northeast and approach the Willows Road crossing, the channel grade steepens. Despite the increased approach slope, the backwater created by the existing Willows Road culvert effectively dampens the hydraulic energy in the upstream approach section, resulting in deposition of sands and gravels. In addition, the reduced capacity of the existing culvert results in increased outlet energy, sufficient to mobilize particles smaller than 32 mm as shown in Figure D- 5 and Figure D-6. Figure D-5. Longitudinal profile of modeled shear stress for Existing Conditions. Figure D-6. Longitudinal profile of estimated mobile particle size for Existing Conditions. PROPOSED BED MOBILITY The proposed Willows Road crossing has increased hydraulic capacity which allows the steeper slope of the upstream approach section to influence the hydraulics. Results indicate that the upstream approach section would be expected to experience increased shear stress of station 8+50 as shown in Figure D-7 and Figure D-8. Immediately upstream of the proposed culvert, the local channel is partially armored with placed material with D50 between 42 and 51 which would be mobilized under flows exceeding 20 cfs; this is anticipated to result in short ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report D.5 term channel adjustment and subsequent smoothing of the energy grade between station 9+00 and the new culvert inlet near station 10+60. Vegetation and spanning logs in the channel may reduce the potential for readjustment described above. Monitoring of the channel profile and adaptive management is recommended for this channel. If readjustment occurs, additional stabilization measures, such as large wood and channel substrate fortified with a cobble mix (median size 76mm) be installed as a maintenance action. The streambed gradation for the proposed culvert was designed based off the modified critical shields approach as documented within the WDFW Stream Habitat Restoration Guidelines (Cramer 2012). Results of the hydraulic model show a critical shear up to 1.0 lbs/ft2 though the proposed culvert, supporting a maximum shear stress up to the 32 mm size class (See Appendix Bed material was sized for the D84 to remain stable up to the 100-year event. Higher shear stresses exceeding 2.0 lbs/ft2 are found immediately upstream of the proposed culvert, capable of mobilizing up to the 64mm size class. However, larger material with a D84 ranging from 83 mm - 108 mm is located immediately upstream, material is expected to remain relatively stable despite increased shear stress due a reduced backwater condition. A mixture of 35% streambed sediment (WSDOT 9-03.11(1)) per part of 6-inch minus Streambed Cobble (WSDOT 9-03.11(2)) will be specific for the design. Streambed cobble has an average 35% void space and 2-inch minus streambed sediment is used to fill void space and increase the stability of the mixture. The proposed streambed gradation is provided below in Table D-3. Figure D-7. Longitudinal profile of modeled shear stress for Proposed Conditions. Figure D-8. Longitudinal profile of estimated mobile particle size for Proposed Condition ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report D.6 Table D-3. Proposed Streambed Gradation Particle Frequency Particle Size (mm) Particle Size (in) D100 152 6.0 D84 113 4.5 D65 58 2.3 D50 42 1.7 D35 26 1.0 D16 9 0.3 ---PAGE BREAK--- Willows Creek and Gun Club Creek Culvert Replacement Culvert Analysis Report E.1 APPENDIX E. HY-8 OUTPUT ---PAGE BREAK--- ---PAGE BREAK--- HY-8 Culvert Analysis Report Culvert Data Summary - Existing Barrel Shape: Circular Barrel Diameter: 3.00 ft Barrel Material: Corrugated Steel Embedment: 0.30 in Barrel Manning's n: 0.0240 (top and sides) Manning's n: 0.0350 (bottom) Culvert Type: Straight Inlet Configuration: Thin Edge Projecting Inlet Depression: NONE Site Data - Existing Site Data Option: Culvert Invert Data Inlet Station: 100.00 ft Inlet Elevation: 34.60 ft Outlet Station: 210.00 ft Outlet Elevation: 33.50 ft Number of Barrels: 1 Table 1 - Culvert Summary Table: Existing Straight Culvert Inlet Elevation (invert): 34.63 ft, Outlet Elevation (invert): 33.52 ft Culvert Length: 110.01 ft, Culvert Slope: 0.0100 Discharge Names Total Discharge (cfs) Culvert Discharge (cfs) Headwater Elevation (ft) Inlet Control Depth (ft) Outlet Control Depth (ft) Flow Type Normal Depth (ft) Critical Depth (ft) Outlet Depth (ft) Tailwater Depth (ft) Outlet Velocity (ft/s) Tailwater Velocity (ft/s) 2-year 5.50 5.50 35.82 0.634 1.194 1-S1t 0.708 0.715 1.365 0.890 1.491 1.070 10-year 9.20 9.20 36.26 0.900 1.637 1-S1t 0.927 0.937 2.399 1.924 1.382 1.108 25-year 11.70 11.70 37.17 1.061 2.549 1-S1f 1.059 1.063 2.975 2.956 1.665 1.111 50-year 13.80 13.80 37.38 1.186 2.756 3-M1f 1.159 1.159 2.975 3.086 1.964 0.933 100-year 16.20 16.20 37.52 1.320 2.898 3-M1f 1.274 1.267 2.975 3.120 2.306 0.870 ---PAGE BREAK--- Table 2 - Channel Rating Curve (Crossing: Gun Club Creek) Tailwater Channel Data - Gun Club Creek Tailwater Channel Option: Enter Rating Curve Channel Invert Elevation: 34.00 ft Roadway Data for Crossing: Gun Club Creek Roadway Profile Shape: Constant Roadway Elevation Crest Length: 100.00 ft Crest Elevation: 39.00 ft Roadway Surface: Paved Roadway Top Width: 50.00 ft Table 3 - Summary of Culvert Flows at Crossing: Gun Club Creek Flow (cfs) Water Surface Elev (ft) Depth (ft) Velocity (ft/s) 5.50 34.89 34.89 1.07 9.20 36.26 36.26 1.12 11.70 37.01 37.01 1.11 13.80 37.06 37.06 0.98 16.20 37.12 37.12 0.87 Headwater Elevation (ft) Discharge Names Total Discharge (cfs) Existing Discharge (cfs) Roadway Discharge (cfs) Iterations 35.82 2-year 5.50 5.50 0.00 1 36.26 10-year 9.20 9.20 0.00 1 37.17 25-year 11.70 11.70 0.00 1 37.38 50-year 13.80 13.80 0.00 1 37.52 100-year 16.20 16.20 0.00 1 39.00 Overtopping 35.04 35.04 0.00 Overtopping ---PAGE BREAK--- HY-8 Culvert Analysis Report Culvert Data Summary - Proposed Barrel Shape: User Defined Barrel Span: 10.00 ft Barrel Rise: 2.50 ft Barrel Material: Concrete Embedment: 0.00 in Barrel Manning's n: 0.0120 (top and sides) Manning's n: 0.0350 (bottom) Culvert Type: Straight Inlet Configuration: Square Edge with Headwall Inlet Depression: NONE Site Data - Proposed Site Data Option: Culvert Invert Data Inlet Station: 100.00 ft Inlet Elevation: 35.30 ft Outlet Station: 205.00 ft Outlet Elevation: 34.20 ft Number of Barrels: 1 Table 1 - Culvert Summary Table: Proposed * Full Flow Headwater elevation is below inlet invert. Straight Culvert Inlet Elevation (invert): 35.30 ft, Outlet Elevation (invert): 34.20 ft Culvert Length: 105.01 ft, Culvert Slope: 0.0105 Discharge Names Total Discharge (cfs) Culvert Discharge (cfs) Headwater Elevation (ft) Inlet Control Depth (ft) Outlet Control Depth (ft) Flow Type Normal Depth (ft) Critical Depth (ft) Outlet Depth (ft) Tailwater Depth (ft) Outlet Velocity (ft/s) Tailwater Velocity (ft/s) 2 year 5.50 5.50 35.94 0.640 0.0* 1-S2n 0.405 0.608 0.554 0.890 2.452 1.150 10 year 9.20 9.20 36.30 0.721 0.999 1-S1t 0.521 0.696 2.060 2.260 0.480 1.090 25 year 11.70 11.70 37.02 0.779 1.724 1-S1f 0.568 0.749 2.500 3.010 0.557 1.100 50 year 13.80 13.80 37.08 0.824 1.778 1-S1f 0.586 0.790 2.500 3.060 0.657 0.980 100 year 16.20 16.08 37.14 0.870 1.844 1-S1f 0.605 0.831 2.500 3.117 0.766 0.876 ---PAGE BREAK--- Table 2 - Channel Rating Curve (Crossing: Gun Club Creek) Tailwater Channel Data - Gun Club Creek Tailwater Channel Option: Enter Rating Curve Channel Invert Elevation: 34.00 ft Roadway Data for Crossing: Gun Club Creek Roadway Profile Shape: Constant Roadway Elevation Crest Length: 100.00 ft Crest Elevation: 39.00 ft Roadway Surface: Paved Roadway Top Width: 50.00 ft Table 3 - Summary of Culvert Flows at Crossing: Gun Club Creek Flow (cfs) Water Surface Elev (ft) Depth (ft) Velocity (ft/s) 5.50 34.89 34.89 1.15 9.20 36.26 36.26 1.09 11.70 37.01 37.01 1.10 13.80 37.06 37.06 0.98 16.20 37.12 37.12 0.87 Headwater Elevation (ft) Discharge Names Total Discharge (cfs) Proposed Discharge (cfs) Roadway Discharge (cfs) Iterations 35.94 2 year 5.50 5.50 0.00 1 36.30 10 year 9.20 9.20 0.00 1 37.02 25 year 11.70 11.70 0.00 1 37.08 50 year 13.80 13.80 0.00 1 37.14 100 year 16.20 16.08 0.00 6 39.00 Overtopping 15.04 15.04 0.00 Overtopping