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Home My WebLink AboutReports - Drainage - 11/18/2025PRELIMINARY DRAINAGE REPORT FOR Front Range RV and Boat Storage Prepared For: Freedom Homes, LLC 4920 Saddlewood Circle. Johnstown, Colorado 80534 Eric Kelley (970) 405-3961 November 18, 2025 Project No. 39817.00 Prepared By: JR Engineering, LLC 2900 South College Avenue, Suite 1A Fort Collins, CO 80525 Front Range Storage Preliminary Drainage Report ii TABLE OF CONTENTS TABLE OF CONTENTS ......................................................................................................................... ii APPENDIX ..................................................................................................................................... iii Engineer’s Certification Block ........................................................................................................... iv GENERAL DESCRIPTION AND LOCATION ............................................................................................ 7 LOCATION ..................................................................................................................................... 7 DESCRIPTION OF PROPERTY .......................................................................................................... 7 MASTER DRAINAGE BASIN DESCRIPTION ....................................................................................... 7 FLOODPLAIN SUBMITTAL REQUIREMENTS ..................................................................................... 8 DRAINAGE BASINS AND SUB-BASINS ................................................................................................. 9 MAJOR BASINS AND SUB-BASINS ................................................................................................... 9 EXISTING SUB-BASIN DESCRIPTION ................................................................................................ 9 EXISTING OFF-SITE DRAINAGE BASINS ........................................................................................... 9 PROPOSED SUB-BASINS DESCRIPTIONS ....................................................................................... 10 OFF-SITE SUB-BASINS DESCRIPTIONS ........................................................................................... 11 PROJECT DESCRIPTION .................................................................................................................... 11 PROJECT DESCRIPTION ................................................................................................................ 11 PROPOSED DRAINAGE FACILITIES .................................................................................................... 11 GENERAL CONCEPT ..................................................................................................................... 11 WATER QUALITY .......................................................................................................................... 12 LOW IMPACT DEVELOPMENT ...................................................................................................... 12 DRAINAGE DESIGN CRITERIA ........................................................................................................... 13 REGULATIONS ............................................................................................................................. 13 FOUR STEP PROCESS TO PROTECT RECEIVING WATERS ............................................................... 13 DEVELOPMENT CRITERIA REFERENCE AND CONSTRAINTS ........................................................... 14 HYDROLOGIC CRITERIA ................................................................................................................ 15 HYDRAULIC CRITERIA ................................................................................................................... 15 FLOODPLAIN REGULATIONS COMPLIANCE ................................................................................... 15 MODIFICATIONS OF CRITERIA ...................................................................................................... 15 EROSION CONTROL ..................................................................................................................... 16 CONCLUSIONS ................................................................................................................................. 16 COMPLIANCE WITH STANDARDS ................................................................................................. 16 DRAINAGE CONCEPT ................................................................................................................... 16 Front Range Storage Preliminary Drainage Report iii APPENDIX Appendix A – Figures Appendix B – Hydrologic Calculations Appendix C – Hydraulic Calculations Appendix D – Water Quality Calculations Appendix E – Reference Appendix F – Maps Appendix G – LID Exhibit Front Range Storage Preliminary Drainage Report iv Engineer’s Certification Block I hereby attest that this report for the final drainage design for the Front Range RV Boat and Storage was prepared by me or under my direct supervision, in accordance with the provisions of the Fort Collins Stormwater Criteria Manual. I understand that the City of Fort Collins does not and will not assume liability for drainage facilities designed by others. Joseph Martin Frank, PE Registered Professional Engineer State of Colorado No. 53399 For and on behalf of JR Engineering Front Range Storage Preliminary Drainage Report 7 GENERAL DESCRIPTION AND LOCATION LOCATION The site is located in the North half of the Northwest Quarter and the East Half of Section 3, Township 7 North, Range 68 West of the 6th Principal Meridian, City of Fort Collins, County of Larimer, State of Colorado. More specifically, the site is a 105-acre property that is zoned I- Industrial. The concept plan proposes approximately 12 acres of outdoor, non-covered recreational vehicle and boat storage. The remaining 95 acres will remain for agricultural use. The site is situated on the NE Frontage Rd on the West side and is bordered by the Larimer and Weld County Canal (“LWCC”) on the south side. To the East, the site abuts four presently vacant parcels of land, while to the north, it borders the land owned by the Colorado Division of Wildlife. DESCRIPTION OF PROPERTY The Front Range Storage area spans approximately 105 acres, with approximately 12 acres designated for development into RV and boat storage. The remaining 95 acres will continue to be used as irrigated agricultural land. The site currently features an existing gravel road access located just off the NE Frontage Road. Most of the site remains undeveloped and is presently being utilized for agriculture and a U-Haul rental service. Two buildings are the only existing structures on site, situated just east of the Frontage Road. Although flow paths are not precisely defined, the general drainage pattern of the site follows a gradual slope ranging from 1% to 4% in the northeast to the southwest direction. According to the Natural Resources Conservation Service (NRCS), approximately half of the soils on the site are composed of type B soils, which have a mild infiltration and runoff rate. The remaining site is made up of type C soils, which are characterized by a lower infiltration rate and corresponding higher runoff rates. For additional information, refer to the NRCS soil map within Appendix A of this report. Adjacent to the proposed site, a pre-existing 15” corrugated metal pipe facilitates the drainage of any surplus stormwater and irrigation water from the site into the Larimer and Weld Canal. The existing culvert is not capable of conveying large quantities of runoff. MASTER DRAINAGE BASIN DESCRIPTION The site is positioned within the Boxelder Creek Basin and shares borders with the Upper Cooper Slough and Lower Cooper Slough basins. The Boxelder Creek watershed and associated floodplain consists, to a large degree, of mostly undeveloped land. Currently, the site drains through a 15” CMP and outfalls into the Larimer and Weld Canal. The Larimer and Weld County Canal (LWCC) policy as of 2025 is not to accept stormwater runoff from any new developments. To address this policy restriction, a Joint Outfall Channel was designed as a regional drainage solution to intercept and convey both on-site and off-site stormwater runoff away from the Larimer and Weld Canal (LWCC). The Joint Outfall Channel Design Report (PEC, June 2025), Front Range Storage Preliminary Drainage Report 8 prepared in coordination with Larimer County and the City of Fort Collins, evaluated hydrologic and hydraulic conditions under various scenarios and confirmed that stormwater from the Front Range Storage site—as well as runoff from the adjacent Colorado Parks and Wildlife (CPW) relocation project—will be diverted southeast to discharge directly into Boxelder Creek. This channel eliminates the historical drainage path to the LWCC and ensures full compliance with the LWCC policy of prohibiting stormwater discharge from new developments. The design utilizes a shallow, grass-lined trapezoidal channel with sufficient capacity and freeboard (1 ft) to safely convey peak flows without impacting downstream flood elevations. Under the adopted “beat-the-peak” strategy, the timing of runoff discharge avoids coinciding with peak flows in Boxelder Creek, ensuring no rise in floodplain elevations and maintaining downstream flood protection. FLOODPLAIN SUBMITTAL REQUIREMENTS The Front Range RV Boat and Storage site is on FEMA FIRM panels 08069C0982F and 08069C1001F. The Front Range RV Boat and Storage site lies within FEMA Zone X, areas that are determined to be outside the 0.2% annual chance floodplain. The Front Range RV Boat and Storage site is not located within a FEMA-regulated floodplain, as shown in Appendix A in the FEMA attachments. The site is also not located in the City of Fort Collins Floodplain, as shown in Appendix A in the City of Fort Collins Flood map. The site ultimately drains into the Boxelder Creek Floodplain, specifically within the FEMA- designated Zone AE, which is defined as a special flood hazard area subject to inundation by the 1% annual chance flood (100-year flood), as documented in the Joint Outfall Channel Design Report prepared by Professional Engineering Consultants (PEC, June 2025). The report confirms that under the proposed drainage configuration using the joint outfall channel and a “beat-the-peak” approach, there is no adverse impact to the Base Flood Elevation (BFE), with modeling results demonstrating no rise—i.e., a change of 0.00 feet—to the hundredth of a foot, thereby satisfying the no-rise criteria for development within Zone AE. Outfall to Boxelder Creek is planned to discharge through the FEMA-regulated 100-year floodplain of Boxelder Creek, including areas both within and outside the Fort Collins city limits. All required permits and approvals will be obtained from the applicable regulatory authorities prior to any construction activities within the floodplain. Front Range Storage Preliminary Drainage Report 9 DRAINAGE BASINS AND SUB-BASINS MAJOR BASINS AND SUB-BASINS The Front Range RV Boat and Storage site is located in the Boxelder Creek Basin. The Upper and Lower Cooper Slough Basins exist to the west of the site. Covering approximately 265 square miles, the Boxelder Creek extends from north of the Colorado/Wyoming border and stretches southward into the eastern part of Fort Collins. These basins are predominantly characterized by farmland, with occasional pockets of mixed-use residential development and limited commercial development. EXISTING SUB-BASIN DESCRIPTION Basin EO1, 12.51 acres and 8.2% impervious, is composed of the proposed RV Boat and storage site. Basin EX2, 36.9 acres and 2% impervious, is composed of the portion of the site east of the proposed RV Boat and Storage site. Basin EX3, 19.8 acres and 2% impervious, is composed of the portion of the site east of the proposed RV Boat and Storage site. EXISTING OFF-SITE DRAINAGE BASINS Currently, the site collects off-site runoff from the north, including flow from the Colorado Division of Wildlife property just north of 1435 NE Frontage Road, which drains onto the site as sheet flow. This runoff historically discharged directly into the Larimer and Weld Canal. Additionally, runoff from the eastern off-site basin flows south into the canal. A natural ridgeline divides portions of the northeast and southeast off-site basins, such that runoff west of the ridgeline drains into the Larimer and Weld Canal, while runoff east of the ridgeline drains into Boxelder Creek. During the 100-year storm event, it is anticipated that runoff from the north and along the NE Frontage Road will sheet flow onto the site. This off-site drainage pattern was previously modeled in the Boxelder Creek LOMR As-Built SWMM model prepared by Ayres Associates in 2018. An exhibit showing this model configuration has been provided in Appendix D of the PEC report. The Joint Outfall Channel Design Report (PEC, June 2025) builds upon this as-built hydrologic foundation and incorporates the same modeling framework to evaluate proposed conditions. The PEC study details both the on-site and off-site runoff release rates and incorporates a "beat-the- peak" off-site flow management strategy to ensure compliance with FEMA floodplain regulations. The report confirms that these regional stormwater improvements—including the construction of the joint outfall channel—will be implemented in advance of the development of the Front Front Range Storage Preliminary Drainage Report 10 Range Storage Facility, ensuring that no stormwater from the site discharges into the Larimer and Weld Canal and that all flows are safely routed to Boxelder Creek without adverse impact. PROPOSED SUB-BASINS DESCRIPTIONS Basin C1 is 1.11 acres and 61% impervious. This basin includes access to the site off the I-25 North East Frontage Road. Runoff from this basin is treated in the on-site rain garden. For runoff greater than the water quality event, flows will overflow into two 30" RCPs. Basin C2 is 0.89 acres and 74% impervious. This basin consists of the site entrance and access improvements from the Frontage Road. Runoff drains to the rain garden located in the southern portion of the site. When the rain garden overtops the overflow weir, flows are conveyed to the overflow channel. Basin C3 is 2.03 acres and 78% impervious. This basin is composed of uncovered parking, paved drive aisles, and some landscaped areas. Runoff is directed to a rain garden at Design Point 3 in the southern portion of the site. Overflow from the rain garden is conveyed to the overflow channel. Basin C4 is 1.08 acres and 79% impervious. This basin includes uncovered parking, paved drive aisles, and some landscaping. Runoff flows into a rain garden at Design Point 4 in the southern portion of the site, and then is conveyed to the overflow channel. Basin C5 is 1.08 acres and 79% impervious. This basin contains uncovered parking and paved drive aisles. Runoff is directed to a rain garden at Design Point 5 in the southern portion of the site, where overflow is conveyed to the overflow channel. Basin C6 is 1.17 acres and 79% impervious. This basin consists of uncovered parking and paved drive aisles. Runoff is directed to a rain garden at Design Point 6 in the southern portion of the site, and overflow is conveyed to the overflow channel. Basin C7 is 0.34 acres and 78% impervious. This basin includes uncovered parking and paved drive aisles. Runoff is directed to a rain garden at Design Point 7 in the southern portion of the site, with overflow conveyed to the overflow channel. Basin C8 is 1.08 acres and 79% impervious. This basin is composed of uncovered parking and paved drive aisles. Runoff is directed to a rain garden at Design Point 8 in the southern portion of the site, with overflow conveyed to the overflow channel. Basin C9 is 0.58 acres and 3% impervious. This basin includes mostly pervious areas with limited impervious surface. Runoff drains to the rain garden located in the southern portion of the site. Front Range Storage Preliminary Drainage Report 11 OFF-SITE SUB-BASINS DESCRIPTIONS Basin OS1 is 0.26 acres and 100% impervious. This basin is composed of the I-25 North East Frontage Road and associated impervious improvements. Basin OS2 is 0.92 acres and 3% impervious. This is composed of Tract B and receives runoff from basin OS1, where it drains onto the site. Basin OS3 is 38.11 acres and 2% impervious. This large basin drains to the overflow channel, which then outfalls to Boxelder Creek by overtopping the weir from the outlet structure. Basin OS4 is 20.31 acres and 2% impervious. This basin drains to a swale, which then outfalls into Boxelder Creek. PROJECT DESCRIPTION PROJECT DESCRIPTION The Front Range RV & Boat Storage site is a recreational vehicle and boat storage facility at 1312 NE Frontage Road. The previously undeveloped portion of the 105-acre property, approximately 12 acres, is for outdoor covered and uncovered recreational vehicle and boat storage. The remaining 95 acres will remain for agricultural use. PROPOSED DRAINAGE FACILITIES GENERAL CONCEPT The proposed development of the Front Range RV & Boat Storage site will result in the developed condition being fully treated for water quality through on-site rain gardens. No detention is proposed; instead, the site utilizes a 'beat-the-peak' strategy, as outlined in the Joint Outfall Channel Design Report prepared by Professional Engineering Consultants (PEC), June 2025, to release runoff ahead of peak flows in Boxelder Creek and avoid adverse downstream impacts. Low-impact development best management practices are proposed to improve the quality of runoff and aid in reducing peak flows. Specifically, a rain garden will be used in the southern portion of the site to treat runoff and provide water quality for the majority of the site. In the 100-year event, the water quality will overtop and drain into the overflow channel via an overflow weir. The remaining portion of the site will be treated for water quality up north near the site's access from the I-25 Frontage Road and will overtop the rain garden into two 30" culverts in the 100-year event. Front Range Storage Preliminary Drainage Report 12 WATER QUALITY The site includes a Rain Garden(s) designed to capture and address 100% of the total water quality capture volume on the site. The Rain Garden(s) will be maintained to ensure the ongoing protection of the receiving waters. The property will provide water quality treatment for the Front Range RV & Boat Storage development and is designed to utilize a “beat-the-peak” approach, allowing stormwater to be released ahead of the Boxelder Creek peak flow. This stormwater management strategy is based on the recommendations in the PEC - Joint Outfall Channel Design Report. Refer to the water quality map in Appendix G for more details. LOW IMPACT DEVELOPMENT A minimum of 75% of the new impervious surface area is treated by a Low-Impact Development (LID) best management practice (BMP) in accordance with City criteria. An illustrative LID/ Surface Map is provided in Appendix G, and the sizing of the LID methods is provided in Appendix D. Front Range Storage Preliminary Drainage Report 13 DRAINAGE DESIGN CRITERIA REGULATIONS This report was prepared to meet or exceed the City of Fort Collins stormwater criteria. The City of Fort Collins Stormwater Criteria Manual (dated 2018)(FCSCM) and the Urban Drainage Flood Control District’s (UDFCD) Drainage Criteria Manual (USDCM) Volumes 1, 2, and 3 were referenced as guidelines for this design. FOUR STEP PROCESS TO PROTECT RECEIVING WATERS The City of Fort Collins requires the Four Step Process to protect receiving waters. The four- step process incorporates reducing runoff volume, treating water quality capture volume, stabilizing streams, and implementing long-term source controls. Volume reduction is an important part of the Four Step Process and is fundamental to effective stormwater management. Per City criteria, a minimum of 75 percent of new impervious surface area must be treated by a Low-Impact Development (LID) best management practice (BMP). The site incorporates two on- site rain gardens designed to capture and treat 100% of the site's water quality capture volume. The Rain Gardens need to be properly cleaned and maintained to allow for long-term protection of the receiving waters. The proposed LID BMPs will have the effect of slowing runoff through the site lot and increasing infiltration and rainfall interception by encouraging infiltration and careful selection of vegetative cover. The LID exhibit is shown within Appendix G of this report. Step 1 – Employ Runoff Reduction Practices The majority of developed runoff on the site will be routed through Low-Impact Development (LID) features designed to reduce volume and improve water quality. Specifically, two on-site rain gardens are provided to capture, infiltrate, and treat 100% of the site's water quality capture volume. These rain gardens promote infiltration, evapotranspiration, and pollutant removal in accordance with City of Fort Collins criteria. No detention is proposed for the site. Instead, the design utilizes a “beat-the-peak” strategy, whereby site runoff is released ahead of the peak flows in Boxelder Creek. This method ensures that stormwater discharges do not coincide with peak downstream flows, preventing any rise in floodplain elevations. The approach is consistent with the findings and recommendations outlined in the Joint Outfall Channel Design Report prepared by Professional Engineering Consultants (PEC), June 2025, which confirms there will be no adverse impact to the Boxelder Creek Floodplain. Step 2 – Implement BMPS that Provides Water Quality Capture Volume The site incorporates two on-site rain gardens designed to capture and treat 100% of the site's water quality capture volume. These rain gardens are engineered to provide full water quality treatment for all on-site impervious areas, ensuring long-term protection of the receiving waters. Proper maintenance and regular cleaning of the rain gardens will be required to maintain effective treatment performance. For additional information, see the water quality map in Appendix G of this report. Front Range Storage Preliminary Drainage Report 14 Step three –Stabilize Drainage ways The stormwater improvements for the Front Range RV Boat and Storage project significantly enhance the existing drainage conditions by treating stormwater flows through a combination of Best Management Practices (BMPs). These improvements include the implementation of Low Impact Development (LID) strategies designed to improve water quality by promoting infiltration, reducing runoff volume, and filtering pollutants before discharging to downstream receiving waters. In support of compliance with floodplain development regulations, a No-Rise study has been completed by PEC demonstrating that the project does not result in any increase in base flood elevations within the designated Boxelder Creek floodplain. Additionally, channel improvements were incorporated to enhance capacity and promote stable conveyance of flows while protecting downstream infrastructure and natural resources. Step four – Implement site-specific and other source control BMPs Water quality for 100% of the site will be treated by two on-site rain gardens. These facilities are designed to capture and treat all stormwater runoff from the site's impervious areas. An Erosion Control Plan and Stormwater Management Plan will be implemented to prevent erosion and control sediment on the project site and in downstream drainageways during and after construction. DEVELOPMENT CRITERIA REFERENCE AND CONSTRAINTS The as-built SWMM model from the 2018 Boxelder LOMR was used to determine the existing runoff through the site. This 2018 as-built SWMM model accounts for improvements constructed upstream of the site, specifically the East Side Detention Facility. Additionally, the proposed conditions SWMM model prepared by Professional Engineering Consultants (PEC) in their attached Joint Outfall Channel Design report was used for analyzing the impacts of the proposed developments and was built off the 2018 as-built SWMM model to include the proposed Colorado Parks and Wildlife site and the Front Range RV Boat and Storage site and future developable area directly east of the RV Boat and Storage site. The site is designed to discharge directly into Boxelder Creek, utilizing a "beat-the-peak" method to manage stormwater runoff effectively. This method involves managing runoff timing so that flows from the development precede the peak flows in Boxelder Creek, thereby preventing any increase in downstream flood elevations. A gravel access path to the Larimer and Weld Canal (LWCC) has been provided as part of the site layout. This access path connects to the existing gravel LWCC maintenance route and is not anticipated to adversely impact water quality, as it will be stabilized, constructed with permeable materials, and limited to occasional maintenance use Front Range Storage Preliminary Drainage Report 15 JR Engineering designed stormwater management features, including a raingarden, specifically for water quality purposes, with no detention designed to meet historic release rates, and is utilizing the "beat the Peak" method as outlined in the Joint Channel Design report by PEC. The percent impervious values for this site are compliant with those outlined in the "beat-the- peak" model section of the Joint Outfall Channel Design report prepared by PEC. The adjacent Colorado Parks and Wildlife (CPW) development to the north is also addressed within the PEC report, confirming overall compliance and coordinated stormwater management strategy. The composite percent impervious for the Front Range Self Storage Facility is 66.8% impervious at 11.02 acres. This number includes the basins OS1 and OS2, which are composed of the open space landscape buffer for Tract B and the Frontage Road for I-25. The total area and percent impervious for the Front Range Self Storage site is less than the percent impervious modeled in the Joint Outfall Channel Design report prepared by PEC, which was modeled as 70% impervious over a 16.4-acre area (Sub-basin 99.9). Additionally, the PEC report conservatively evaluates the future industrial development area to the East at 80% impervious, allowing room for further development. HYDROLOGIC CRITERIA Weighted percent imperviousness was calculated for each basin using the Fort Collins Stormwater Criteria Manual Table 3.2-2. The City of Fort Collins area has rainfall depths associated with the table below, as shown in Chapter 5 of the Fort Collins Stormwater Criteria Manual. HYDRAULIC CRITERIA At the time of the Final Plan (FP), StormCAD will be utilized to determine the hydraulic capacity of the storm sewer system on site. Additionally, hydraulic calculations for items such as street capacity, swales, channels, and the emergency spillway will be provided within the Final Drainage Report. FLOODPLAIN REGULATIONS COMPLIANCE As previously stated, the Front Range RV and Boat Storage site lies within FEMA Zone X, areas that are determined to be outside the 0.2% annual chance floodplain. The site is not located within a FEMA- regulated floodplain, as shown in Appendix A in the FEMA attachments. The site is also not located in the City of Fort Collins Floodplain, as shown in Appendix A in the City of Fort Collins Flood map. MODIFICATIONS OF CRITERIA No new developments are permitted to discharge developed runoff into the Larimer and Weld Canal. As a result, the only outfall option for the site is Boxelder Creek, located just east of the property. The composite slope of the swale from the southeast corner of the facility to the Boxelder Creek outfall is on average 0.16%. The total channel length will be 3,859 lineal feet, with a fall of 6.1 feet, for an average longitudinal slope of 0.16%. This swale does not include a concrete trickle pan at the bottom. The open channel swale design will simplify routine maintenance and will also serve as the future outfall conveyance for the remaining undeveloped portions of the Front Range Storage Preliminary Drainage Report 16 site, provided that those areas meet the impervious values and area requirements outlined in the PEC Joint Outfall Channel Design Report and Study. The site does not provide on-site detention but is designed to utilize a "beat-the-peak" approach for stormwater management, in accordance with the City of Fort Collins Stormwater Criteria Manual, which allows beat-the-peak strategies in specific situations where traditional detention may increase downstream flood risk. All on-site modified and new impervious areas are fully treated for water quality through the two on-site rain gardens. This approach significantly improves upon the existing condition, where much of the runoff was previously untreated, and ensures enhanced protection of downstream receiving waters. See the LID exhibit in Appendix G for details. EROSION CONTROL A statement of compliance with Erosion Control Criteria and all Erosion Control Materials will be provided with the Final Drainage Report. CONCLUSIONS COMPLIANCE WITH STANDARDS The hydrologic and water quality calculations were performed using the required methods as outlined in the City of Fort Collins Storm Water Criteria Manual. The proposed drainage improvements meet or exceed the City’s requirements except for the parameters presented in the Modification to Criteria section of this Report. DRAINAGE CONCEPT The proposed concept for the RV & Boat Storage site utilizes surface flows and open swales to convey runoff across the property. All on-site runoff will be treated in rain gardens, while off-site flows are conveyed through the site. Unlike the historic condition, the site will no longer drain into the Larimer and Weld County Canal ("LWCC") to the south. Instead, all site and off-site runoff will be routed to Boxelder Creek to the East. The design employs a "beat-the-peak" approach, ensuring that stormwater is released ahead of the Boxelder Creek peak. This method does not increase the total flow into Boxelder Creek, and the proposed improvements will not adversely impact the flow rate, character, or quality of runoff leaving the site. Front Range Storage Preliminary Drainage Report 17 REFERENCES Fort Collins Stormwater Criteria Manual; City of Fort Collins, Colorado, December 2018. Urban Storm Drainage Criteria Manual (Volumes 1, 2, and 3); Urban Drainage and Flood Control District, June 2001. Hydrologic Analysis of the Box Elder Creek/ Cooper Slough Watershed Icon Engineering, Apr. 2014. Boxelder and Cooper Slough Letter of Map Revision (LOMR) for the Boxelder 6 Project."AYRES & ASSOCIATES, 5 Nov. 2018. Joint Outfall Channel Design Report for the Colorado Parks and Wildlife Fort Collins Office Relocation and Front Range Storage Project.Professional Engineering Consultants (PEC), June 2025. Front Range Storage Preliminary Drainage Report 18 APPENDIX A – FIGURES A Westrian Company Hydrologic Soil Group—Larimer County Area, Colorado (Mountain Vista Property) Natural Resources Conservation Service Web Soil Survey National Cooperative Soil Survey 7/17/2023 Page 1 of 4 44 9 4 3 0 0 44 9 4 4 0 0 44 9 4 5 0 0 44 9 4 6 0 0 44 9 4 7 0 0 44 9 4 8 0 0 44 9 4 9 0 0 44 9 5 0 0 0 44 9 5 1 0 0 44 9 4 3 0 0 44 9 4 4 0 0 44 9 4 5 0 0 44 9 4 6 0 0 44 9 4 7 0 0 44 9 4 8 0 0 44 9 4 9 0 0 44 9 5 0 0 0 44 9 5 1 0 0 499700 499800 499900 500000 500100 500200 500300 500400 500500 500600 500700 500800 500900 501000 499700 499800 499900 500000 500100 500200 500300 500400 500500 500600 500700 500800 500900 501000 40° 36' 26'' N 10 5 ° 0 ' 1 5 ' ' W 40° 36' 26'' N 10 4 ° 5 9 ' 1 7 ' ' W 40° 35' 57'' N 10 5 ° 0 ' 1 5 ' ' W 40° 35' 57'' N 10 4 ° 5 9 ' 1 7 ' ' W N Map projection: Web Mercator Corner coordinates: WGS84 Edge tics: UTM Zone 13N WGS84 0 300 600 1200 1800 Feet 0 50 100 200 300 Meters Map Scale: 1:6,250 if printed on A landscape (11" x 8.5") sheet. Soil Map may not be valid at this scale. MAP LEGEND MAP INFORMATION Area of Interest (AOI) Area of Interest (AOI) Soils Soil Rating Polygons A A/D B B/D C C/D D Not rated or not available Soil Rating Lines A A/D B B/D C C/D D Not rated or not available Soil Rating Points A A/D B B/D C C/D D Not rated or not available Water Features Streams and Canals Transportation Rails Interstate Highways US Routes Major Roads Local Roads Background Aerial Photography The soil surveys that comprise your AOI were mapped at 1:24,000. Warning: Soil Map may not be valid at this scale. Enlargement of maps beyond the scale of mapping can cause misunderstanding of the detail of mapping and accuracy of soil line placement. The maps do not show the small areas of contrasting soils that could have been shown at a more detailed scale. Please rely on the bar scale on each map sheet for map measurements. Source of Map: Natural Resources Conservation Service Web Soil Survey URL: Coordinate System: Web Mercator (EPSG:3857) Maps from the Web Soil Survey are based on the Web Mercator projection, which preserves direction and shape but distorts distance and area. A projection that preserves area, such as the Albers equal-area conic projection, should be used if more accurate calculations of distance or area are required. This product is generated from the USDA-NRCS certified data as of the version date(s) listed below. Soil Survey Area: Larimer County Area, Colorado Survey Area Data: Version 17, Sep 7, 2022 Soil map units are labeled (as space allows) for map scales 1:50,000 or larger. Date(s) aerial images were photographed: Jul 2, 2021—Aug 25, 2021 The orthophoto or other base map on which the soil lines were compiled and digitized probably differs from the background imagery displayed on these maps. As a result, some minor shifting of map unit boundaries may be evident. Hydrologic Soil Group—Larimer County Area, Colorado (Mountain Vista Property) Natural Resources Conservation Service Web Soil Survey National Cooperative Soil Survey 7/17/2023 Page 2 of 4 Hydrologic Soil Group Map unit symbol Map unit name Rating Acres in AOI Percent of AOI 7 Ascalon sandy loam, 0 to 3 percent slopes B 14.8 14.5% 53 Kim loam, 1 to 3 percent slopes B 26.5 25.9% 54 Kim loam, 3 to 5 percent slopes B 16.6 16.2% 73 Nunn clay loam, 0 to 1 percent slopes C 23.8 23.2% 74 Nunn clay loam, 1 to 3 percent slopes C 10.1 9.9% 94 Satanta loam, 0 to 1 percent slopes C 0.2 0.2% 95 Satanta loam, 1 to 3 percent slopes C 10.2 10.0% 105 Table Mountain loam, 0 to 1 percent slopes B 0.1 0.1% Totals for Area of Interest 102.4 100.0% Hydrologic Soil Group—Larimer County Area, Colorado Mountain Vista Property Natural Resources Conservation Service Web Soil Survey National Cooperative Soil Survey 7/17/2023 Page 3 of 4 Description Hydrologic soil groups are based on estimates of runoff potential. Soils are assigned to one of four groups according to the rate of water infiltration when the soils are not protected by vegetation, are thoroughly wet, and receive precipitation from long-duration storms. The soils in the United States are assigned to four groups (A, B, C, and D) and three dual classes (A/D, B/D, and C/D). The groups are defined as follows: Group A. Soils having a high infiltration rate (low runoff potential) when thoroughly wet. These consist mainly of deep, well drained to excessively drained sands or gravelly sands. These soils have a high rate of water transmission. Group B. Soils having a moderate infiltration rate when thoroughly wet. These consist chiefly of moderately deep or deep, moderately well drained or well drained soils that have moderately fine texture to moderately coarse texture. These soils have a moderate rate of water transmission. Group C. Soils having a slow infiltration rate when thoroughly wet. These consist chiefly of soils having a layer that impedes the downward movement of water or soils of moderately fine texture or fine texture. These soils have a slow rate of water transmission. Group D. Soils having a very slow infiltration rate (high runoff potential) when thoroughly wet. These consist chiefly of clays that have a high shrink-swell potential, soils that have a high water table, soils that have a claypan or clay layer at or near the surface, and soils that are shallow over nearly impervious material. These soils have a very slow rate of water transmission. If a soil is assigned to a dual hydrologic group (A/D, B/D, or C/D), the first letter is for drained areas and the second is for undrained areas. Only the soils that in their natural condition are in group D are assigned to dual classes. Rating Options Aggregation Method: Dominant Condition Component Percent Cutoff: None Specified Tie-break Rule: Higher Hydrologic Soil Group—Larimer County Area, Colorado Mountain Vista Property Natural Resources Conservation Service Web Soil Survey National Cooperative Soil Survey 7/17/2023 Page 4 of 4 18,056 3,009.3 FCMaps This map is a user generated static output from the City of Fort Collins FCMaps Internet mapping site and is for reference only. Data layers that appear on this map may or may not be accurate, current, or otherwise reliable. City of Fort Collins - GIS 2,286.0 1: WGS_1984_Web_Mercator_Auxiliary_Sphere Feet2,286.001,143.00 Notes Legend 13,719 FEMA Floodplain FEMA High Risk - Floodway FEMA High Risk - 100 Year FEMA Moderate Risk - 100 / 500 Year City Floodplains City High Risk - Floodway City High Risk - 100 Year City Moderate Risk - 100 Year City Limits World Hillshade National Flood Hazard Layer FIRMette 0 500 1,000 1,500 2,000250 Feet Ü SEE FIS REPORT FOR DETAILED LEGEND AND INDEX MAP FOR FIRM PANEL LAYOUT SPECIAL FLOOD HAZARD AREAS Without Base Flood Elevation (BFE) Zone A, V, A99 With BFE or DepthZone AE, AO, AH, VE, AR Regulatory Floodway 0.2% Annual Chance Flood Hazard, Areas of 1% annual chance flood with average depth less than one foot or with drainage areas of less than one square mileZone X Future Conditions 1% Annual Chance Flood HazardZone X Area with Reduced Flood Risk due to Levee. See Notes.Zone X Area with Flood Risk due to LeveeZone D NO SCREEN Area of Minimal Flood Hazard Zone X Area of Undetermined Flood HazardZone D Channel, Culvert, or Storm Sewer Levee, Dike, or Floodwall Cross Sections with 1% Annual Chance 17.5 Water Surface Elevation Coastal Transect Coastal Transect Baseline Profile Baseline Hydrographic Feature Base Flood Elevation Line (BFE) Effective LOMRs Limit of Study Jurisdiction Boundary Digital Data Available No Digital Data Available Unmapped This map complies with FEMA's standards for the use of digital flood maps if it is not void as described below. The basemap shown complies with FEMA's basemap accuracy standards The flood hazard information is derived directly from the authoritative NFHL web services provided by FEMA. This map was exported on 7/21/2023 at 10:33 AM and does not reflect changes or amendments subsequent to this date and time. The NFHL and effective information may change or become superseded by new data over time. This map image is void if the one or more of the following map elements do not appear: basemap imagery, flood zone labels, legend, scale bar, map creation date, community identifiers, FIRM panel number, and FIRM effective date. Map images for unmapped and unmodernized areas cannot be used for regulatory purposes. Legend OTHER AREAS OF FLOOD HAZARD OTHER AREAS GENERAL STRUCTURES OTHER FEATURES MAP PANELS 8 B 20.2 The pin displayed on the map is an approximate point selected by the user and does not represent an authoritative property location. 1:6,000 105°0'6"W 40°36'26"N 104°59'29"W 40°35'58"N Basemap Imagery Source: USGS National Map 2023 9,028 1,504.7 FCMaps This map is a user generated static output from the City of Fort Collins FCMaps Internet mapping site and is for reference only. Data layers that appear on this map may or may not be accurate, current, or otherwise reliable. City of Fort Collins - GIS 1,143.0 1: WGS_1984_Web_Mercator_Auxiliary_Sphere Feet1,143.00571.50 Notes Legend 6,859 Street Names FEMA Floodplain FEMA High Risk - Floodway FEMA High Risk - 100 Year FEMA Moderate Risk - 100 / 500 Year City Floodplains City High Risk - Floodway City High Risk - 100 Year City Moderate Risk - 100 Year City Limits Front Range Storage Preliminary Drainage Report 19 APPENDIX B – HYDROLOGIC CALCULATIONS Subdivision:RV & Boat Storage Project Name:Mountain Vista Property Location:Fort Collins Project No.: Calculated By:JSC Checked By:ARJ Date:1/30/23 EO1 12.51 40%1.88 6.0%90%0.05 0.4%2%10.57 1.7%90%0.02 0.1%8.2% EX2 36.90 40%0.00 0.0%90%0.00 0.0%2%36.90 2.0%90%0.00 0.0%2.0% EX3 19.80 40%0.00 0.0%90%0.00 0.0%2%19.80 2.0%90%0.00 0.0%2.0% TOTAL 49.41 40%1.88 1.5%90%0.05 0.1%2%47.47 1.9%90%0.02 0.0%3.6% Basins Total Weighted % Imp. Asphalt/Concrete % Imp.Area (ac)Weighted % Imp. COMPOSITE % IMPERVIOUS CALCULATIONS Weighted % Imp.Basin ID Total Area (ac) % Imp. Area (ac) Landscape or Previous Surface % Imp. Area (ac)Weighted % Imp. Gravel Rooftop Weighted % Imp.% Imp. Area (ac) 39817.00 X:\3980000.all\3981700\Excel\Drainage\3981700 EX. Drainage_Calcs_Template_v2.07.xlsm Page 1 of 2 1/30/2024 UPDATED BASIN ASPHALT/CONCRETE X:\3980000.all\3981700\Excel\Drainage\3981700 EX. Drainage_Calcs_Template_v2.07.xlsm Page 2 of 2 1/30/2024 Subdivision:RV & Boat Storage Project Name:Mountain Vista Property Location:Fort Collins Project No.: Calculated By:JSC Checked By:ARJ Date:1/30/23 EO1 12.51 0.50 1.88 0.08 0.09 0.95 0.05 0.00 0.00 0.20 10.57 0.17 0.21 0.95 0.02 0.00 0.00 0.17 0.22 EX2 36.90 0.50 0.00 0.00 0.00 0.95 0.00 0.00 0.00 0.20 36.90 0.20 0.25 0.95 0.00 0.00 0.00 0.20 0.25 EX3 19.80 0.50 0.00 0.00 0.00 0.95 0.00 0.00 0.00 0.20 19.80 0.20 0.25 0.95 0.00 0.00 0.00 0.20 0.25 Basin ID Basins Total Weighted 100 YEAR C COMPOSITE RUNOFF COEFFICIENT CALCULATIONS Basins Total Weighted 2 YEAR CArea (ac)2 - YEAR C 100 - YEAR C Runoff Coefficient Area (ac)2 - YEAR C 100 - YEAR C 39817.00 Total Area (ac)Runoff Coefficient Area (ac)Area (ac) Gravel Rooftop Landscape or Previous Surface Runoff Coefficient Asphalt/Concrete 2 - YEAR C 100 - YEAR C 2 - YEAR C 100 - YEAR C Runoff Coefficient X:\3980000.all\3981700\Excel\Drainage\3981700 EX. Drainage_Calcs_Template_v2.07.xlsm Page 1 of 1 1/30/2024 Subdivision:RV & Boat Storage Project Name:Mountain Vista Property Location:Fort Collins Project No.: Calculated By:JSC Checked By:ARJ Date:1/30/23 BASIN D.A. Hydrologic Impervious C2 C100 L S o t i - 2 Year t i - 100 Year L t S t K VEL.t t COMP.t c-2 Year COMP.t c 100 - Year TOTAL Tc t i - 2 Year t c- 100 Year ID (ac) Soils Group (%)(ft)(%)(min)(min)(ft)(%)(ft/s)(min)(min)(min)LENGTH (ft)Check (min)(min) EO1 12.51 B/C 8%0.17 0.22 100 0.6%93.6 89.2 200 1.0%5.0 0.5 6.7 100.3 95.9 300.0 11.7 12.0 12.0 EX2 36.9 B/C 2%0.20 0.25 100 1.0%76.9 72.7 800 1.8%5.0 0.7 19.9 96.8 92.5 900.0 15.0 15.0 15.0 EX3 19.8 B/C 2%0.20 0.25 100 1.0%76.9 72.7 713 1.0%5.0 0.5 24.0 100.9 96.7 813.0 14.5 15.0 15.0 Notes: Velocity V = K*St^0.5 STANDARD FORM SF-2 TIME OF CONCENTRATION SUB-BASIN 39817.00 FINAL(URBANIZED BASINS) tc CHECK DATA INITIAL/OVERLAND (Ti) TRAVEL TIME (Tt) X:\3980000.all\3981700\Excel\Drainage\3981700 EX. Drainage_Calcs_Template_v2.07.xlsm Page 1 of 1 1/30/2024 Project Name:Mountain Vista Property Subdivision:RV & Boat Storage Project No.: Location:Fort Collins Calculated By:JSC Design Storm:Checked By:ARJ Date: TRAVEL TIME STREET De s i g n P o i n t Ba s i n I D Ar e a ( A c ) Ru n o f f C o e f f . tc ( m i n ) - 2 Y E A R C* A ( A c ) I ( i n / h r ) Q ( c f s ) tc ( m i n ) C* A ( a c ) I ( i n / h r ) Q ( c f s ) Qst r e e t ( c f s ) C* A ( a c ) Sl o p e ( % ) Qpi p e ( c f s ) C* A ( a c ) Sl o p e ( % ) Pi p e S i z e ( i n c h e s ) Le n g t h ( f t ) Ve l o c i t y ( f p s ) tt ( m i n ) REMARKS 1 EO1 12.51 0.17 12.0 2.18 2.05 4.5 1 EX2 36.90 0.20 15.0 7.38 1.87 13.8 1.1 12.0 9.56 2.05 19.6 3 EX3 19.80 0.20 15.0 3.96 1.87 7.4 Notes: Street and Pipe C*A values are determined by Q/I using the catchment's intensity value. DIRECT RUNOFF TOTAL RUNOFF STREET PIPE STANDARD FORM SF-3 STORM DRAINAGE SYSTEM DESIGN (RATIONAL METHOD PROCEDURE) X:\3980000.all\3981700\Excel\Drainage\3981700 EX. Drainage_Calcs_Template_v2.07.xlsm Page 1 of 1 1/30/2024 Project Name:Mountain Vista Property Subdivision:RV & Boat Storage Project No.: Location:Fort Collins Calculated By:JSC Design Storm:Checked By:ARJ Date: TRAVEL TIME STREET De s i g n P o i n t Ba s i n I D Ar e a ( a c ) Ru n o f f C o e f f . tc ( m i n ) - 1 0 0 Y e a r C* A ( a c ) I ( i n / h r ) Q ( c f s ) tc ( m i n ) C* A ( a c ) I ( i n / h r ) Q ( c f s ) Qst r e e t ( c f s ) C* A ( a c ) Sl o p e ( % ) Qpi p e ( c f s ) C* A ( a c ) Sl o p e ( % ) Pi p e S i z e ( i n c h e s ) Le n g t h ( f t ) Ve l o c i t y ( f p s ) tt ( m i n ) REMARKS 1 EO1 12.51 0.22 12.0 2.73 7.16 19.5 1 EX2 36.90 0.25 15.0 9.23 6.52 60.2 1.1 12.0 11.96 7.16 85.6 3 EX3 19.80 0.25 15.0 4.95 6.52 32.3 Notes: Street and Pipe C*A values are determined by Q/I using the catchment's intensity value. STORM DRAINAGE SYSTEM DESIGN STANDARD FORM SF-3 (RATIONAL METHOD PROCEDURE) PIPE 100-Year DIRECT RUNOFF TOTAL RUNOFF 1/30/23 STREET X:\3980000.all\3981700\Excel\Drainage\3981700 EX. Drainage_Calcs_Template_v2.07.xlsm Page 1 of 1 1/30/2024 Subdivision:RV, Boat & Storage Project Name:Front Range RV Boat and Storage Location:Fort Collins Project No.: Calculated By:ARJ Checked By:0 Date:7/28/25 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 C1 1.11 100%0.65 58.5%80%0.02 1.5%90%0.00 0.0%2%0.44 0.8%60.7% C2 0.89 100%0.64 71.6%80%0.00 0.0%90%0.02 2.0%2%0.23 0.5%74.0% C3 2.03 100%0.00 0.0%80%1.98 77.9%90%0.00 0.0%2%0.05 0.1%78.0% C4 1.08 100%0.00 0.0%80%1.07 79.0%90%0.00 0.0%2%0.01 0.0%79.0% C5 1.08 100%0.00 0.0%80%1.06 79.1%90%0.00 0.0%2%0.01 0.0%79.1% C6 1.17 100%0.00 0.0%80%1.16 79.3%90%0.00 0.0%2%0.01 0.0%79.4% C7 0.34 100%0.00 0.00 80%0.33 78.4%90%0.00 0.0%2%0.01 0.0%78.4% C8 1.56 100%0.00 0.00 80%1.55 79.2%90%0.00 0.0%2%0.02 0.0%79.2% C9 0.58 100%0.00 0.01 80%0.00 0.0%90%0.00 0.0%2%0.57 2.0%2.7% Onsite Basins 9.84 71.9% OS1 0.26 100%0.26 1.00 100%0.00 0.0%90%0.00 0.0%2%0.00 0.0%100.0% OS2 0.92 100%0.01 0.01 100%0.00 0.0%90%0.00 0.0%2%0.92 2.0%2.6% Basins Routed through Site 11.02 66.8% OS3 38.11 100%0.00 0.00 100%0.00 0.0%90%0.00 0.0%2%38.11 2.0%2.0% OS4 21.38 100%0.00 0.00 100%0.00 0.0%90%0.00 0.0%2%21.38 2.0%2.0% Asphalt, Concrete 39817.00 Weighted % Imp. Basins Total Weighted % Imp.Area (ac)Weighted % Imp. Recycled Asphalt Roofs Weighted % Imp. COMPOSITE % IMPERVIOUS CALCULATIONS % Imp. Area (ac)% Imp.Area (ac)Weighted % Imp.Basin ID Total Area (ac)% Imp.Area (ac) Lawns % Imp. X:\3980000.all\3981700\Excel\Drainage\39817.00 Drainage_Calcs_v2.07.xlsm Page 1 of 2 7/30/2025 X:\3980000.all\3981700\Excel\Drainage\39817.00 Drainage_Calcs_v2.07.xlsm Page 2 of 2 7/30/2025 Subdivision:RV, Boat & Storage Project Name:Front Range RV Boat and Storage Location:Fort Collins Project No.: Calculated By:ARJ Checked By:0 Date:7/28/25 C1 1.11 0.80 0.02 0.01 0.02 0.95 0.65 0.56 0.69 0.20 0.44 0.08 0.10 0.65 0.81 C2 0.89 0.80 0.00 0.00 0.00 0.95 0.66 0.70 0.88 0.20 0.23 0.05 0.07 0.75 0.94 C3 2.03 0.80 1.98 0.78 0.97 0.95 0.00 0.00 0.00 0.20 0.05 0.01 0.01 0.78 0.98 C4 1.08 0.80 1.07 0.79 0.99 0.95 0.00 0.00 0.00 0.20 0.01 0.00 0.00 0.79 0.99 C5 1.08 0.80 1.06 0.79 0.99 0.95 0.00 0.00 0.00 0.20 0.01 0.00 0.00 0.79 0.99 C6 1.17 0.80 1.16 0.79 0.99 0.95 0.00 0.00 0.00 0.20 0.01 0.00 0.00 0.80 0.99 C7 0.34 0.80 0.33 0.78 0.98 0.95 0.00 0.00 0.00 0.20 0.01 0.00 0.00 0.79 0.99 C8 1.56 0.80 1.55 0.79 0.99 0.95 0.00 0.00 0.00 0.20 0.02 0.00 0.00 0.79 0.99 C9 0.58 0.80 0.00 0.00 0.00 0.95 0.00 0.01 0.01 0.10 0.57 0.10 0.12 0.11 0.13 OS1 0.26 0.80 0.00 0.00 0.00 0.95 0.26 0.95 1.00 0.15 0.00 0.00 0.00 0.95 1.00 OS2 0.92 0.80 0.00 0.00 0.00 0.95 0.01 0.01 0.01 0.15 0.92 0.15 0.19 0.16 0.19 OS3 38.11 0.80 0.00 0.00 0.00 0.95 0.00 0.00 0.00 0.15 38.11 0.15 0.19 0.15 0.19 OS4 20.31 0.80 0.00 0.00 0.00 0.95 0.00 0.00 0.00 0.15 21.38 0.16 0.20 0.16 0.20 COMPOSITE RUNOFF COEFFICIENT CALCULATIONS Basin ID Area (ac)2 - YEAR C 100 - YEAR C 39817.00 Runoff Coefficient Area (ac)2 - YEAR C 100 - YEAR C Runoff Coefficient Basins Total Weighted 100 YEAR CRunoff Coefficient Area (ac)2 - YEAR C 100 - YEAR C Asphalt, Concrete, Roofs Lawns Basins Total Weighted 2 YEAR C Recycled Asphalt Total Area (ac) X:\3980000.all\3981700\Excel\Drainage\39817.00 Drainage_Calcs_v2.07.xlsm Page 1 of 2 7/29/2025 X:\3980000.all\3981700\Excel\Drainage\39817.00 Drainage_Calcs_v2.07.xlsm Page 2 of 2 7/29/2025 Subdivision:RV, Boat & Storage Project Name:Front Range RV Boat and Storage Location:Fort Collins Project No.: Calculated By: Checked By:0 Date:7/28/25 BASIN D.A.Hydrologic Impervious C2 C100 L S o t i - 2Year t i - 100 Year L t S t K VEL.t t COMP.t c-2 Year COMP.t c 100 - Year TOTAL Tc t c-2 Year t c-100 Year ID (ac)Soils Group (%)(ft)(%)(min)(min)(ft)(%)(ft/s)(min)(min)(min)LENGTH (ft)Check (min)(min) C1 1.11 C 2%0.65 0.81 10 2.0%9.7 6.2 10 1.0%20.0 2.0 0.1 9.8 6.3 20.0 10.1 10.0 6.0 C2 0.89 C 2%0.75 0.94 50 2.0%16.7 7.6 481 0.6%20.0 1.5 5.4 22.1 13.0 531.0 13.0 13.0 13.0 C3 2.03 C 2%0.78 0.98 50 2.0%15.2 5.7 568 0.5%20.0 1.4 6.7 21.9 12.4 617.8 13.4 13.0 12.0 C4 1.08 C 2%0.79 0.99 50 2.0%14.8 5.3 587 0.5%20.0 1.4 6.9 21.7 12.2 637.0 13.5 14.0 12.0 C5 1.08 C 2%0.79 0.99 50 2.0%14.8 5.2 612 0.5%20.0 1.4 7.2 22.0 12.4 662.0 13.7 14.0 12.0 C6 1.17 C 2%0.80 0.99 50 2.0%14.7 5.1 653 0.5%20.0 1.4 7.7 22.4 12.8 703.0 13.9 14.0 13.0 C7 0.34 C 2%0.79 0.99 30 1.5%12.8 4.7 206 0.5%20.0 1.5 2.4 15.1 7.1 236.0 11.3 11.0 7.0 C8 1.56 C 2%0.79 0.99 50 2.0%14.7 5.2 727 0.5%20.0 1.4 8.6 23.3 13.7 776.6 14.3 14.0 14.0 C9 0.58 C 2%0.11 0.13 20 20.0%14.1 13.8 520 0.4%20.0 1.3 6.9 21.0 20.6 540.0 13.0 13.0 13.0 OS1 0.26 C/B 2%0.95 1.00 17 1.0%5.3 3.5 376 0.5%15.0 1.1 5.9 11.2 9.4 393.0 12.2 11.0 9.0 OS2 0.92 C/B 2%0.16 0.19 100 1.0%80.7 77.4 421 1.0%15.0 1.5 4.7 85.4 82.1 520.8 12.9 13.0 13.0 OS3 38.11 C/B 2%0.15 0.19 100 1.0%81.2 78.0 1100 0.6%5.0 0.4 47.3 128.5 125.3 1200.0 16.7 17.0 17.0 OS4 21.38 C/B 2%0.16 0.20 100 1.0%80.5 77.2 1935 0.3%16.0 0.8 40.3 120.8 117.5 2035.0 21.3 21.0 21.0 Notes: Velocity V = K*St^0.5 STANDARD FORM SF-2 TIME OF CONCENTRATION SUB-BASIN 39817.00 FINAL Time of Concentration -Check ARJ (Tc)DATA INITIAL/OVERLAND (Ti) TRAVEL TIME (Tt) X:\3980000.all\3981700\Excel\Drainage\39817.00 Drainage_Calcs_v2.07.xlsm Page 1 of 1 7/29/2025 Project Name:Front Range RV Boat and Storage Subdivision:RV, Boat & Storage Project No.: Location:Fort Collins Calculated By:ARJ Design Storm:Checked By:0 Date: TRAVEL TIME STREET De s i g n P o i n t Ba s i n I D Ar e a ( a c ) Ru n o f f C o e f f . tc ( m i n ) - 1 0 0 Y e a r C* A ( a c ) I ( i n / h r ) Q ( c f s ) tc ( m i n ) C* A ( a c ) I ( i n / h r ) Q ( c f s ) Qst r e e t ( c f s ) C* A ( a c ) Sl o p e ( % ) Qpi p e ( c f s ) C* A ( a c ) Sl o p e ( % ) Pi p e S i z e ( i n c h e s ) Le n g t h ( f t ) Ve l o c i t y ( f p s ) tt ( m i n ) REMARKS sheet drains over riprap on the site and then into the RG 1 C1 1.11 0.65 10.0 0.72 2.21 1.6 OS1 0.26 0.95 11.0 0.25 2.13 0.5 OS2 0.92 0.16 13.0 0.14 1.98 0.3 drains into swale 2 C2 0.89 0.75 13.0 0.67 1.98 1.3 13.0 1.06 1.98 2.1 3 C3 2.03 0.78 13.0 1.59 1.98 3.1 drains into RG 4 C4 1.08 0.79 14.0 0.86 1.92 1.7 drains into RG 5 C5 1.08 0.79 14.0 0.85 1.92 1.6 drains into RG 6 C6 1.17 0.80 14.0 0.93 1.92 1.8 drains into RG 7 C7 0.34 0.79 11.0 0.26 2.13 0.6 drains into RG 8 C8 1.56 0.79 14.0 1.24 1.92 2.4 drains into RG into pond Basins C2, C3, C4, C5,C6, C7, C8, C9 AND Basins OS1 and OS2 9 C9 0.58 0.11 13.0 0.06 1.98 0.1 14.0 6.85 1.92 13.2 Goes into overflow channel o3 OS3 38.11 0.15 17.0 5.72 1.75 10.0 o4 OS4 21.38 0.16 21.0 3.38 1.56 5.3 Total flow out of the site - From the PEC Joint Outfall Report 10 Refer to PEC SWMM model for the joint outfall outflow Notes: Street and Pipe C*A values are determined by Q/i using the catchment's intensity value. DIRECT RUNOFF TOTAL RUNOFF STREET PIPE STANDARD FORM SF-3 STORM DRAINAGE SYSTEM DESIGN (RATIONAL METHOD PROCEDURE) X:\3980000.all\3981700\Excel\Drainage\39817.00 Drainage_Calcs_v2.07.xlsm Page 1 of 1 7/29/2025 Project Name:Front Range RV Boat and Storage Subdivision:RV, Boat & Storage Project No.: Location:Fort Collins Calculated By:ARJ Design Storm:Checked By:0 Date: TRAVEL TIME STREET De s i g n P o i n t Ba s i n I D Ar e a ( a c ) Ru n o f f C o e f f . tc ( m i n ) - 1 0 0 Y e a r C* A ( a c ) I ( i n / h r ) Q ( c f s ) tc ( m i n ) C* A ( a c ) I ( i n / h r ) Q ( c f s ) Qst r e e t ( c f s ) C* A ( a c ) Sl o p e ( % ) Qpi p e ( c f s ) C* A ( a c ) Sl o p e ( % ) Pi p e S i z e ( i n c h e s ) Le n g t h ( f t ) Ve l o c i t y ( f p s ) tt ( m i n ) REMARKS sheet drains over riprap on the site and then into the RG 1 C1 1.11 0.81 6.0 0.90 9.31 8.4 OS1 0.26 1.00 9.0 0.26 8.03 2.1 OS2 0.92 0.19 13.0 0.18 6.92 1.2 drains into swale 2 C2 0.89 0.94 13.0 0.84 6.92 5.8 13.0 1.28 6.92 8.9 3 C3 2.03 0.98 12.0 1.99 7.16 14.2 drains into RG 4 C4 1.08 0.99 12.0 1.07 7.16 7.7 drains into RG 5 C5 1.08 0.99 12.0 1.07 7.16 7.7 drains into RG 6 C6 1.17 0.99 13.0 1.16 6.92 8.0 drains into RG 7 C7 0.34 0.99 7.0 0.33 8.80 2.9 drains into RG 8 C8 1.56 0.99 14.0 1.55 6.71 10.4 drains into RG into pond Basins C2, C3, C4, C5,C6, C7, C8, C9 AND Basins OS1 and OS2 9 C9 0.58 0.13 13.0 0.08 6.92 0.6 14.0 8.53 6.71 57.2 Goes into overflow channel o3 OS3 38.11 0.19 17.0 7.15 6.10 43.6 o4 OS4 21.38 0.20 21.0 4.22 5.46 23.0 Total flow out of the site - From the PEC Joint Outfall Report 10 350.0 Notes: Street and Pipe C*A values are determined by Q/i using the catchment's intensity value. STORM DRAINAGE SYSTEM DESIGN STANDARD FORM SF-3 (RATIONAL METHOD PROCEDURE) PIPE 100-Year DIRECT RUNOFF TOTAL RUNOFF 7/28/25 STREET X:\3980000.all\3981700\Excel\Drainage\39817.00 Drainage_Calcs_v2.07.xlsm Page 1 of 1 7/29/2025 Front Range Storage Preliminary Drainage Report 20 APPENDIX C – HYDRAULIC CALCULATIONS Project: ID: Soil Type: Design Information: Design Discharge Q =230 cfs Circular Culvert: Barrel Diameter in Inches D =36 inches Inlet Edge Type (Choose from pull-down list)Grooved Edge Projecting OR: Box Culvert:OR Barrel Height (Rise) in Feet H (Rise) =ft Barrel Width (Span) in Feet W (Span) =ft Inlet Edge Type (Choose from pull-down list) Number of Barrels # Barrels =4 Inlet Elevation 4981.76 Elev IN =4982.4 ft Outlet Elevation OR Slope 0.0050 Elev OUT =4981.76 ft Culvert Length L =128.7 ft Manning's Roughness n =0.013 b =0 Exit Loss Coefficient kx =1 Tailwater Surface Elevation Yt, Elevation =4982.96 ft Max Allowable Channel Velocity V =7 ft/s Calculated Results:1 Culvert Cross Sectional Area Available A =7.07 ft2 n =3.00 ft Culvert Critical Depth Yc =2.46 ft Froude Number Fr =-Pressure flow! Entrance Loss Coefficient ke =0.20 Friction Loss Coefficient kf =0.93 Sum of All Loss Coefficients ks =2.13 ft Headwater: Inlet Control Headwater HWI =4.15 ft Outlet Control Headwater HWO =4.27 ft Design Headwater Elevation HW =4986.67 ft Headwater/Diameter OR Headwater/Rise Ratio HW/D =1.42 Outlet Protection: Flow/(Diameter^2.5)Q/D^2.5 =3.69 ft0.5/s t =1.20 ft Tailwater/Diameter Yt/D =0.40 Expansion Factor 1/(2*tan(Θ)) =3.78 t =32.86 ft Width of Equivalent Conduit for Multiple Barrels Weq =12.00 ft Length of Riprap Protection Lp =30 ft Width of Riprap Protection at Downstream End T =20 ft Adjusted Diameter for Supercritical Flow Da =-ft 50 min=9 in Nominal Riprap Size d50 nominal=12 in MHFD Riprap Type Type =M DETERMINATION OF CULVERT HEADWATER AND OUTLET PROTECTION Front Range Self Storage -> 4 - 36" CULVERTS MHFD-Culvert, Version 4.01 (April 2025) Choose One: Sandy Non-Sandy Subdivision:RV, Boat & Storage Project Name:Front Range RV Boat and Storage Location:Fort Collins Project No.: Calculated By:ARJ Checked By:0 Date:7/28/25 Units C 3.0 L 48.98 ft H 0.53 ft Q 57.24 cfs 39817.00 OVERFLOW WEIR Q = Discharge over the weir (cfs) C = Discharge coefficient (dimensionless; varies by weir type, usually 2.6–3.0 for broad-crested weirs in Imperial Customary units) L = Length of the weir crest (ft ) H = Head (depth of water above the crest ft ) X:\3980000.all\3981700\Excel\Drainage\39817.00 Drainage_Calcs_v2.07.xlsm Page 1 of 1 7/30/2025 Front Range Storage Preliminary Drainage Report 21 APPENDIX D – WATER QUALITY CALCULATIONS Subdivision:RV, Boat & Storage Project Name:Front Range RV Boat and Storage Location:Fort Collins Project No.:39817.00 Calculated By:ARJ Checked By:0 Date:7/28/25 Basin (ac)% Imp. C1 1.11 60.7% WQCV Drain Time (hr):12 Coefficient, a (Figure 3.2):0.8 WQCV (in):0.19 WQ Tributary Areas WQCV - RAIN GARDEN # 1 X:\3980000.all\3981700\Excel\Drainage\39817.00 Drainage_Calcs_v2.07.xlsm Page 1 of 3 7/30/2025 Subdivision:RV, Boat & Storage Project Name:Front Range RV Boat and Storage Location:Fort Collins Project No.:39817.00 Calculated By:ARJ Checked By:0 Date:7/28/25 Basin (ac)% Imp. OS1 0.26 100.0% OS2 0.92 2.6% C2 0.89 74.0% C3 2.03 78.0% C4 1.08 79.0% C5 1.08 79.1% C6 1.17 79.4% C7 0.34 78.4% C8 1.56 79.2% C9 0.58 2.7% WQCV Drain Time (hr):12 Coefficient, a (Figure 3.2):0.8 WQCV (in):0.21 WQ Tributary Areas WQCV - RAIN GARDEN # 2 X:\3980000.all\3981700\Excel\Drainage\39817.00 Drainage_Calcs_v2.07.xlsm Page 2 of 3 7/30/2025 Note: 1.2 was not applied this is only used for WQ in a detention Pond and not the WQ for RG(s) This is based on guidance City of Fort Collins Staff has given JR Engineering X:\3980000.all\3981700\Excel\Drainage\39817.00 Drainage_Calcs_v2.07.xlsm Page 3 of 3 7/30/2025 Sheet 1 of 2 Designer: Company: Date: Project: Location: 1. Basin Storage Volume A) Effective Imperviousness of Tributary Area, Ia Ia =60.8 % (100% if all paved and roofed areas upstream of rain garden) B) Tributary Area's Imperviousness Ratio (i = Ia/100)i =0.608 C) Water Quality Capture Volume (WQCV) for a 12-hour Drain Time WQCV =0.19 watershed inches 3 2 D) Contributing Watershed Area (including rain garden area)Area =48,352 sq ft E) Water Quality Capture Volume (WQCV) Design Volume VWQCV =cu ft Vol = (WQCV / 12) * Area F) For Watersheds Outside of the Denver Region, Depth of d6 =0.43 in Average Runoff Producing Storm G) For Watersheds Outside of the Denver Region,VWQCV OTHER =cu ft Water Quality Capture Volume (WQCV) Design Volume H) User Input of Water Quality Capture Volume (WQCV) Design Volume VWQCV USER =770 cu ft (Only if a different WQCV Design Volume is desired) 2. Basin Geometry A) WQCV Depth (12-inch maximum)DWQCV =6 in B) Rain Garden Side Slopes (Z = 4 min., horiz. dist per unit vertical)Z =4.00 ft / ft (Use "0" if rain garden has vertical walls) C) Mimimum Flat Surface Area AMin =588 sq ft D) Actual Flat Surface Area AActual =1649 sq ft E) Area at Design Depth (Top Surface Area)Top =1967 sq ft F) Rain Garden Total Volume VT=904 cu ft (VT= ((ATop + AActual) / 2) * Depth) 3. Growing Media See city of Fort Collins Detail 4. Underdrain System A) Are underdrains provided?1 B) Underdrain system orifice diameter for 12 hour drain time i) Distance From Lowest Elevation of the Storage y =2.3 ft Volume to the Center of the Orifice ii) Volume to Drain in 12 Hours Vol12 =770 cu ft iii) Orifice Diameter, 3/8" Minimum DO =5/8 in Design Procedure Form: Rain Garden (RG) ARJ JR ENGINEERING July 29, 2025 FRONT RANGE RV BOAT & STORAGE Basin C1 UD-BMP (Version 3.07, March 2018) Choose One Choose One 18" Rain Garden Growing Media Other (Explain): YES NO No. 1 RAIN GARDEN UD-BMP_v3.07.xlsm, RG 7/29/2025, 4:16 PM Sheet 2 of 2 Designer: Company: Date: Project: Location: 5. Impermeable Geomembrane Liner and Geotextile Separator Fabric A) Is an impermeable liner provided due to proximity of structures or groundwater contamination? 6. Inlet / Outlet Control A) Inlet Control 7. Vegetation 8. Irrigation A) Will the rain garden be irrigated? Notes: Design Procedure Form: Rain Garden (RG) ARJ JR ENGINEERING July 29, 2025 FRONT RANGE RV BOAT & STORAGE Basin C1 Choose One Choose One Choose One Sheet Flow- No Energy Dissipation Required Concentrated Flow- Energy Dissipation Provided Plantings Seed (Plan for frequent weed control) Sand Grown or Other High Infiltration Sod Choose One YES NO YES NO No. 1 RAIN GARDEN UD-BMP_v3.07.xlsm, RG 7/29/2025, 4:16 PM Sheet 1 of 2 Designer: Company: Date: Project: Location: 1. Basin Storage Volume A) Effective Imperviousness of Tributary Area, Ia Ia =67.4 % (100% if all paved and roofed areas upstream of rain garden) B) Tributary Area's Imperviousness Ratio (i = Ia/100)i =0.674 C) Water Quality Capture Volume (WQCV) for a 12-hour Drain Time WQCV =0.21 watershed inches 3 2 D) Contributing Watershed Area (including rain garden area)Area = 431,680 sq ft E) Water Quality Capture Volume (WQCV) Design Volume VWQCV =cu ft Vol = (WQCV / 12) * Area F) For Watersheds Outside of the Denver Region, Depth of d6 =0.43 in Average Runoff Producing Storm G) For Watersheds Outside of the Denver Region,VWQCV OTHER =cu ft Water Quality Capture Volume (WQCV) Design Volume H) User Input of Water Quality Capture Volume (WQCV) Design Volume VWQCV USER =7,591 cu ft (Only if a different WQCV Design Volume is desired) 2. Basin Geometry A) WQCV Depth (12-inch maximum)DWQCV =9 in B) Rain Garden Side Slopes (Z = 4 min., horiz. dist per unit vertical)Z =4.00 ft / ft (Use "0" if rain garden has vertical walls) C) Mimimum Flat Surface Area AMin =5819 sq ft D) Actual Flat Surface Area AActual =8720 sq ft E) Area at Design Depth (Top Surface Area)Top =13202 sq ft F) Rain Garden Total Volume VT=8,586 cu ft (VT= ((ATop + AActual) / 2) * Depth) 3. Growing Media See City of Fort Collins Detail 4. Underdrain System A) Are underdrains provided?1 B) Underdrain system orifice diameter for 12 hour drain time i) Distance From Lowest Elevation of the Storage y =2.3 ft Volume to the Center of the Orifice ii) Volume to Drain in 12 Hours Vol12 =7,591 cu ft iii) Orifice Diameter, 3/8" Minimum DO =1 15/16 in Design Procedure Form: Rain Garden (RG) ARJ JR ENGINEERING July 29, 2025 FRONT RANGE RV BOAT & STORAGE Basins OS1-OS2 and Basins C2-C9 UD-BMP (Version 3.07, March 2018) Choose One Choose One 18" Rain Garden Growing Media Other (Explain): YES NO No. 2 RAIN GARDEN UD-BMP_v3.07.xlsm, RG 7/29/2025, 4:17 PM Sheet 2 of 2 Designer: Company: Date: Project: Location: 5. Impermeable Geomembrane Liner and Geotextile Separator Fabric A) Is an impermeable liner provided due to proximity of structures or groundwater contamination? 6. Inlet / Outlet Control A) Inlet Control 7. Vegetation 8. Irrigation A) Will the rain garden be irrigated? Notes: Design Procedure Form: Rain Garden (RG) ARJ JR ENGINEERING July 29, 2025 FRONT RANGE RV BOAT & STORAGE Basins OS1-OS2 and Basins C2-C9 Choose One Choose One Choose One Sheet Flow- No Energy Dissipation Required Concentrated Flow- Energy Dissipation Provided Plantings Seed (Plan for frequent weed control) Sand Grown or Other High Infiltration Sod Choose One YES NO YES NO No. 2 RAIN GARDEN UD-BMP_v3.07.xlsm, RG 7/29/2025, 4:17 PM Front Range Storage Preliminary Drainage Report 22 APPENDIX E – REFERENCES Model Scenario: Duplicate Effective = ICON conversion of Effective MODSWMM model to EPA SWMM + Recent Development Updates Existing = DE + Recent Hydrology LOMRs SWMM Element ICON 2014 Model - Duplicate Effective SWMM (v 5.0.022 - from Report) Existing Conditions SWMM v5.1.012 As-Built v5.1.006 As-Built v5.1.011 (w/ pond problem) As-Built v5.1.012 (w/ pond problem) As-Built v5.1.012 (Raised Ponds) As-Built v5.1.012 (Final) Difference: Exist. Cond. (v5.1.012) - Dup. Eff. Model (ICON) Difference: v.011 - v.006 Difference: v.012 - v.011 Difference: v.012 Raised Ponds - v.006 Difference: v.012 Final - v.006 Model Notes:Eff. Model Conversion/ Update Corrected 'Warning 10' problem by rasing invert elevation of 16 ponds. Updated with corrected ponds (raised inverts) and updated Larimer-Weld Canal model run Should be very close to v5.1.006 HECRAS) caused flow changes. Report Table 5.7 shows these flow are now close again to the CLOMR flows. 913 539.5 540.4 47.97 48.0 48.0 48.0 48.0 0.8 0.00 0.00 0.00 0.00 914 3079.6 3090.4 274.21 274.2 274.2 274.2 274.2 10.8 0.00 0.00 0.00 0.00 Node Discharge - 100yr (cfs)Comparison As-Built These are the same model input file, run in 3 SWMM versions These are the same model input file, run in 3 SWMM versions - note differences beteween v..006 and v.011 TI M B E R L I N E R O A D COUNTY RD 52 MULBERRY ST MOUNTAIN VISTA DR IN T E R S T A T E 2 5 CO U N T Y R D 5 CO U N T Y R D 1 3 E. VINE DR BO X E L D E R BO X E L D E R CR E E K LAK E C A N A L DR Y C R E E K CR E E K NO R T H G R A Y RE S E R V O I R SO U T H G R A Y RE S E R V O I R GR A Y RE S E R V O I R # 3 COUNTY RD 50 0 32 83 134 195 2800 3230 3699 4950 6075 6152 6194 6215 6275 8210 9025 9713 10230 10600 11615 11635 11663 11672 11681 11723 11756 11945 11897 11892 11875 11832 11790 13050 13415 13643 14297 14550 15360 15974 16550 17225 17318 17341 17425 17985 19405 20080 20330 20670 20705 20801 20950 21990 23680 25281 * * *LOCATION OF CONSTRUCTED SIDE SPILL WEIR 0 2000'4000' SCALE: 1" = 2000' 1000' FIGURE 5.1 LARIMER & WELD CANAL 100-YR SPILLS LEGEND: CROSS SECTION LOCATION SECTION ID (STATION) APPROXIMATE SPILL LIMITS Dr a w i n g N a m e : F: \ 3 2 - 1 6 6 4 . 3 1 B O X E L D E R L O M R \ R E P O R T \ F I G U R E S \ F I G U R E 5 . 1 . D W G Th u r s d a y , M a r c h 1 5 , 2 0 1 8 11 : 2 3 A M B y : RI C K S , R O N A L D SPILL LIMITS ID 25281 Spill Location Existing Condition Flows (Pre-Project) As-built Flows (Post-Project)Difference cfs cfs cfs A 509 166 -344 B 452 105 -347 C 2555 2513 -42 D 2147 2 -2145 E 34 0 -34 F 1731 740 -991 G 65 37 -28 H 108 108 0 TH-12 TH-2 TH-1 TH-4 TH-13 TH-5 TH-3 TH-14 TH-6 TH-15 TH-7 I- 2 5 E Vine DR. I- 2 5 Canal N C R 5 E CR 50 Site NE FRONTAGE RDLEGEND: INDICATES APPROXIMATE LOCATION OF EXPLORATORY BORING INDICATES APPROXIMATE LOCATION OF EXPLORATORY BORINGS PERFORMED FOR NEWT 3 PIPELINE PROJECT (FC10581) TH-1 TH-12 ERIC KELLEY C/O JR ENGINEERING LLC MOUNTAIN VISTA PROPERTY CTL I T PROJECT NO. FC10813-115 FIGURE 1 Locations of Exploratory Borings VICINITY MAP (FORT COLLINS, COLORADO) NOT TO SCALE 550'275' APPROXIMATE SCALE: 1" = 550' 0' 0 5 10 15 20 25 30 35 40 0 5 10 15 20 25 30 35 40 6/12 14/12 9/12 11/12 50/10 WC=11.2 DD=109 SW=0.0 SS=0.370 WC=4.7 DD=116 -200=23 WC=8.7 DD=114 SW=-0.1 TH-1 10/12 15/12 WC=19.9 DD=104 SW=0.9 SS=1.300 TH-2 7/12 9/12 9/12 17/12 37/12 WC=10.1 DD=114 -200=45 WC=10.8 DD=116 SW=0.0 TH-3 9/12 26/12 WC=23.2 DD=106 SW=0.4 TH-4 21/12 10/12 29/12 8/12 WC=5.6 DD=114 SW=0.0 SS=0.800 TH-5 7/12 4/12 50/5 WC=25.6 DD=96 -200=83 WC=17.2 DD=111 SW=-0.1 TH-6 7/12 2/12 4/12 WC=17.6 DD=107 SW=0.3 SS=0.040 TH-7 DE P T H - F E E T DE P T H - F E E T Summary Logs of Exploratory Borings FIGURE 2 ERIC KELLEY C/O JR ENGINEERING LLC MOUNTAIN VISTA PROPERTY CTL | T PROJECT NO. FC10813-115 0 5 10 15 20 25 30 35 40 0 5 10 15 20 25 30 35 40 8/12 42/12 40/12 26/12 WC=0.0DD=102SW=1.3SS=1.600 WC=5.1-200=7 WC=0.0DD=102SW=1.3SS=1.600 WC=5.1-200=7 TH-12 11/12 14/12 12/12 9/12 WC=10.3-200=16WC=10.3-200=16 TH-13 14/12 6/12 15/12 31/12 WC=0.0DD=113SW=0.0SS=0.490 WC=0.0DD=113SW=0.0SS=0.490 TH-14 11/12 5/12 7/12 7/12 WC=30.8DD=91WC=30.8DD=91 TH-15 DRIVE SAMPLE. THE SYMBOL 8/12 INDICATES 8 BLOWS OF A 140-POUND HAMMER FALLING 30 INCHES WERE REQUIRED TO DRIVE A 2.5-INCH O.D. SAMPLER 12 INCHES. SAND, CLAYEY, SILTY, SLIGHTLY MOIST TO MOIST, LOOSE TO MEDIUM DENSE, BROWN, TAN, RUST (SC) 1. 4. LEGEND: CLAY, SANDY, MOIST, STIFF, BROWN (CL) DE P T H - F E E T THESE LOGS ARE SUBJECT TO THE EXPLANATIONS, LIMITATIONS AND CONCLUSIONS IN THIS REPORT. NOTES: WATER LEVEL MEASURED MAY 1, 2023 GRAVEL, SANDY, SLIGHTLY MOIST TO WET,MEDIUM DENSE TO VERY DENSE, REDDISH BROWN (GP) INDICATES DEPTH WHERE HOLE CAVED PRIOR TO SECONDARY GROUNDWATER MEASUREMENTS. INDICATES MOISTURE CONTENT (%). INDICATES DRY DENSITY (PCF). INDICATES SWELL WHEN WETTED UNDER OVERBURDEN PRESSURE (%). INDICATES PASSING NO. 200 SIEVE (%). INDICATES LIQUID LIMIT. INDICATES PLASTICITY INDEX. INDICATES UNCONFINED COMPRESSIVE STRENGTH (PSF). INDICATES SOLUBLE SULFATE CONTENT (%). 3. DE P T H - F E E T WATER LEVEL MEASURED AT TIME OF DRILLING. Summary Logs of Exploratory Borings BORINGS 1-7 WERE DRILLED ON APRIL 21ST, 2023 USING 4-INCH DIAMETER CONTINUOUS-FLIGHT AUGERS AND A TRUCK-MOUNTED DRILL RIG. FIGURE 3 WC DD SW -200 LL PI UC SS - - - - - - - - ERIC KELLEY C/O JR ENGINEERING LLC MOUNTAIN VISTA PROPERTY CTL | T PROJECT NO. FC10813-115 BORINGS 12-15 WERE PERFORMED ON NOVEMBER 8TH, 2022 AS A PART OF THE NEWT 3 PIPELINE PROJECT (FC10581) 2. HYDROLOGY AND HYDRAULICS REPORT Joint Outfall Channel Design COLORADO PARKS AND WILDLIFE FORT COLLINS OFFICE RELOCATION LARIMER COUNTY, COLORADO AND FRONT RANGE STORAGE CITY OF FORT COLLINS, COLORADO PEC PROJECT NO. 210628-000 JUNE 2025 PREPARED BY PROFESSIONAL ENGINEERING CONSULTANTS PA 351 Linden Street Fort Collins, CO 80524 316-262-2691 www.pec1.com Joint Outfall Channel Hydraulics Report i Table of Contents 1.0 Introduction .......................................................................................................................................................... 1 2.0 Proposed Improvements .................................................................................................................................. 2 3.0 Floodplain Impact Analysis ............................................................................................................................. 3 3.1 Basin Description and Analysis ..................................................................................................................... 3 3.2 Analysis Methods ................................................................................................................................................... 5 3.3 Scenario 1: Site Detention for Historic Release ........................................................................................ 7 3.4 Scenario 2: Site Detention for Water Quality ........................................................................................... 10 4.0 Joint Outfall Channel Design ......................................................................................................................... 13 4.1 Channel Inlet Design .......................................................................................................................................... 15 4.2 Channel Design ..................................................................................................................................................... 16 4.3 Channel Outlet Design ....................................................................................................................................... 17 5.0 Permitting ........................................................................................................................................................... 18 6.0 Variances ............................................................................................................................................................. 18 7.0 Conclusions ......................................................................................................................................................... 18 8.0 References........................................................................................................................................................... 18 List of Tables Table 1: SWMM-Predicted 100-year Discharge in Boxelder Creek for Scenario 1 ......................................... 10 Table 2:SWMM-Predicted 100-year Discharge in Boxelder Creek for Scnario 2 ............................................ 12 Table 3: Manning’s n Values for Joint Outfall Channel Design ....................................................................... 14 Table 4: Joint Outfall Channel Geometry ........................................................................................................ 17 List of Figures Figure 1: Project Vicinity Map Figure 2: Site Plan, CPW Site Figure 3: Site Plan, Front Range Storage Development Figure 4: Regional Context Map, exhibit with title block Figure 5: Offsite Flow Paths and Depths Figure 6: Existing SWMM Model Basins in Projects Vicinity Figure 7: SWMM Model Hydrograph, Scenario 2 Figure 8: HEC-RAS Results Summary, Scenario 2 Figure 9: SWMM Model Hydrograph, Scenario 2 Figure 10: HEC-RAS Results Summary, Scenario 2 Joint Outfall Channel Hydraulics Report ii Figure 11: Outfall Channel Overview Figure 12: Inlet Configuration for the Outfall Channel Figure 13: Joint Outfall Channel HEC-RAS 2D Results Map List of Appendices Appendix A: Correspondence with Larimer and Weld Irrigation Company Appendix B: Pertinent Sections; 2019 LOMR and 2014 Box Elder Creek Basin Flood Study Appendix C: SWMM Model Results Appendix D: Boxelder Creek HEC-RAS Results Appendix E: Culvert Design Appendix F: Riprap Design I hereby certify that this report (plan) for the drainage analysis and design of the joint outfall channel for the Colorado Parks and Wildlife Office Relocation and the Front Range Storage Projects was prepared by me (or under my direct supervision) for the owners thereof and meets the criteria in the Larimer County Stormwater Design Standards and City of Fort Collins Stormwater Criteria Manual. ______________________________________ Registered Professional Engineer State of Colorado No. _______ Joint Outfall Channel Hydraulics Report 1 1.0 Introduction This report presents the hydrologic analysis and hydraulic design of a proposed joint outfall channel which will convey onsite and offsite stormwater runoff from two future land development projects. The future land development projects consist of the Colorado Parks and Wildlife (CPW) Fort Collins office relocation and the Front Range Storage development. This report is supplementary to the drainage reports prepared for each of the projects, presenting the results of the joint outfall channel design. Both project sites are located in the vicinity of I-25 and Mountain Vista Drive and drain to Boxelder Creek. The proposed joint outfall channel will convey stormwater discharged from both projects and represents a solution to stormwater management that will benefit both projects. The proposed channel will discharge into the Boxelder Creek FEMA-designated Zone AE floodplain and floodway. As a result, a floodplain impacts analysis was performed as part of this study, ultimately showing a “No-Rise” condition. Both project sites are located in the NW Quarter of Section 03, Township 07N, Range 68 W of the 6th Principal Meridian and can be accessed from the I-25 frontage road adjacent to northbound I- 25, south of Mountain Vista Drive. A project vicinity map is provided as Figure 1. Figure 1 – Project Vicinity Map The CPW project site is located at the southeast corner of the I-25 and Mountain Vista Drive interchange at 1435 NE Frontage Road in Larimer County, Colorado northeast of the City of Fort Collins. The project site is approximately 27-acre property. Figure 2 is a site plan for the CPW project. EXHIBIT A Joint Outfall Channel Hydraulics Report 2 The Front Range Storage development is located immediately south of the CPW property at 1312 NE Frontage Road and is located with the City of Fort Collins. The proposed storage development will be approximately 17 acres of the property’s total of approximately 104 acres. Figure 3 is a site plan for the Front Range Storage Development. 2.0 Proposed Improvements The proposed CPW project includes an approximate 30,000 square-foot 2-story administration office building, seven roughly 5,800 square-foot storage buildings, approximate 4,000 square-feet of existing structures to remain, 0.42 acres of gravel pavement not accessible by the public for vehicle traffic and storage, and 8.38 acres of pavement for public parking, CPW staff parking areas, and associated driveways. The remaining 16.67 acres will be grass or other landscaping. A new local industrial road will also be constructed immediately south of the CPW site as part of improvements for the proposed Front Range Storage development. This new road will allow access to the northern portion of the Front Range Storage development. Access to the CPW site is proposed to occur directly off this new northern Front Range Storage development access road. A second access to the Front Range Storage development is proposed to occur at an existing driveway to the south. Figure 4 depicts the locations of the two project sites, the adjacent roadway infrastructure, and proposed driveway access to the CPW site. The CPW project and the Front Range Storage project are located on properties that have historically drained southward into the Larimer and Weld Canal (LWC). The Larimer and Weld Irrigation Company (LWIC) will not accept developed site runoff from either of the two projects, as indicated in the correspondence provided in Appendix A. Consequently, a joint outfall channel is proposed to collect stormwater from both developed sites and convey it southeastward directly to Boxelder Creek, as depicted in Figure 4. The joint outfall channel’s design is being submitted for approval by Larimer County and the City of Fort Collins. Additionally, a drainage basin to the north of Mountain Vista Drive conveys stormwater to the south, through culverts at the interchange of I-25 and Mountain Vista, and generally south along the frontage road right-of-way. This offsite flow crosses the frontage road and will be collected via grading improvements proposed for the two projects and will be conveyed in the joint outfall channel with project runoff. Details on offsite flow location and peak discharge are provided in later sections. A Westrian Company KE L L E Y S T R E E T Joint Outfall Channel Hydraulics Report 3 Figure 4 – Regional Context Map 3.0 Floodplain Impact Analysis 3.1 Basin Description and Analysis The project sites are located within the Boxelder Creek watershed, a subbasin of the Cache la Poudre River and ultimately the South Platte River. The basin that comprises the offsite runoff as well as runoff from the two project sites is approximately 419 acres in area. The Web Soil Survey from NRCS identifies the basin as having primarily type C soils with moderate to high runoff potential. Both project sites have benefited from Boxelder Basin improvements implemented by the Boxelder Basin Regional Stormwater Authority. A Master Plan for improvements was prepared by ICON Engineering in 2014, and CLOMR and LOMR reports were prepared by Ayres Associates in 2015 and 2018, respectively. With the completion of the basin improvements as documented in the Ayres reports, the subject properties and a segment of the I-25 frontage road were removed from the floodplain. However, a flow path from the offsite basin north of Mountain Vista, and including the two properties proposed for development, has remained. Joint Outfall Channel Hydraulics Report 4 Modeling by ICON and Ayres has evaluated flow from this sub-basin under existing conditions and predicted that during the 100-year event approximately 274 cubic feet per second (cfs) currently flows as sheet flow into the Larimer and Weld Canal. Additional details regarding upstream diversions and overflow pathways are provided in Appendix B. PEC used HEC-RAS 2D modeling to evaluate the stormwater runoff flowing south from solely the basin north of Mountain Vista Drive and independent of the two project sub-basins. Results indicate that approximately 180 cfs from the 100-year storm flows south along the I-25 frontage road and overtops it at two locations near the existing CPW access at depths reaching approximately 0.5 feet (see Figure 5). Figure 5 – Offsite Flow Paths and Depths The CPW and Front Range Storage sites lie within the same sub-basin: south of Mountain Vista Drive, east of the I-25 frontage road, and north of the Larimer and Weld Canal. The two sites are separated into two basins for site development reasons. Historically the CPW site flowed southward primarily as sheet flow, discharging to the property owned by Freedom Storage LLC. The developed CPW site basin will drain toward its southwest corner. The Freedom Storage LLC property, which historically has been farmland, historically drained almost directly south, with runoff collecting in a pair of wide shallow folds before emptying into Joint Outfall Channel Hydraulics Report 5 the canal. The property to be developed as Front Range Storage will be graded to drain toward its southeast corner. Modeling of runoff from the 2 project sites is discussed in Sections 3.3 and 3.4. The joint outfall channel will be constructed and maintained to avoid discharge to the LWC and instead will flow south and east before discharging into Boxelder Creek as depicted in Figure 4. Two-dimensional HEC-RAS modeling was used to model runoff from the offsite basin and from the two proposed projects as conveyed through the joint outfall channel. Channel modeling is discussed in Section 4. 3.2 Analysis Methods The hydrologic and hydraulic evaluation for the joint outfall channel involves five separate models that work in conjunction with each other. Four of the models are part of the effective FEMA study for the Boxelder Creek watershed. The fifth was created to analyze the performance of the proposed joint outfall channel. The models are listed below: 1. {FEMA Hydrology} – A SWMM model studying the hydrology of the Boxelder Creek watershed. The flow rates from this model are used as the hydrologic input for the remaining four models. 2. {Boxelder Creek Upper} – A HEC-RAS 1D steady-state model of the Boxelder Creek from its headwaters to its confluence with the Larimer and Weld Canal. 3. {Boxelder Creek Lower} – A HEC-RAS 1D steady-state model of the Boxelder Creek from immediately downstream of the LWC to its confluence with the Poudre River. 4. {Larimer and Weld Canal} – A HEC-RAS 1D unsteady-state model of the LWC. 5. {Joint Channel Outfall} – A HEC-RAS 2D model of the proposed project sites, joint outfall channel, and LWC. The floodplain impact study procedure is outlined below. Note that the only potential change to the floodplain itself comes from the change in flow rates resulting from the proposed projects. The joint outfall channel will converge with the floodplain but will only act as an ineffective flow area for additional floodplain storage. 1. {Duplicate Effective} – The four FEMA models were re-run and compared to the effective FEMA study to check for matching results. 2. {Proposed Hydrology} – The increase in impervious area from the proposed site developments and changing flow patterns from the joint outfall channel were incorporated into the FEMA hydrology model. 3. {Proposed Hydraulics – Steady State} – The new peak flow rates were incorporated into the steady flow data of the Boxelder Creek Upper model. Joint Outfall Channel Hydraulics Report 6 4. {Proposed Hydraulics – Unsteady State} – The new hydrographs along the Larimer and Weld Canal were incorporated into the Larimer and Weld Canal model. 5. {Proposed Hydrology} – The new hydrographs exiting the LWC and entering back into the Boxelder Creek watershed were incorporated into the FEMA hydrologic model. 6. {Proposed Hydraulics – Steady State} – The new peak flow rates were incorporated into the steady flow data of the Boxelder Creek Lower model. 7. {Impacts Analysis} – Comparisons between the duplicate effective and proposed conditions water surface elevations were made to quantify the impacts of the changing flow rates within the Boxelder Creek. The FEMA-effective hydrologic model is an EPA-SWMM version 5.1.012 model. This study utilized PCSWMM version 7.7.3910, a proprietary software developed by Computational Hydraulics International (CHI) that incorporates a graphical user interface and additional tool-spaces with the EPA-SWMM calculation engine. The engine for EPA-SWMM version 5.1.012 was utilized in this study to maintain consistency across the hydrologic modeling. As stated in Section 2.0, the proposed site developments are not allowed to continue to drain into the Larimer and Weld Canal as they do in existing conditions. Thus, flow originating upstream of the project sites and direct runoff from the project sites need to be intercepted by the joint outfall channel and re-routed to Boxelder Creek. This was accomplished in the SWMM model by creating a new conduit representative of the joint outfall channel and discharging it into Boxelder Creek immediately upstream of its confluence with the Larimer and Weld Canal. Two design scenarios were completed and will be discussed in further detail below: Scenario 1 pertains to satisfying traditional detention with design/construction for historical release, and Scenario 2 pertains to a “beat-the-peak” solution with decreased storage sufficient for water quality management. In either case, the intent is to perform project design in such a manner that project stormwater discharge results in meeting a no-rise criterion for water surface elevations in Boxelder Creek. In both scenarios, the flow rates presented by the SWMM model were incorporated into the FEMA hydraulic models to analyze impacts to the Base Flood Elevations (BFEs) in Boxelder Creek. The first hydraulic model changed in this process is the Boxelder Creek Upper 1D steady-state model. The steady flow data was updated at Cross Section 31117 (Lettered AZ) where the proposed joint outfall channel intersects Boxelder Creek. The second hydraulic model in this process is the Larimer and Weld Canal 1D unsteady-state model. This model represents the Larimer and Weld Canal with cross sections representing its channel and lateral structures representing overflow points, both where water is overflowing into the canal and where water is overflowing out of the canal. Between the proposed project sites and the canal’s confluence with Boxelder Creek, there are four such points where water is overflowing into the canal: Joint Outfall Channel Hydraulics Report 7 • SWMM Node 913 represents flow within the median of I-25, and its hydrograph represents inflow into the canal at HEC-RAS Cross Section 11756. • SWMM Node 914 represents natural flow from the project sites and upstream areas into the canal at the HEC-RAS lateral structure between Cross Sections 11615 and 10600. • SWMM Node 917 represents an approximately 26-acre undeveloped basin (sub-basin 98) that overflows into the canal at the HEC-RAS lateral structure between Cross Sections 10230 and 9025. • SWMM Node 916 represents the Boxelder Creek overflow into the canal at HEC-RAS Cross- Section 8210. This point is the downstream extent of the Upper Boxelder Creek FEMA model and represents Cross Section 31117 in the Boxelder Creek model. There are two locations along this same stretch of the Larimer and Weld Canal where overflow from the canal enters back into the Boxelder Creek watershed: • SWMM Node 915 represents the overflow from the canal at lateral structure 11633 back into the Boxelder watershed. • SWMM Node 918 represents the overflow from the canal at lateral structure 9713 back into the main reach of the Boxelder Creek. This point is the upstream extent of the Lower Boxelder Creek FEMA model. The proposed conditions scenarios modified all four inflow hydrographs into the Larimer and Weld Canal. Due to the joint outfall channel intercepting all flow between the project sites and Boxelder Creek, SWMM Nodes 914 and 917 produce “empty” hydrographs, and the flow into the canal at those locations is 0 cfs for the duration of the study. SWMM Node 913 is unaffected by proposed project conditions. The hydrograph at SWMM Node 916, representative of Boxelder Creek, is changed by the proposed conditions and the new hydrograph was input into the canal HEC-RAS model to produce the subsequent outflow hydrographs from the canal at SWMM Nodes 915 and 918. The new outflow hydrographs were applied to SWMM Nodes 915 and 918 and the model was re-run to produce the flow rates for the Lower Boxelder Creek model. The third hydraulic model is the Boxelder Creek Lower 1D steady-state model. The proposed conditions flow rates were incorporated into the model beginning at Cross Section 31043 (AY) and carried down through Lower Boxelder Creek at cross-section 7663 (S). Downstream of this Cross Section, the flow rates naturally remain at the existing conditions levels outside of the influence of the proposed projects. 3.3 Scenario 1: Site Detention for Historic Release The proposed conditions for Scenario 1 included site detention designs to regulate proposed outflow from both the CPW and Front Range Storage developments to historic release rates. The goal of these stormwater detention ponds would be to satisfy water quality and quantity requirements as set forth by Larimer County and the City of Fort Collins. The SWMM hydrology Joint Outfall Channel Hydraulics Report 8 model was modified for this scenario by creating storage nodes upstream of the joint outfall channel based on the site design stage-area tables for the ponds. The proposed impervious areas were modeled to runoff into the storage nodes with outlet rating curves representative of the site design before being conveyed by the outfall channel. The proposed project sites are located within sub-basin 99 of the SWMM model, which is depicted in Figure 6. Figure 6 – Existing SWMM Model Basins in Projects Vicinity In existing conditions, sub-basin 99 was modeled for the Boxelder Basin Improvements Project as a 108-acre basin with impervious areas totaling 5% of the overall area. The basin was modified for the proposed projects Scenario 1 by splitting it into three basins representative of anticipated project conditions: • Sub-basin 99.1 represents approximately 4.5 acres of the CPW site with an impervious area covering 41% of the sub-basin. • Sub-basin 99.2 represents the Front Range Storage development and eastern property on the parcel owned by Freedom Storage, Inc. with approximately 57 acres and 17% impervious cover. • Sub-basin 99.3 represents approximately 42.5 acres of the CPW site and property to the east of the CPW site with a combined impervious area covering 24% of the sub-basin. The portion of sub-basin 99 that includes the I-25 travel lanes and median, conveying runoff south Joint Outfall Channel Hydraulics Report 9 to the LWC in the median at Node 913 was excluded from the analysis because this flow path is unaffected by development within the sub-basin. This runoff scenario achieved its site goal of limiting proposed outflows to historic release rates, but it elongated the hydrograph leaving the project sites and entering into Boxelder Creek. This attenuation of flow forced the peak outflow rates from the sites to coincide with the peak of the hydrograph for Boxelder Creek, which increased the peak FEMA-effective flows for Boxelder Creek by 16 cfs, as depicted in Figure 7. SWMM model results are provided in Appendix C. Figure 7 – SWMM Model Hydrograph for Boxelder Creek at the LWC, Project Design Scenario 1 PEC’s HEC-RAS-generated impacts analysis was based on an idealized trapezoidal channel conveyance element to carry the projects’ detained runoff to Boxelder Creek. Table 1 below shows the change in peak flow rates along Boxelder Creek due to the attenuation of stormwater runoff from the project sites and the resultant increase in flow at the peak in Boxelder Creek. Joint Outfall Channel Hydraulics Report 10 Table 1 SWMM-Predicted 100-year Discharge in Boxelder Creek for Scenario 1 Table 1Cross Section Existing Conditions (cfs) Scenario 1 (cfs) 31224 (AZ) 2622 2638 31043 (AY) 2511 2527 23235 (AM) 2615 2631 20262 2780 2796 11797 (Y) 2788 2805 11422 (W) 3286 3313 9599 3376 3402 7256 (R) 951 951 These increased flow rates cause a detrimental impact to the floodplain in Lower Boxelder Creek. The impacts analysis indicated that 100-year water surface elevations would increase between 0.01’ and 0.06’ at various cross sections along the streamline due to the attenuated flow. HEC-RAS results for the existing conditions (Plan: AB Project) and Scenario 1 (Plan: PC 2024) can be found in Appendix D. Results are also depicted in the attached Figure 8, a map which depicts Boxelder Creek HEC-RAS cross sections in the project vicinity and summarizes both flow and water surface elevations at key locations. The downstream cross section at Vine Drive (County Road 48) was included as a representative nearby downstream location. At Vine Drive, the water surface elevation under the two projects’ developed conditions and Scenario 1, with traditional water quality and quantity detention, was modeled to be 0.05 feet higher than the base flood. This represents a failure to demonstrate that the no-rise criterion could be met. 3.4 Scenario 2: Site Detention for Water Quality The proposed conditions design for Scenario 2 eliminated detention for quantity in on-site storage that would allow developed discharge conditions to approximate historic conditions and instead provided detention only for the required storage volumes necessary to satisfy water quality requirements. This method of site design releases developed site stormwater runoff more quickly than if it were to be detained and released at a slower rate. The quicker release allows a greater volume of runoff to be conveyed to the receiving stream system sooner and in advance of the timing of the peak in the receiving water. This approach is often termed a “beat-the-peak” solution. In this case, the beat-the-peak approach may allow the non-attenuated outflow to arrive well before the peak of the Boxelder Creek hydrograph reaches the confluence of the Larimer and Weld Canal. The same approach to UDSWMM analysis as defined above was used in Scenario 2. Both projects were designed to meet water quality criteria, but to allow runoff in excess of the design water 49 9 0 4982 498 4 4986 49 8 8 49 9 2 49 9 2 50 1 0 50 0 8 50 1 2 50 1 4 50 1 6 50 1 8 49 8 0 49 9 0 50 0 0 49 7 8 49 8 2 49 8 4 49 8 6 49 8 8 49 9 2 49 9 4 49 9 6 49 9 8 50 0 2 50 0 4 4974 49 7 6 49 8 0 49 7 8 49 8 2 49 8 6 4986 4988 49 8 0 49 7 6 49 7 8 49 8 2 49 8 4 49 8 6 49 8 0 49 7 8 498 2 498 4 498 6 49 6 4 49 6 6 49 6 8 4966 4968 LARIM E R A N D W E L D C A N A L IN T E R S T A T E 2 5 COUNTY RD 48 BO X E L D E R C R E E K LARIMER AND WELD CANAL CROSSING STRUCTURE SIDE SPILL WEIR BOXELDER CREEK BOXELDER CREEK OVERFLOW FLOODPLAIN HAS BEEN ELIMINATED BY AS-BUILT PROJECTS 11263 178 31117 31700 322 0 0 3270 0 334 0 0 33900 26430 28373 28436 288562869 1 29609 3000 0 273 0 4 10558 8482 7924 10058 9707 9000 272 5 0 3372 0 3247 8 31934 31224 297 8 1 29351 289 8 4 28577 27 7 3 4 2700 6 2681 4 28 1 4 7 331 9 8 328 9 4 31043 4964 49 6 6 49 6 8 49 7 2 4974 4978 498 0 4984 4982 4986 4970 AS S O C I A T E S 45 MA P 2 FL O O D P L A I N F O R BO X E L D E R 6 L O M R Dra w i n g N a m e : F:\ 3 2 - 1 6 6 4 . 3 1 B O X E L D E R L O M R \ 3 G - A U G 2 0 1 8 \ - A P P E N D I X G - D I G I T A L D A T A \ A P P E N D I X G . 4 A U T O C A D F I L E S \ S H E E T S \ M A P 2 F L O O D P L A I N . D W G Fri d a y , S e p t e m b e r 0 7 , 2 0 1 8 4:3 6 P M B y : SIM P S O N , M A T T H E W Fo r t C o l l i n s , C O 8 0 5 2 5 (9 7 0 ) 2 2 3 - 5 5 5 6 36 6 5 J F K P a r k w a y , B u i l d i n g 2 , S u i t e 1 0 0 C205 29 0 200'400' SCALE: 1" = 200' 100' LEGEND: 47768 5062 SURVEY CONTROL NOTES: 4974 EF F E C T I V E F L O O D P L A I N , EX . C O N D I T I O N S F L O O D P L A I N , AN D P R O P O S E D F L O O D P L A I N FL O O D P L A I N W O R K M A P C201 C202 C203 C204 C211 C212 C206 C213 C208 C214 C209 C215 C217 C218 C219 C220 C221 C210 C207 C216 KEYMAP IN T E R S T A T E 2 5 COUNTY RD 54 COUNTY RD 52 CO U N T Y R O A D 5 COUNTY ROAD 50 COUNTY RD 48 HIGHWAY 14 E PROSPECT ROAD LA R I M E R C O U N T Y WE L D C O U N T Y EAST COUNTY ROAD 40E HORSETOOTH ROAD EAST HARMONY ROAD EAST COUNTY ROAD 36 IN T E R S T A T E 2 5 C201 C202 C203 C204 C211 C212 C213 C208 C214 C209 C215 C217 C218 C219 C220 C221 C210 C206 C207 C216 C205C205 Project Joint Outfall Channel Key Cross Sections 31700 - Upstream of Project outfall 31224 - Just downstream of Project outfall 31117 - At north side of LWIC 31043 - At weir 28436 - At CR48/Vine Drive Figure 8. HEC-RAS Results Summary, Scenario 1 Note: Peak discharge increased by 16 cfs. Water surface elevation at Vine Drive increased by 0.05 feet. KEYMAP Joint Outfall Channel Hydraulics Report 11 quality volume to be discharged. For the CPW site, detention was designed to meet infiltration- focused criteria of the LEED-based design selected by the State for the site. Detention volume was also provided for the water quality capture volume as defined by the Mile High Flood District. For the Front Range Storage development, City of Fort Collins Low Impact Development (LID) requirements were achieved in infiltration-focused design. As site design developed from preliminary to final, hydrologic analysis of sub-basin 99 was also refined. Sub-basin 99 was split into eight basins representative of Scenario 2 design specifics: • Sub-basin 99.1 was defined as representative of CPW Site Basin 101, a 4.5-acre area with 46% impervious cover. • Sub-basin 99.3 is representative of CPW Site Basins 104-112, a 19.7-acre area with 34% impervious cover. • Sub-basin 99.5 is representative of CPW Site Basin 102, a 1.8-acre area with 41% impervious cover. • Sub-basin 99.6 is representative of CPW Site Basin 103, a 1.2-acre area with 49% impervious cover. • Sub-basin 99.7 is representative of the area west of CPW property, a 13.4-acre area with 24% impervious cover. • Sub-basin 99.8 is representative of eastern off-site flow that is intercepted by CPW property, a 6.3-acre area with 2% impervious cover. • Sub-basin 99.9 is representative of the Front Range Storage development, a 16.4-acre area with 70% impervious cover. • Sub-basin 99.4 is representative of land east of the Front Range Storage but also a part of the property owned by Freedom Storage, Inc., a 40.4-acre area conservatively evaluated for future industrial development with 80% impervious area. This runoff scenario did not, of course, achieve a runoff management goal of limiting proposed outflows to historical release rates, but it abbreviated the hydrograph leaving the project sites and entering into Boxelder Creek. This acceleration of flow forced the peak outflow rates from the sites to precede the peak of the hydrograph for Boxelder Creek, which resulted in no increase in the peak FEMA-effective flows for Boxelder Creek. This is depicted in Figure 9; SWMM model results are also provided in Appendix C. Figure 9 shows the timing of the Boxelder Creek hydrograph for the existing conditions (blue), Scenario 1 (red brown), and Scenario 2 (yellow). The Scenario 1 hydrograph has slightly higher flow rates during the rising limb but remains higher than the existing conditions through the peak. The Scenario 2 hydrograph has higher flow rates in the rising limb but equalizes with the existing conditions as the peak approaches. Joint Outfall Channel Hydraulics Report 12 Figure 9 – SWMM Model Hydrograph for Boxelder Creek, Scenario 2 The SWMM model for Scenario 2 and the summarized results in Table 2 indicate no change in peak flow rates along Boxelder Creek due to the more favorable timing of released stormwater: the quicker release of stormwater runoff from the project sites arrives in advance of the Boxelder Creek peak. Table 2 SWMM-Predicted 100-year Discharge in Boxelder Creek for Scenario 2 Table 2Cross Section Existing Conditions (cfs) Scenario 2 (cfs) 31224 (AZ) 2622 2622 31043 (AY) 2511 2511 23235 (AM) 2615 2615 20262 2780 2780 11797 (Y) 2788 2788 11422 (W) 3286 3286 9599 3376 3376 7256 (R) 951 951 Joint Outfall Channel Hydraulics Report 13 Due to the equivalent flow rates of Scenario 2 with the FEMA-effective flow rates, there is no impact to the Base Flood Elevations within the Upper or Lower Boxelder Creek in the “beat-the- peak” scenario. Results are also depicted in the attached Figure 10, a map which depicts Boxelder Creek HEC-RAS cross sections in the project vicinity and summarizes both flow and water surface elevations at key locations. At Vine Drive and for all the cross sections downstream of the joint outfall channel confluence with Boxelder Creek, the water surface elevation under the two projects conditions and Scenario 2, with water quantity detention only, the model indicated no change from the base case. This demonstrates that the no-rise criterion would be met with the development approach. Full HEC- RAS results for the existing conditions (Plan: AB Project) and Scenario 2 (Plan: PC BTP) can be found in Appendix D. 4.0 Joint Outfall Channel Design The joint outfall channel was designed using HEC-RAS 2D modeling methods. HEC-RAS 2D utilizes a mesh built on top of a terrain layer to calculate flow in all directions. This method is necessary in the design of the joint outfall channel to ensure that overland flow paths over the proposed site developments were considered to ensure no site flow can get into the Larimer and Weld Canal. The HEC-RAS 2D model study area included the project sites, the Larimer and Weld Canal from I-25 to downstream of its confluence with Boxelder Creek, and approximately 100’ of overland flow areas south of the Larimer and Weld Canal. The base terrain layer used in the model is 2018 1- meter resolution LiDAR. The study area is shown in Figure 11, and Manning’s values are shown in Table 3 below. 49 9 0 4982 498 4 4986 49 8 8 49 9 2 49 9 2 50 1 0 50 0 8 50 1 2 50 1 4 50 1 6 50 1 8 49 8 0 49 9 0 50 0 0 49 7 8 49 8 2 49 8 4 49 8 6 49 8 8 49 9 2 49 9 4 49 9 6 49 9 8 50 0 2 50 0 4 4974 49 7 6 49 8 0 49 7 8 49 8 2 49 8 6 4986 4988 49 8 0 49 7 6 49 7 8 49 8 2 49 8 4 49 8 6 49 8 0 49 7 8 498 2 498 4 498 6 49 6 4 49 6 6 49 6 8 4966 4968 LARIM E R A N D W E L D C A N A L IN T E R S T A T E 2 5 COUNTY RD 48 BO X E L D E R C R E E K LARIMER AND WELD CANAL CROSSING STRUCTURE SIDE SPILL WEIR BOXELDER CREEK BOXELDER CREEK OVERFLOW FLOODPLAIN HAS BEEN ELIMINATED BY AS-BUILT PROJECTS 11263 178 31117 31700 322 0 0 3270 0 334 0 0 33900 26430 28373 28436 288562869 1 29609 3000 0 273 0 4 10558 8482 7924 10058 9707 9000 272 5 0 3372 0 3247 8 31934 31224 297 8 1 29351 289 8 4 28577 27 7 3 4 2700 6 2681 4 28 1 4 7 331 9 8 328 9 4 31043 4964 49 6 6 49 6 8 49 7 2 4974 4978 498 0 4984 4982 4986 4970 AS S O C I A T E S 45 MA P 2 FL O O D P L A I N F O R BO X E L D E R 6 L O M R Dra w i n g N a m e : F:\ 3 2 - 1 6 6 4 . 3 1 B O X E L D E R L O M R \ 3 G - A U G 2 0 1 8 \ - A P P E N D I X G - D I G I T A L D A T A \ A P P E N D I X G . 4 A U T O C A D F I L E S \ S H E E T S \ M A P 2 F L O O D P L A I N . D W G Fri d a y , S e p t e m b e r 0 7 , 2 0 1 8 4:3 6 P M B y : SIM P S O N , M A T T H E W Fo r t C o l l i n s , C O 8 0 5 2 5 (9 7 0 ) 2 2 3 - 5 5 5 6 36 6 5 J F K P a r k w a y , B u i l d i n g 2 , S u i t e 1 0 0 C205 29 0 200'400' SCALE: 1" = 200' 100' LEGEND: 47768 5062 SURVEY CONTROL NOTES: 4974 EF F E C T I V E F L O O D P L A I N , EX . C O N D I T I O N S F L O O D P L A I N , AN D P R O P O S E D F L O O D P L A I N FL O O D P L A I N W O R K M A P C201 C202 C203 C204 C211 C212 C206 C213 C208 C214 C209 C215 C217 C218 C219 C220 C221 C210 C207 C216 KEYMAP IN T E R S T A T E 2 5 COUNTY RD 54 COUNTY RD 52 CO U N T Y R O A D 5 COUNTY ROAD 50 COUNTY RD 48 HIGHWAY 14 E PROSPECT ROAD LA R I M E R C O U N T Y WE L D C O U N T Y EAST COUNTY ROAD 40E HORSETOOTH ROAD EAST HARMONY ROAD EAST COUNTY ROAD 36 IN T E R S T A T E 2 5 C201 C202 C203 C204 C211 C212 C213 C208 C214 C209 C215 C217 C218 C219 C220 C221 C210 C206 C207 C216 C205C205 Project Joint Outfall Channel Key Cross Sections 31700 - Upstream of Project outfall 31224 - Just downstream of Project outfall 31117 - At north side of LWIC 31043 - At weir 28436 - At CR48/Vine Drive Note: Peak discharge and water surface elevation did not increase. KEYMAP Figure 10. HEC-RAS Results Summary, Scenario 2 Joint Outfall Channel Hydraulics Report 14 Figure 11. Joint Outfall Channel Overview Table 3 Manning’s n Values for Joint Outfall Channel Design Table 3 Land Cover Manning's n Impervious 0.015 Grassland 0.07 Gravel 0.045 Crops 0.06 Open Water 0.03 Grass Swale 0.03 The FEMA-effective hydrology described above was used in the 2D study. The hydrographs for multiple sub-basins and Boxelder Creek at its intersection point with the study area were applied to the mesh as inflow boundary conditions. This methodology was used for both the existing Joint Outfall Channel Hydraulics Report 15 conditions and proposed conditions. The mesh was shaped with a general 50’ x 50’ cell spacing. Breaklines were added to the mesh to enforce hydraulically significant terrain features such as curbs and crowns of roadways, high points and ridgelines in grading, and channel and pond berms. Outflow boundary conditions were created at the downstream end of the Larimer and Weld Canal and south of the Canal in the overland flow areas. The proposed conditions model incorporated the grading plans for the CPW site, the Front Range Storage development, and the joint outfall channel. The breaklines and mesh were edited to ensure correct enforcement of hydraulically significant features. Inflow hydrographs were edited to reflect their proposed conditions flow rates and timing. Both the existing and proposed conditions models were run with 2-year, 5-year, 10-year, 25-year, and 100-year storm events with the goal of limiting proposed conditions flows from entering the Larimer and Weld Canal in all storm events studied. 4.1 Channel Inlet Design The joint outfall channel will begin south of the access road that separates the CPW site from the Front Range Storage development. Upstream of the access road there is a “C” shaped swale that collects runoff from the CPW site and overflow from the I-25 frontage road before delivering it to the outfall channel via a series of 4 culverts underneath the access road. HY-8 was used to design this culvert, and HEC-RAS 2D was used to confirm it satisfies the design in the context of the whole project. The culvert will see a 100-year flow rate of 230 cfs. The HY-8 design yielded four 36” reinforced concrete pipes. This will limit the overtopping of the access road to less than 0.5’ at its intersection with the I-25 frontage road. A separate, smaller dry pond area will be present on the Front Range Storage development immediately to the west of the beginning of the joint outfall channel. HY-8 results are provided in Appendix E. The pond will deliver the remainder of the access road overflow to the outfall channel via a culvert underneath the fire access road on the Front Range Storage development. This second set of culverts will consist of two 30” reinforced concrete pipes. A small percentage of overflow will still occur out of this pond and down the ditch on the Front Range Storage development in the 100-year storm, but it will be directed by site grading toward the project’s rain garden and then to the joint outfall channel on the south side of the property. Figure 12 shows the upstream channel configuration. Due to velocity and shear stress in the joint outfall channel downstream of the culverts riprap will be placed to protect again channel erosion. Maximum velocities at this location will be approximately 8 fps. According to the United States Army Corps of Engineers (USACE) Engineering Research Development Center’s (ERDC) “Stability Threshold for Stream Restoration Materials”, 12- inch D50 riprap will remain stable under the channel inflow conditions downstream of the culverts. It is recommended that the apron be installed with a thickness of 2.0 feet. See Appendix F for a table of Permissible Shear and Velocity for Selected Lining Materials, as documented by the USACE Stability Threshold for Stream Restoration Materials document. Joint Outfall Channel Hydraulics Report 16 Figure 12. Joint Outfall Channel Inlet Map 4.2 Channel Design The joint outfall channel was designed using HEC-RAS-generated hydraulic modeling as an open channel with Manning’s roughness values. SWMM modeling provided 100-year FEMA-effective flow rates ranging from 230 cfs at the upstream end to 350 cfs at the outlet. All side slopes will be 4:1. The total channel length will be 3,859 lineal feet, with a fall of 6.1 feet, for an average longitudinal slope of 0.16%. A minimum freeboard of 1.0 foot will be provided. The channel and banks will be established with a native grass seed. An estimated 35,000 cubic yards of soil will be excavated to create the channel. Approximately 30% of that total will be used to create channel berms and the remaining 70% will be placed on one or both of the project properties. Figure 13 depicts the flow depths for the joint outfall channel as generated from the HEC-RAS 2D modeling. Table 4 summarizes design channel geometry, allowing for a 1.0 foot of freeboard above the maximum flow depth within each channel reach. Joint Outfall Channel Hydraulics Report 17 Figure 13. Joint Outfall Channel HEC-RAS 2D Model Results Table 4 Joint Outfall Channel Geometry Table 4 Channel Segment Stations Bottom Width, ft Maximum Flow Depth, ft Channel Depth with Freeboard, ft Segment Slope, percent 1 0+00 to 9+80 20 2.7 3.5 0.27 Transition 9+80 to 12+00 2 12+00 to 27+20 30 3.9 5.0 0.11 Transition 27+20 to 27+98 3 27+98 to 36+87 30 4.7 6.0 0.11 Outlet 36+87 to 38+59 Joint Outfall Channel Hydraulics Report 18 Berms will be needed where the channel intersects natural low points in the terrain where runoff historically drains into the Larimer and Weld Canal. These berms will ensure that the intercepted flow within the channel is unable to flow into the canal. 4.3 Channel Outlet Design The joint outfall channel will discharge into Boxelder Creek approximately 200’ upstream of the Boxelder Creek confluence with the Larimer and Weld Canal. The outfall channel will tie-in to the west overbank area of the Boxelder Creek at an elevation of 4975.7’. The banks of the outfall channel will flare out from the channel bottom to tie into existing grade beginning 170’ west of the top of bank of Boxelder Creek. Due to the shallow nature of the channel (0.1% longitudinal slope) at the outlet, velocities and shear stresses will be low, but outlet stabilization measures will be taken to stabilize soil at the outfall. Channel outfall conditions were analyzed both with Boxelder Creek backwater conditions and without. The controlling velocities and shear stresses both occur in the no backwater condition. Maximum velocities within the outfall sit between 2 – 2.5 fps, and maximum shear stresses sit between 0.3 – 1.00 psf. According to the United States Army Corps of Engineers (USACE) Engineering Research Development Center’s (ERDC) “Stability Threshold for Stream Restoration Materials”, a Class B Turf, Long Native Grasses, and 6-inch D50 or greater riprap will all remain stable under the channel outfall conditions. The outfall will be stabilized with 6-inch D50 soil-filled riprap at a thickness of 1.0 feet to provide for a stable, vegetated riprap apron. See Appendix F for a table of Permissible Shear and Velocity for Selected Lining Materials, as documented by the USACE Stability Threshold for Stream Restoration Materials document. 5.0 Permitting The recommended design is to construct a new joint outfall channel stretching from the proposed site developments to the west overbank of Boxelder Creek. The channel will tie-in to Boxelder Creek within the Boxelder Creek Zone AE floodplain and floodway. Thus, this project falls within Federal, State, and Local floodplain permitting requirements. This study shows that there will be a “No-Rise” condition within the Boxelder Creek special flood hazard area, so the floodplain requirements will be limited to State and Local floodplain development permits. With the project a Pre-Construction Notification will be submitted to the U.S. Army Corps of Engineers for a determination whether a USACE Section 404 permit will be required for the outlet of the joint outfall channel to Boxelder Creek. Construction will be limited to the top of the bank of the Boxelder Creek and above, so work under an ordinary high-water mark will be limited. It is unknown at this time if the joint outfall channel will impact jurisdictional wetlands. A draft EA prepared by ERO Resources Corp. will be submitted with this application. 6.0 Variances In order to achieve the no-rise criterion for base flood elevations in Boxelder Creek, a beat-the-peak solution to stormwater management is proposed as detailed herein. This stormwater management Joint Outfall Channel Hydraulics Report 19 solution, without quantity detention to store developed stormwater conditions to release at historic conditions, is a variance from City of Fort Collins and Larimer County stormwater criteria. The CPW Site variance request to Larimer County is included with this application. 7.0 Conclusions An outfall channel is proposed to convey offsite runoff plus project runoff from the CPW site and the Front Range Storage development. Stormwater management design for both proposed projects will provide for required water quality detention. However, quantity detention to reduce developed condition runoff to approximate historic levels will not be provided. Evaluation of site designs with quantity detention predicted that the corresponding attenuation of peak flows resulting from quantity detention will create delayed outfall flows that coincide with peak conditions in the Boxelder Creek. This would result in 16 cfs of additional flow and 0.06’ rise at downstream cross sections. The proposed design solution will allow peak flows from the developed sites to reach Boxelder Creek prior to its peak, resulting in no increases in peak discharge or in water surface elevations. The proposed channel design will be a flat, grass-lined trapezoidal channel approximately 3,900 feet in length at an average slope of 0.16 percent and conveying from 230 to 350 cfs in developed site stormwater as well as offsite runoff from north of Mountain Vista. 8.0 References [1] “Larimer County Stormwater Design Standards”, Larimer County, Colorado, 2023. [2] “Fort Collins Stormwater Criteria Manual”, City of Fort Collins, Colorado, September 2018. [3] Soils Map, “Web Soil Survey 3.0”, USDA Natural Resources Conservation Service (NRCS), April 2023. [4] Precipitation Frequency Data Server, “NOAA Atlas 14”, National Oceanic and Atmospheric Administration (NOAA), May 2024. [5] “Boxelder Creek Hydrology Update”, ICON Engineering, April 2014. [6] “Boxelder Letter of Map Revision (LOMR)”, Ayres Associates, 2019. [7] “Stability Threshold for Stream Restoration Materials”, United States Army Corps of Engineers (USACE) Engineering Research Development Center (ERDC), May 2001. Appendix A Larimer and Weld Irrigation Company Correspondence LAW RENCE CUSTER GRASMICK JONES & DONOVAN, LLP ATTORNEYS AT LAW July 11, 2024 Mr. Justin Currie, Planner II Larimer County Community Development VIA EMAIL ONLY: curriejp@co.larimer.co.us RE: Colorado Parks and Wildlife- Office Relocation-Project Case # INQ4880/ 23- ZONE3544 – Comments Dear Justin, Our firm represents the Larimer and Weld Irrigation Company (“LWIC”), the owner of the Larimer and Weld Canal (the “Canal”) and associated water rights diverted and carried therein. LWIC learned inadvertently of CPW’s plans as cited above to relocate its office, widen the I-25 Frontage Road, and discharge increased amounts of stormwater into the Canal. LWIC is highly concerned that it will be at the mercy of future developments which plan to increase their stormwater discharge into the Canal, chiefly due to your failure to inform us of that possibility. Once your office has approved the plans, LWIC’s only recourse would be to sue in court well after the infrastructure has been installed, and perhaps well after damage has occurred. Your response to LWIC dated June 24, 2024 indicated that Larimer County only informs ditch companies when “the ditch is located on the property, directly adjacent to the property, or if they are proposing a crossing. In this case I did not include you as a referral agency since your ditch is hundreds of feet away.” The number of feet the stormwater must travel before entering our Canal is irrelevant. Instead, the very fact that CPW (or another developer) plans to increase its discharge into the Canal triggers your duty to inform LWIC of that proposal, afford it the opportunity to comment thereon, and ascertain if the required approval from the ditch company is forthcoming. You may not be aware of the issues stormwater causes any ditch company. Not only must the ditch company be able to maintain the capacity to convey its adjudicated water rights to its shareholders for irrigation use, it must be able to do so safely. Increased amounts of stormwater entering our ditch from increased development along the Canal raise safety, maintenance and operational issues for the ditch company. In addition, the Colorado Division of Water Resources has informed us that stormwater collected and discharged by a detention facility into the Larimer and Weld irrigation system may not be beneficially used and is considered to be an out of priority inflow, and as such would need to be passed through our system without use and released to the stream. Any such increased discharge into our Canal may impose an undue burden upon the ditch company for administration (i.e, staffing, additional infrastructure, tracking, measuring, reporting). There is no easy way to differentiate stormwater flows from the irrigation water owed to shareholders. Further, LWIC has no structure to discharge stormwater from its Canal into a stream. These are all 5245 Ronald Reagan Blvd., Suite 1 Johnstown, COLORADO 80534 TELEPHONE: 970-622-8181 www.LCWATERLaw.com linda@lcwaterlaw.com Bradley C. Grasmick • David P. Jones • Ryan M. Donovan • Wesley S. Knoll • Richard T. LiPuma (Of Counsel) David L. Strait • Linda Preslan Bower • Jacklyn P. Gunn • Nicholas P. Espenan issues which the ditch company does not consider to be its financial or legal responsibility which would require discussion with any developer. Needless to say, the company can only do so when it is aware that any owner plans to increase its stormwater flows, and for that, we require your cooperation in informing us. With regard to CPW’s Case #INQ4880, LWIC’s review is ongoing, specifically related to the Applicant’s proposal to discharge increased stormwater into the Canal. Please see the attached Technical Review from W.W. Wheeler & Associates, Inc. which contains substantive comments and concerns about the current plans. LWIC does not presently approve of the stormwater discharge plans, including the potential for a storm event to overtop the planned filtration basins for aquatic nuisance invasive species washout stations. The potential for such invasive species entering the Canal and being transported via the extensive network of ditches and reservoirs throughout northeast Colorado would be catastrophic for the interests of all parties. Applicant’s Hydraulic Report indicates cooperation on easement issues with their neighbors to the south, believed to be Front Range Storage. LWIC has also been consulting with Front Range Storage on their own improvement plans. Front Range Storage may have drainage issues similar to CPW’s. It is possible that CPW and Front Range Storage may find some mutual benefit in discussing a cooperative effort on discharging increased stormwater to the natural drainage in ways that will not adversely impact the Canal, and we encourage that cooperation. We note that Section 1.2 of the County Design Standards states that any policies or criteria not specifically addressed in the County Standards shall follow the Mile High Flood District Urban Storm Drainage Criteria manual. While we did not find much specific reference in the County Standards regarding discharges to irrigation ditches, at least two sections of the Mile High Criteria strongly discourage use of irrigation diches for flood mitigation purposes or for collection and transport of initial or major storm runoff. See Sections 3.4.3 and 4.4 of USDCM Volume 1. Even if such use were considered, written approval of the ditch owner is required. LWIC has not given any such approval to the current application. Please modify your general criteria for referral agencies to include the relevant dich companies for any application which would increase stormwater flows into an irrigation ditch or reservoir. Thank you for your consideration of LWIC’s concerns, including those in the Wheeler Technical Review attached. Applicant’s engineer is free to contact Hayden Strickland with Wheeler to discuss LWIC’ s requirements for approval. Sincerely, LAWRENCE CUSTER GRASMICK JONES & DONOVAN, LLP __________________________________________ Linda P. Bower, Esq. Enc.: Wheeler Technical Review Cc. Kimberly Nelson, LWIC Kent Bruxvoort July 9, 2024 Kimberly Nelson Larimer and Weld Irrigation Company 106 Elm Avenue Eaton, CO 80615 RE: Colorado Parks and Wildlife - Office Relocation & I-25 Frontage Road Improvements - Project Case # INQ4880 Dear Kimberly: As requested by Larimer and Weld Irrigation Company (LWIC), we have reviewed the Colorado Parks and Wildlife (CPW) Office Relocation and I-25 Frontage Road Improvements, (Larimer County Project Case No. INQ4880), and are providing our comments. CPW is proposing to develop approximately 27.2 acres of land located at 1424 NE Frontage Road, Fort Collins, CO 80524, in Larimer County. Figure 1 presents a vicinity map from the CPW site drawings. Figure 1 – Vicinity Map depicting project location. CPW is seeking to develop the land to include the following:  A two-story administration building Kimberly Nelson, LWIC. June 14, 2024 Page 2  Seven storage buildings  0.42 acres of gravel pavement not accessible by the public for vehicle traffic and storage, and  8.38 acres of pavement for public parking, CPW staff parking areas, and associated driveways. LWIC owns and operates the Larimer and Weld Canal (LWC) which is located south of the proposed development. The LWC delivers irrigation water to Company Shareholders who irrigate lands in Larimer and Weld Counties. Wheeler reviewed the following documents: 1. Colorado Parks and Wildlife Fort Collins Relocation Civil Construction Plans, 1626 NE Frontage Road Fort Collins, CO, 80524, Professional Engineering Consultants, April 26, 2024, 76 Pages. 2. Colorado Parks and Wildlife Office Relocation Project Description, Project Case # INQ4880, Russell & Mills, August 18, 2023, 5 Pages. 3. Preliminary Drainage Report for Fort Collins Office Relocation, State of Colorado, Colorado Parks and Wildlife, Larimer County, Colorado. Professional Engineering Consultants, May 2024, 47 Pages. 4. CDOT Hydraulics Report for Colorado Parks and Wildlife Fort Collins Office Relocations , I-25 Frontage Road Improvements, Larimer County, Colorado, Professional Engineering Consultants, May 2024, 49 Pages. Wheeler’s comments regarding potential water-related issued associated with the project are as follows: 1. LWIC does not allow a change to the historical quantity, quality, type, rate, or location of water draining into the LWC. With these restrictions in mind, Wheeler has the following comments regarding the project: a. The Preliminary Drainage Report indicates that the pre-development stormwater runoff during the 100-year storm is 2.9 acre-feet, while the proposed development conditions would generate 4.30 acre-feet of stormwater runoff. This water would discharge from the detention pond into the borrow ditch along I-25 and then into the LWC. LWIC does not allow an increase in the volume of stormwater entering the LWC. b. The Civil Construction Plans show two invasive species washout stations located on the developed property. LWIC is concerned that water from these filtration basins could enter the ditch during a storm event. This is a change to the historical water quality of water entering the LWC, which is not allowed by LWIC. Additionally, should invasive species enter the LWC it would cause significant Kimberly Nelson, LWIC. June 14, 2024 Page 3 damage to the LWIC infrastructure and downstream reservoirs impacting the ability to make irrigation deliveries. Please provide an analysis showing that water discharged from these washout stations physically cannot reach the LWC under any circumstances. c. The CDOT Hydraulics Report indicates that the increased runoff generated from improving the I-25 Frontage Road will increase the historical flow rate from 1.7 cubic feet per second (cfs) under the current conditions to 2.5 cfs under the proposed conditions. This water would drain directly to the LWC. This increase in historical rate of discharge to the LWC is not acceptable. Even if a detention basis is constructed to reduce the flow rate, LWIC will not allow for an increase in volume of water discharged to the canal. d. The Preliminary Drainage Report indicates that the spillway for the detention pond will be capable of passing 76.4 cfs. Does this flow enter the LWC? Please provide a map showing its flow path and ultimate destination. 2. The CDOT Hydraulics Report states that the 2019 LOMR removed the subject property from the flood plain due to the construction of the East Side Detention Facility. Similarly, the Preliminary Drainage Report indicates that the developed lands are no longer in the floodplain of Box Elder Creek due to the construction of the East Side Detention Facility. However, it appears that up to 274 cfs may flow into the frontage road borrow ditch, or into the developed property. Please provide more details on how and where this flow occurs, and what its ultimate discharge location is. If the historical location or manner of discharge changes because of this project, LWIC will not allow this water to be discharged into the LWC. Wheeler recommends that CPW address these issues before LWIC provides any notice of acceptance to Larimer County. The issues identified above are based on the data and documents which were provided to Wheeler for review and may change as additional information becomes available. Sincerely, W. W. Wheeler & Associates, Inc. Hayden Strickland, P.E. Cc via Email: Autumn Penfold, LWIC Andy Pineda, LWIC Linda Bower, Lawrence Custer Grasmick Jones & Donovan, LLP Ryan Donovan, Lawrence Custer Grasmick Jones & Donovan, LLP File Location: R:\1900\1953-LWIC\05_CPW Building\7_Documents\06-13-24 CPW Comments.docx 1 Kent Bruxvoort From:Autumn Penfold <apenfold@eatonditch.com> Sent:Tuesday, February 4, 2025 2:20 PM To:Kent Bruxvoort; Kim Nelson; ryan@lcwaterlaw.com; linda@lcwaterlaw.com; hayden.strickland@wwwheeler.com Cc:Nicholas Raley; Barker - DNR, Paul; Joey Frank; Shawn Krier - DNR; Andrew Martin Subject:RE: Colorado Parks and Wildlife Fort Collins Office Relocation, update on outfall channel design Thank you for the update, Kent. We’ll look for more information from you as the stormwater piece of your project develops. Autumn Penfold Larimer & Weld Irrigation Companies 106 Elm Avenue • Eaton, CO 80615 970.454.3377 (office) • 970.454.0154 (fax) www.eatonditch.com Privileged & Confidential: This communication, including attachments, is for the exclusive use of the addressee and may contain proprietary, confidential and/or privileged information. If you are not the intended recipient, any use, copying, disclosure, dissemination or distribution is strictly prohibited. If you are not the intended recipient, please notify the sender immediately by return e-mail, delete this communication and destroy all copies. From: Kent Bruxvoort <kent.bruxvoort@pec1.com> Sent: Thursday, January 16, 2025 8:48 AM To: Autumn Penfold <apenfold@eatonditch.com>; Kim Nelson <knelson@eatonditch.com>; ryan@lcwaterlaw.com; linda@lcwaterlaw.com; hayden.strickland@wwwheeler.com Cc: Nicholas Raley <nicholas.raley@pec1.com>; Barker - DNR, Paul <paul.barker@state.co.us>; Joey Frank <jfrank@jrengineering.com>; Shawn Krier - DNR <shawn.krier@state.co.us>; Andrew Martin <amartin@d2carchitects.com> Subject: Colorado Parks and Wildlife Fort Collins Office Relocation, update on outfall channel design Greetings Autumn and team, As you know, we have been working with Larimer County regarding our site plan submittal for Colorado Parks and Wildlife’s (CPW’s) O"ice Relocation project. The relocation site is highlighted in the screen shot below, at the SE corner of the I-25/Mountain Vista interchange. I’m sending this email as an update on stormwater planning and design and in partial response to comments provided by Larimer and Weld Irrigation Company. We are not requesting action at this time—this email is intended to keep your team in the loop. 2 Our project’s drainage report originally proposed stormwater detention in accordance with County criteria, stored and released to the roadside swale for the SE I-25 frontage road. From there the water would ultimately discharge into the Larimer and Weld Canal, owned by the Larimer and Weld Irrigation Company (LWIC). LWIC stated they wouldn’t accept the water, and we’ve been working to address the situation over the last several months. Here’s where we currently stand: 1. The State CPW has coordinated with and reached general agreement with the property owners to the south of us, the Kelleys. The Kelleys are proposing a mini-storage project through Fort Collins’ process and face the same stormwater management issue that the CPW does. The Kelleys have contracted with JR Engineering for site design, and PEC has been coordinating the solution to the shared problem with JR’s PM, Joey Frank, and his team. 2. The 2 parties and their consultants are working together on a joint outfall channel that would collect and convey stormwater through the Kelleys’ property to Boxelder Creek. 3. We’ve been given copies of the various SWMM and HEC-RAS models that have been used by the Boxelder Stormwater Authority so that we could incorporate these 2 properties and the proposed outfall channel in the models. 4. We met with Matt Simpson representing City of Fort Collins Stormwater in December and presented the preliminary model ﬁndings to him. The chief issue we were ﬁnding is that in conveying water directly to Boxelder Creek, instead of into the LWIC and spilling to the Creek, we were marginally increasing the channel discharge. This of course resulted in marginally increasing the water surface elevations in Boxelder Creek all the way downstream to its conﬂuence with the Poudre. This would lead us toward the FEMA Letter of Map Revision (LOMR) process. 5. We haven’t fully vetted this option yet, but it appears to us that the only viable solution to avoid the complication, cost and delay of the LOMR process is for both properties to beat the timing of the Boxelder peak discharge during the 100-year design event with limited on-site detention provided for water quality, 3 LID, and LEED/inﬁltration purposes and earlier discharge through the outfall channel to the Creek. This would eliminate much of the volume of on-site detention ordinarily provided to attenuate the development’s peak discharge to historic levels. 6. We’re close to being able to share with the County and the City our concept channel design, complete with the HEC-RAS modeling, to demonstrate the projects’ combined impacts on the ﬂood hydrograph in Boxelder Creek. 7. With general acknowledgement from the agencies that this solution has merit, we will submit again to Larimer County for Site Plan approval. 8. Hopefully this update is helpful. If LWIC believes meeting together to discuss our approach is a good idea, we would be please to meet with your team. As we continue to progress toward our stormwater management solution we will continue to communicate at key milestones with LWIC. Best regards, -Kent Kent Bruxvoort , PE Team Lead | Fort Collins Civil Engineering kent.bruxvoort@pec1.com 800.754.2691 | C 970.342.0428 351 Linden St | Ste 100 | Fort Collins, CO 80524 Professional Engineering Consultants File Disclaimer This e-mail and any files transmitted with it are confidential and intended solely for the use of the individual or entity to whom they are addressed. If you have received this email in error please notify the sender. If you are not the named addressee you should not disseminate, distribute or copy this e-mail. Please notify the sender immediately by e-mail if you have received this e-mail by mistake and delete this e-mail from your system. If you are not the intended recipient, you are hereby notified that disclosing, copying, distributing or taking any action in reliance on the contents of this e-mail is strictly prohibited. Appendix B Pertinent Sections; 2019 LOMR and 2014 Boxelder Creek Basin Flood Study Ayres Associates Table 5.6 Larimer-Weld Canal model (HEC-RAS) Inflows from the EPASWMM model Node (Ditch Inflow HEC-RAS Cross Section (EPA SWMM Hydrograph Peak Flow Into Ditch (cfs) Existing Conditions (Ayres 2015/2018) (Ayres 2018) Difference 903 21990-20950 901 20080 902 19405-17985 904 15360-14550 907 13415 913 11756 914 11615-10600 917 10230-9025 916 8210 919 6075-4950 922 4950-195 Table 5.7 Larimer- Weld Canal HEC-RAS model spills (outflows) to EPA SWMM model. Lateral Weir (Spill Outflow HEC-RAS Storage Area (Spill from Spill Location on Figure Node (Inflow from Peak Flow Out of Ditch (cfs) Existing Conditions (Ayres 2015/2018) (Ayres 2018) Difference The L&W spills were updated in the As-Built Project EPA SWMM model. The L&W spill hydrographs are inserted at nodes 905, 906, 909, 912, 915, 918, 921, and 924 in the EPA SWMM model. • Diversion 925: In the existing conditions (pre-project), Boxelder Creek was currently conveyed under I-25 through two (2) box culverts. These two (2) box culverts did not have the capacity to convey the entire 100-year event and therefore a spill to the south occurred at the existing box culverts. This spill was modeled in the Existing Condition EPA SWMM model at diversion node 925. One of the projects included in this LOMR opened the other two (2) I-25 box culverts which had previously been blocked off. Due to the increased capacity of all four (4) box culverts and the reduced 100-yr discharge from ESDF detention, the flow spill to the south has been eliminated. This diversion element was converted in the SWMM model to a standard junction element. Appendix C SWMM Model Results EXISTING CONDITIONS PC SWMM LAYOUT Node 916. Boxelder Creek, at confluence with Larimer & Weld Canal PROPOSED CONDITIONS - SCENARIO 1 PC SWMM LAYOUT CPW Site, with detention for quantity and quality Front Range Storage development, with detention for quantity and quality Boxelder Creek, at confluence with Larimer & Weld Canal Note: Scenario 1 is standard stormwater detention for water quality and to attenuate peak developed discharge to historical conditions. PROPOSED CONDITIONS - SCENARIO 2 PC SWMM LAYOUT CPW Site, with detention for water quality only Front Range Storage development, with detention water quality only Boxelder Creek, at confluence with Larimer & Weld Canal Note: Scenario 2 is the beat-the-peak alternative with stormwater detention for water quality and LEED/LID criteria. SWMM Hydrology Results Outfall 916 - 100-yr Existing Conditions Proposed Conditions - Scenario 1 Proposed Conditions - Scenario 2 Date/Time Total inflow Total inflow Total inflow M/d/yyyy cfs cfs cfs 1/28/2013 0:01 0.0 0.0 0.0 1/28/2013 0:11 0.0 0.0 0.0 1/28/2013 0:21 0.0 0.0 0.0 1/28/2013 0:31 0.0 0.0 0.0 1/28/2013 0:41 0.0 0.0 0.0 1/28/2013 0:51 0.0 0.0 0.0 1/28/2013 1:01 0.0 0.0 0.0 1/28/2013 1:11 0.0 0.0 0.0 1/28/2013 1:21 0.0 0.0 0.0 1/28/2013 1:31 0.0 0.0 0.0 1/28/2013 1:41 0.0 0.0 0.0 1/28/2013 1:51 0.0 0.0 0.0 1/28/2013 2:01 0.0 0.0 0.0 1/28/2013 2:11 0.0 0.0 0.0 1/28/2013 2:21 0.0 0.0 0.0 1/28/2013 2:31 0.0 0.0 0.0 1/28/2013 2:41 0.0 0.0 0.0 1/28/2013 2:51 0.0 0.0 0.0 1/28/2013 3:01 0.0 0.0 0.0 1/28/2013 3:11 0.0 0.0 0.0 1/28/2013 3:21 0.0 0.0 0.0 1/28/2013 3:31 0.0 0.0 0.0 1/28/2013 3:41 0.0 0.0 0.0 1/28/2013 3:51 0.0 0.0 0.0 1/28/2013 4:01 0.0 0.0 0.0 1/28/2013 4:11 0.0 0.0 0.0 1/28/2013 4:21 0.0 0.1 0.1 1/28/2013 4:31 0.1 0.1 0.1 1/28/2013 4:41 0.1 0.5 0.5 1/28/2013 4:51 0.4 0.9 0.9 1/28/2013 5:01 0.9 1.6 1.6 1/28/2013 5:11 1.8 1.7 1.7 1/28/2013 5:21 2.1 2.0 2.0 1/28/2013 5:31 2.2 2.3 2.3 1/28/2013 5:41 2.2 2.2 2.2 1/28/2013 5:51 2.4 2.2 2.2 1/28/2013 6:01 2.2 2.2 2.2 1/28/2013 6:11 2.1 2.1 2.1 1/28/2013 6:21 9.0 12.3 10.5 1/28/2013 6:31 12.3 44.7 29.2 1/28/2013 6:41 188.5 299.7 131.5 1/28/2013 6:51 502.9 889.3 509.3 1/28/2013 7:01 655.2 1015.8 688.5 1/28/2013 7:11 619.5 950.5 654.8 Page 1 SWMM Hydrology Results Outfall 916 - 100-yr Existing Conditions Proposed Conditions - Scenario 1 Proposed Conditions - Scenario 2 Date/Time Total inflow Total inflow Total inflow M/d/yyyy cfs cfs cfs 1/28/2013 7:21 623.9 942.2 658.0 1/28/2013 7:31 775.5 1084.1 937.9 1/28/2013 7:41 971.2 1269.2 1221.5 1/28/2013 7:51 1119.9 1402.9 1366.6 1/28/2013 8:01 1209.8 1475.7 1442.9 1/28/2013 8:11 1256.3 1501.7 1472.6 1/28/2013 8:21 1252.0 1468.2 1449.0 1/28/2013 8:31 1247.6 1433.8 1422.6 1/28/2013 8:41 1254.6 1413.3 1406.5 1/28/2013 8:51 1270.8 1402.7 1400.5 1/28/2013 9:01 1297.1 1407.3 1407.1 1/28/2013 9:11 1338.2 1428.0 1429.5 1/28/2013 9:21 1397.7 1471.2 1473.1 1/28/2013 9:31 1465.5 1523.5 1527.1 1/28/2013 9:41 1537.4 1584.2 1588.2 1/28/2013 9:51 1610.6 1645.8 1651.8 1/28/2013 10:01 1680.2 1704.3 1717.3 1/28/2013 10:11 1745.9 1762.0 1782.8 1/28/2013 10:21 1808.6 1819.3 1845.2 1/28/2013 10:31 1873.9 1881.1 1910.1 1/28/2013 10:41 1942.8 1947.6 1978.4 1/28/2013 10:51 2012.4 2016.1 2047.9 1/28/2013 11:01 2075.1 2077.9 2110.1 1/28/2013 11:11 2134.5 2136.6 2169.1 1/28/2013 11:21 2191.6 2193.3 2225.8 1/28/2013 11:31 2245.2 2246.6 2279.0 1/28/2013 11:41 2295.0 2296.2 2328.3 1/28/2013 11:51 2337.5 2338.5 2370.4 1/28/2013 12:01 2374.2 2375.0 2406.6 1/28/2013 12:11 2406.1 2406.8 2438.0 1/28/2013 12:21 2433.9 2434.5 2465.4 1/28/2013 12:31 2458.8 2459.3 2489.7 1/28/2013 12:41 2481.0 2481.5 2511.5 1/28/2013 12:51 2501.1 2501.5 2531.0 1/28/2013 13:01 2519.0 2519.4 2548.5 1/28/2013 13:11 2535.2 2535.6 2564.2 1/28/2013 13:21 2549.8 2550.2 2578.3 1/28/2013 13:31 2563.0 2563.3 2591.0 1/28/2013 13:41 2574.7 2574.9 2602.1 1/28/2013 13:51 2584.9 2585.1 2611.8 1/28/2013 14:01 2593.7 2593.9 2620.0 1/28/2013 14:11 2601.3 2601.4 2627.0 1/28/2013 14:21 2607.5 2607.7 2632.7 1/28/2013 14:31 2612.6 2612.8 2636.4 Page 2 SWMM Hydrology Results Outfall 916 - 100-yr Existing Conditions Proposed Conditions - Scenario 1 Proposed Conditions - Scenario 2 Date/Time Total inflow Total inflow Total inflow M/d/yyyy cfs cfs cfs 1/28/2013 14:41 2616.5 2616.6 2637.6 1/28/2013 14:51 2619.3 2619.4 2638.2 1/28/2013 15:01 2621.0 2621.1 2638.1 1/28/2013 15:11 2621.7 2621.9 2637.3 1/28/2013 15:14 2621.8 2621.9 2636.9 1/28/2013 15:21 2621.5 2621.6 2635.7 1/28/2013 15:31 2620.4 2620.5 2633.5 1/28/2013 15:41 2618.4 2618.5 2630.6 1/28/2013 15:51 2615.7 2615.8 2627.1 1/28/2013 16:01 2612.2 2612.3 2622.9 1/28/2013 16:11 2608.0 2608.1 2618.1 1/28/2013 16:21 2603.2 2603.2 2612.8 1/28/2013 16:31 2597.7 2597.8 2606.9 1/28/2013 16:41 2591.7 2591.7 2600.6 1/28/2013 16:51 2585.1 2585.2 2593.7 1/28/2013 17:01 2578.0 2578.1 2586.3 1/28/2013 17:11 2570.4 2570.5 2578.4 1/28/2013 17:21 2562.3 2562.4 2570.1 1/28/2013 17:31 2553.8 2553.8 2561.3 1/28/2013 17:41 2544.9 2544.9 2552.3 1/28/2013 17:51 2535.6 2535.6 2542.8 1/28/2013 18:01 2526.0 2526.0 2533.1 1/28/2013 18:11 2516.0 2516.0 2522.9 1/28/2013 18:21 2505.6 2505.6 2512.4 1/28/2013 18:31 2494.9 2494.9 2501.6 1/28/2013 18:41 2483.9 2483.9 2490.6 1/28/2013 18:51 2472.6 2472.6 2479.2 1/28/2013 19:01 2461.1 2461.1 2467.7 1/28/2013 19:11 2449.5 2449.5 2456.0 1/28/2013 19:21 2437.7 2437.7 2444.1 1/28/2013 19:31 2425.8 2425.8 2432.1 1/28/2013 19:41 2413.7 2413.7 2420.0 1/28/2013 19:51 2401.4 2401.5 2407.7 1/28/2013 20:01 2388.9 2388.9 2395.2 1/28/2013 20:11 2376.2 2376.2 2382.4 1/28/2013 20:21 2363.2 2363.3 2369.5 1/28/2013 20:31 2350.3 2350.3 2356.5 1/28/2013 20:41 2336.9 2336.9 2343.0 1/28/2013 20:51 2322.3 2322.4 2328.3 1/28/2013 21:01 2307.3 2307.3 2313.0 1/28/2013 21:11 2291.9 2292.0 2297.5 1/28/2013 21:21 2276.5 2276.6 2281.8 1/28/2013 21:31 2260.7 2260.7 2265.7 1/28/2013 21:41 2244.6 2244.6 2249.3 Page 3 HYDROGRAPH PEAK SWMM Hydrology Results Outfall 916 - 100-yr Existing Conditions Proposed Conditions - Scenario 1 Proposed Conditions - Scenario 2 Date/Time Total inflow Total inflow Total inflow M/d/yyyy cfs cfs cfs 1/28/2013 21:51 2228.3 2228.3 2232.8 1/28/2013 22:01 2211.8 2211.8 2216.1 1/28/2013 22:11 2195.1 2195.2 2199.2 1/28/2013 22:21 2178.2 2178.2 2182.0 1/28/2013 22:31 2161.1 2161.1 2164.7 1/28/2013 22:41 2143.8 2143.9 2147.3 1/28/2013 22:51 2126.5 2126.5 2129.7 1/28/2013 23:01 2109.1 2109.1 2112.2 1/28/2013 23:11 2091.6 2091.6 2094.5 1/28/2013 23:21 2074.2 2074.1 2076.9 1/28/2013 23:31 2055.7 2055.7 2058.3 1/28/2013 23:41 2034.7 2034.7 2037.2 1/28/2013 23:51 2012.6 2012.6 2014.9 1/29/2013 0:01 1990.0 1990.0 1992.2 1/29/2013 0:11 1966.7 1966.7 1968.8 1/29/2013 0:21 1942.5 1942.6 1944.6 1/29/2013 0:31 1917.9 1917.9 1919.8 1/29/2013 0:41 1892.9 1892.9 1894.7 1/29/2013 0:51 1867.5 1867.5 1869.3 1/29/2013 1:01 1841.8 1841.8 1843.5 1/29/2013 1:11 1816.1 1816.0 1817.6 1/29/2013 1:21 1789.3 1789.3 1790.9 1/29/2013 1:31 1760.5 1760.5 1762.0 1/29/2013 1:41 1730.4 1730.4 1731.8 1/29/2013 1:51 1699.2 1699.2 1700.6 1/29/2013 2:01 1665.8 1665.9 1667.1 1/29/2013 2:11 1631.1 1631.2 1632.4 1/29/2013 2:21 1595.7 1595.7 1596.9 1/29/2013 2:31 1559.7 1559.7 1560.9 1/29/2013 2:41 1523.2 1523.1 1524.2 1/29/2013 2:51 1484.1 1484.2 1485.2 1/29/2013 3:01 1439.3 1439.4 1440.4 1/29/2013 3:11 1389.6 1389.7 1390.7 1/29/2013 3:21 1334.4 1334.4 1335.3 1/29/2013 3:31 1274.2 1274.3 1275.2 1/29/2013 3:41 1203.7 1203.8 1204.7 1/29/2013 3:51 1125.9 1126.0 1126.9 1/29/2013 4:01 1044.8 1044.8 1045.7 1/29/2013 4:11 965.8 965.9 966.7 1/29/2013 4:21 890.3 890.3 891.1 1/29/2013 4:31 820.5 820.5 821.3 1/29/2013 4:41 762.6 762.5 763.2 1/29/2013 4:51 720.8 720.6 721.4 1/29/2013 5:01 693.7 693.5 694.2 Page 4 SWMM Hydrology Results Outfall 916 - 100-yr Existing Conditions Proposed Conditions - Scenario 1 Proposed Conditions - Scenario 2 Date/Time Total inflow Total inflow Total inflow M/d/yyyy cfs cfs cfs 1/29/2013 5:11 677.1 676.9 677.6 1/29/2013 5:21 667.0 666.9 667.6 1/29/2013 5:31 660.6 660.6 661.2 1/29/2013 5:41 656.1 656.0 656.7 1/29/2013 5:51 652.4 652.4 653.0 1/29/2013 6:01 649.3 649.3 649.9 1/29/2013 6:11 646.3 646.3 646.9 1/29/2013 6:21 643.5 643.5 644.1 1/29/2013 6:31 640.7 640.8 641.3 1/29/2013 6:41 638.1 638.1 638.6 1/29/2013 6:51 635.4 635.4 636.0 1/29/2013 7:01 632.8 632.8 633.3 1/29/2013 7:11 630.2 630.2 630.7 1/29/2013 7:21 627.6 627.6 628.2 1/29/2013 7:31 625.1 625.1 625.6 1/29/2013 7:41 622.6 622.6 623.1 1/29/2013 7:51 620.2 620.2 620.7 1/29/2013 8:01 617.8 617.8 618.3 1/29/2013 8:11 615.5 615.5 616.0 1/29/2013 8:21 613.2 613.2 613.7 1/29/2013 8:31 610.9 610.9 611.4 1/29/2013 8:41 608.7 608.7 609.2 1/29/2013 8:51 606.5 606.5 607.0 1/29/2013 9:01 604.4 604.4 604.9 1/29/2013 9:11 602.3 602.3 602.8 1/29/2013 9:21 600.2 600.2 600.7 1/29/2013 9:31 598.1 598.1 598.6 1/29/2013 9:41 596.0 596.0 596.5 1/29/2013 9:51 594.0 594.0 594.4 1/29/2013 10:01 591.9 591.9 592.4 1/29/2013 10:11 589.9 589.9 590.4 1/29/2013 10:21 587.9 587.9 588.4 1/29/2013 10:31 586.0 586.0 586.4 1/29/2013 10:41 584.1 584.1 584.5 1/29/2013 10:51 582.2 582.2 582.6 1/29/2013 11:01 580.3 580.3 580.8 1/29/2013 11:11 578.5 578.5 579.0 1/29/2013 11:21 576.7 576.7 577.1 1/29/2013 11:31 574.9 574.9 575.3 1/29/2013 11:41 573.1 573.1 573.5 1/29/2013 11:51 571.3 571.3 571.8 1/29/2013 12:01 569.5 569.5 570.0 1/29/2013 12:11 567.8 567.8 568.2 1/29/2013 12:21 566.0 566.0 566.5 Page 5 SWMM Hydrology Results Outfall 916 - 100-yr Existing Conditions Proposed Conditions - Scenario 1 Proposed Conditions - Scenario 2 Date/Time Total inflow Total inflow Total inflow M/d/yyyy cfs cfs cfs 1/29/2013 12:31 564.3 564.3 564.7 1/29/2013 12:41 562.6 562.6 563.0 1/29/2013 12:51 560.9 560.9 561.3 1/29/2013 13:01 559.2 559.2 559.6 1/29/2013 13:11 557.5 557.5 558.0 1/29/2013 13:21 555.9 555.9 556.3 1/29/2013 13:31 554.2 554.2 554.7 1/29/2013 13:41 552.6 552.6 553.1 1/29/2013 13:51 551.1 551.1 551.5 1/29/2013 14:01 549.6 549.6 550.0 1/29/2013 14:11 548.1 548.1 548.6 1/29/2013 14:21 546.8 546.8 547.2 1/29/2013 14:31 545.6 545.6 546.0 1/29/2013 14:41 544.5 544.5 544.9 1/29/2013 14:51 543.5 543.5 543.9 1/29/2013 15:01 542.6 542.6 543.0 1/29/2013 15:11 541.8 541.8 542.2 1/29/2013 15:21 541.0 541.0 541.4 1/29/2013 15:31 540.4 540.4 540.8 1/29/2013 15:41 539.8 539.8 540.2 1/29/2013 15:51 539.2 539.2 539.6 1/29/2013 16:01 538.7 538.7 539.1 1/29/2013 16:11 538.2 538.2 538.6 1/29/2013 16:21 537.8 537.8 538.2 1/29/2013 16:31 537.3 537.3 537.7 1/29/2013 16:41 536.9 536.9 537.3 1/29/2013 16:51 536.5 536.5 536.9 1/29/2013 17:01 536.1 536.1 536.5 1/29/2013 17:11 535.7 535.7 536.1 1/29/2013 17:21 535.3 535.3 535.7 1/29/2013 17:31 534.9 534.9 535.3 1/29/2013 17:41 534.5 534.5 534.8 1/29/2013 17:51 534.0 534.1 534.4 1/29/2013 18:01 533.6 533.6 534.0 1/29/2013 18:11 533.2 533.2 533.6 1/29/2013 18:21 532.8 532.8 533.2 1/29/2013 18:31 532.4 532.4 532.8 1/29/2013 18:41 532.0 532.0 532.4 1/29/2013 18:51 531.6 531.6 532.0 1/29/2013 19:01 531.2 531.2 531.6 1/29/2013 19:11 530.8 530.8 531.2 1/29/2013 19:21 530.4 530.4 530.8 1/29/2013 19:31 530.0 530.0 530.4 1/29/2013 19:41 529.6 529.6 530.0 Page 6 SWMM Hydrology Results Outfall 916 - 100-yr Existing Conditions Proposed Conditions - Scenario 1 Proposed Conditions - Scenario 2 Date/Time Total inflow Total inflow Total inflow M/d/yyyy cfs cfs cfs 1/29/2013 19:51 529.2 529.2 529.6 1/29/2013 20:01 528.8 528.8 529.2 1/29/2013 20:11 528.4 528.4 528.8 1/29/2013 20:21 528.0 528.0 528.3 1/29/2013 20:31 527.6 527.6 527.9 1/29/2013 20:41 527.2 527.2 527.5 1/29/2013 20:51 526.8 526.8 527.1 1/29/2013 21:01 526.4 526.4 526.7 1/29/2013 21:11 526.0 526.0 526.4 1/29/2013 21:21 525.6 525.6 526.0 1/29/2013 21:31 525.3 525.3 525.6 1/29/2013 21:41 525.0 525.0 525.3 1/29/2013 21:51 524.7 524.7 525.0 1/29/2013 22:01 524.4 524.4 524.7 1/29/2013 22:11 524.1 524.1 524.4 1/29/2013 22:21 523.9 523.9 524.2 1/29/2013 22:31 523.6 523.6 523.9 1/29/2013 22:41 523.4 523.4 523.7 1/29/2013 22:51 523.1 523.1 523.5 1/29/2013 23:01 522.9 522.9 523.2 1/29/2013 23:11 522.7 522.7 523.0 1/29/2013 23:21 522.5 522.5 522.8 1/29/2013 23:31 522.2 522.2 522.6 1/29/2013 23:41 522.0 522.0 522.3 1/29/2013 23:51 521.8 521.8 522.1 1/30/2013 0:01 521.6 521.6 521.9 1/30/2013 0:11 521.3 521.3 521.7 1/30/2013 0:21 521.1 521.1 521.4 1/30/2013 0:31 520.9 520.9 521.2 1/30/2013 0:41 520.7 520.7 521.0 1/30/2013 0:51 520.5 520.5 520.8 1/30/2013 1:01 520.2 520.2 520.6 1/30/2013 1:11 520.0 520.0 520.3 1/30/2013 1:21 519.8 519.8 520.1 1/30/2013 1:31 519.6 519.6 519.9 1/30/2013 1:41 519.4 519.4 519.7 1/30/2013 1:51 519.1 519.1 519.5 1/30/2013 2:01 518.9 518.9 519.2 1/30/2013 2:11 518.7 518.7 519.0 1/30/2013 2:21 518.5 518.5 518.8 1/30/2013 2:31 518.2 518.2 518.5 1/30/2013 2:41 518.0 518.0 518.3 1/30/2013 2:51 517.7 517.7 518.0 1/30/2013 3:01 517.5 517.5 517.8 Page 7 SWMM Hydrology Results Outfall 916 - 100-yr Existing Conditions Proposed Conditions - Scenario 1 Proposed Conditions - Scenario 2 Date/Time Total inflow Total inflow Total inflow M/d/yyyy cfs cfs cfs 1/30/2013 3:11 517.2 517.2 517.5 1/30/2013 3:21 517.0 517.0 517.3 1/30/2013 3:31 516.7 516.7 517.0 1/30/2013 3:41 516.4 516.4 516.7 1/30/2013 3:51 516.1 516.1 516.4 1/30/2013 4:01 515.9 515.9 516.1 1/30/2013 4:11 515.6 515.6 515.8 1/30/2013 4:21 515.3 515.3 515.5 1/30/2013 4:31 514.9 514.9 515.2 1/30/2013 4:41 514.6 514.6 514.9 1/30/2013 4:51 514.3 514.3 514.6 1/30/2013 5:01 513.9 513.9 514.2 1/30/2013 5:11 513.6 513.6 513.9 1/30/2013 5:21 513.2 513.2 513.5 1/30/2013 5:31 512.8 512.8 513.1 1/30/2013 5:41 512.4 512.4 512.7 1/30/2013 5:51 512.0 512.0 512.3 Page 8 Appendix D Boxelder Creek HEC-RAS Model Results HEC-RAS River: Boxelder Creek Reach: Boxelder1 Profile: AB 100yr Reach River Sta Profile Plan Q Total Min Ch El W.S. Elev Crit W.S. E.G. Elev E.G. Slope Vel Chnl Flow Area Top Width Froude # Chl (cfs) (ft) (ft) (ft) (ft) (ft/ft) (ft/s) (sq ft) (ft) Boxelder1 39786 AB 100yr Asbuilt Proj 6509.00 5002.44 5012.84 5012.86 0.000096 1.87 5385.75 821.28 0.11 Boxelder1 39786 AB 100yr Prop 2024 6509.00 5002.44 5012.84 5012.86 0.000096 1.87 5385.75 821.28 0.11 Boxelder1 39786 AB 100yr PC 2024 BTP 6509.00 5002.44 5012.84 5012.86 0.000096 1.87 5385.75 821.28 0.11 Boxelder1 39211 BN AB 100yr Asbuilt Proj 6646.00 4998.00 5012.82 5012.83 0.000026 1.19 9024.66 1015.15 0.06 Boxelder1 39211 BN AB 100yr Prop 2024 6646.00 4998.00 5012.82 5012.83 0.000026 1.19 9024.66 1015.15 0.06 Boxelder1 39211 BN AB 100yr PC 2024 BTP 6646.00 4998.00 5012.82 5012.83 0.000026 1.19 9024.66 1015.15 0.06 Boxelder1 38737 BM AB 100yr Asbuilt Proj 6646.00 4998.00 5012.82 5012.83 0.000006 0.57 15413.07 1156.43 0.03 Boxelder1 38737 BM AB 100yr Prop 2024 6646.00 4998.00 5012.82 5012.83 0.000006 0.57 15413.07 1156.43 0.03 Boxelder1 38737 BM AB 100yr PC 2024 BTP 6646.00 4998.00 5012.82 5012.83 0.000006 0.57 15413.07 1156.43 0.03 Boxelder1 38300 BL AB 100yr Asbuilt Proj 6646.00 4996.00 5012.82 5012.82 0.000004 0.54 17595.97 1271.53 0.02 Boxelder1 38300 BL AB 100yr Prop 2024 6646.00 4996.00 5012.82 5012.82 0.000004 0.54 17595.97 1271.53 0.02 Boxelder1 38300 BL AB 100yr PC 2024 BTP 6646.00 4996.00 5012.82 5012.82 0.000004 0.54 17595.97 1271.53 0.02 Boxelder1 37794 AB 100yr Asbuilt Proj 6646.00 4995.99 5012.82 5012.82 0.000005 0.62 15472.39 1072.30 0.03 Boxelder1 37794 AB 100yr Prop 2024 6646.00 4995.99 5012.82 5012.82 0.000005 0.62 15472.39 1072.30 0.03 Boxelder1 37794 AB 100yr PC 2024 BTP 6646.00 4995.99 5012.82 5012.82 0.000005 0.62 15472.39 1072.30 0.03 Boxelder1 37271 BK AB 100yr Asbuilt Proj 6646.00 4993.95 5012.82 5012.82 0.000007 0.77 12581.93 1301.37 0.03 Boxelder1 37271 BK AB 100yr Prop 2024 6646.00 4993.95 5012.82 5012.82 0.000007 0.77 12581.93 1301.37 0.03 Boxelder1 37271 BK AB 100yr PC 2024 BTP 6646.00 4993.95 5012.82 5012.82 0.000007 0.77 12581.93 1301.37 0.03 Boxelder1 37227 BJ AB 100yr Asbuilt Proj 6646.00 4990.00 5012.81 5012.82 0.000009 0.86 11934.94 1283.29 0.03 Boxelder1 37227 BJ AB 100yr Prop 2024 6646.00 4990.00 5012.81 5012.82 0.000009 0.86 11934.94 1283.29 0.03 Boxelder1 37227 BJ AB 100yr PC 2024 BTP 6646.00 4990.00 5012.81 5012.82 0.000009 0.86 11934.94 1283.29 0.03 Boxelder1 36879 BI AB 100yr Asbuilt Proj 6646.00 4990.00 5012.81 5012.82 0.000010 1.00 10546.21 1216.13 0.04 Boxelder1 36879 BI AB 100yr Prop 2024 6646.00 4990.00 5012.81 5012.82 0.000010 1.00 10546.21 1216.13 0.04 Boxelder1 36879 BI AB 100yr PC 2024 BTP 6646.00 4990.00 5012.81 5012.82 0.000010 1.00 10546.21 1216.13 0.04 Boxelder1 36491 AB 100yr Asbuilt Proj 6646.00 4988.00 5012.81 5012.81 0.000006 0.82 13639.79 1507.30 0.03 Boxelder1 36491 AB 100yr Prop 2024 6646.00 4988.00 5012.81 5012.81 0.000006 0.82 13639.79 1507.30 0.03 Boxelder1 36491 AB 100yr PC 2024 BTP 6646.00 4988.00 5012.81 5012.81 0.000006 0.82 13639.79 1507.30 0.03 Boxelder1 36303 BH AB 100yr Asbuilt Proj 6646.00 4988.00 5012.81 5012.81 0.000005 0.72 15403.60 1708.97 0.03 Boxelder1 36303 BH AB 100yr Prop 2024 6646.00 4988.00 5012.81 5012.81 0.000005 0.72 15403.60 1708.97 0.03 Boxelder1 36303 BH AB 100yr PC 2024 BTP 6646.00 4988.00 5012.81 5012.81 0.000005 0.72 15403.60 1708.97 0.03 Boxelder1 36166 AB 100yr Asbuilt Proj 2622.00 4987.69 5012.81 5012.81 0.000001 0.27 16769.02 1508.38 0.01 Boxelder1 36166 AB 100yr Prop 2024 2622.00 4987.69 5012.81 5012.81 0.000001 0.27 16769.02 1508.38 0.01 Boxelder1 36166 AB 100yr PC 2024 BTP 2622.00 4987.69 5012.81 5012.81 0.000001 0.27 16769.02 1508.38 0.01 Boxelder1 35765 Culvert Boxelder1 35676 AB 100yr Asbuilt Proj 2622.00 4978.00 4990.84 4983.60 4991.37 0.000628 5.83 449.45 512.68 0.29 Boxelder1 35676 AB 100yr Prop 2024 2622.00 4978.00 4990.84 4983.60 4991.37 0.000628 5.83 449.45 512.68 0.29 Boxelder1 35676 AB 100yr PC 2024 BTP 2622.00 4978.00 4990.84 4983.60 4991.37 0.000628 5.83 449.45 512.68 0.29 Boxelder1 35500 BE AB 100yr Asbuilt Proj 2622.00 4984.79 4990.80 4991.04 0.003432 5.84 855.36 530.56 0.53 Boxelder1 35500 BE AB 100yr Prop 2024 2622.00 4984.79 4990.80 4991.04 0.003432 5.84 855.36 530.56 0.53 Boxelder1 35500 BE AB 100yr PC 2024 BTP 2622.00 4984.79 4990.80 4991.04 0.003432 5.84 855.36 530.56 0.53 Boxelder1 35252 AB 100yr Asbuilt Proj 2622.00 4984.05 4990.22 4990.41 0.002268 4.97 941.57 483.19 0.44 Boxelder1 35252 AB 100yr Prop 2024 2622.00 4984.05 4990.22 4990.41 0.002268 4.97 941.57 483.19 0.44 Boxelder1 35252 AB 100yr PC 2024 BTP 2622.00 4984.05 4990.22 4990.41 0.002268 4.97 941.57 483.19 0.44 Boxelder1 35000 AB 100yr Asbuilt Proj 2622.00 4983.80 4989.88 4989.97 0.001189 3.69 1183.57 489.12 0.32 Boxelder1 35000 AB 100yr Prop 2024 2622.00 4983.80 4989.88 4989.97 0.001189 3.69 1183.57 489.12 0.32 Boxelder1 35000 AB 100yr PC 2024 BTP 2622.00 4983.80 4989.88 4989.97 0.001189 3.69 1183.57 489.12 0.32 Boxelder1 34753 AB 100yr Asbuilt Proj 2622.00 4982.09 4989.67 4989.75 0.000852 3.31 1235.78 428.46 0.27 Boxelder1 34753 AB 100yr Prop 2024 2622.00 4982.09 4989.67 4989.75 0.000852 3.31 1235.78 428.46 0.27 Boxelder1 34753 AB 100yr PC 2024 BTP 2622.00 4982.09 4989.67 4989.75 0.000852 3.31 1235.78 428.46 0.27 Boxelder1 34400 AB 100yr Asbuilt Proj 2622.00 4981.40 4989.08 4989.32 0.002025 5.65 912.34 418.78 0.43 Boxelder1 34400 AB 100yr Prop 2024 2622.00 4981.40 4989.08 4989.32 0.002025 5.65 912.34 418.78 0.43 Boxelder1 34400 AB 100yr PC 2024 BTP 2622.00 4981.40 4989.08 4989.32 0.002025 5.65 912.34 418.78 0.43 Boxelder1 34112 AB 100yr Asbuilt Proj 2622.00 4980.55 4988.29 4988.63 0.002654 6.18 700.69 308.26 0.49 Boxelder1 34112 AB 100yr Prop 2024 2622.00 4980.55 4988.29 4988.63 0.002654 6.18 700.69 308.26 0.49 Boxelder1 34112 AB 100yr PC 2024 BTP 2622.00 4980.55 4988.29 4988.63 0.002654 6.18 700.69 308.26 0.49 Boxelder1 33900 BD AB 100yr Asbuilt Proj 2622.00 4979.66 4987.50 4987.98 0.003595 7.21 645.81 336.91 0.56 Boxelder1 33900 BD AB 100yr Prop 2024 2622.00 4979.66 4987.50 4987.98 0.003595 7.21 645.81 336.91 0.56 Boxelder1 33900 BD AB 100yr PC 2024 BTP 2622.00 4979.66 4987.50 4987.98 0.003595 7.21 645.81 336.91 0.56 Boxelder1 33720 AB 100yr Asbuilt Proj 2622.00 4979.46 4986.98 4987.33 0.003028 6.15 712.07 336.66 0.51 Boxelder1 33720 AB 100yr Prop 2024 2622.00 4979.46 4986.98 4987.33 0.003028 6.15 712.07 336.66 0.51 Boxelder1 33720 AB 100yr PC 2024 BTP 2622.00 4979.46 4986.98 4987.33 0.003028 6.15 712.07 336.66 0.51 Boxelder1 33400 BC AB 100yr Asbuilt Proj 2622.00 4979.31 4985.37 4985.24 4986.01 0.007226 8.54 557.40 360.40 0.78 Boxelder1 33400 BC AB 100yr Prop 2024 2622.00 4979.31 4985.37 4985.24 4986.01 0.007226 8.54 557.40 360.40 0.78 Boxelder1 33400 BC AB 100yr PC 2024 BTP 2622.00 4979.31 4985.37 4985.24 4986.01 0.007226 8.54 557.40 360.40 0.78 Boxelder1 33198 AB 100yr Asbuilt Proj 2622.00 4978.75 4983.19 4983.19 4983.89 0.017207 9.49 433.88 321.32 1.09 Boxelder1 33198 AB 100yr Prop 2024 2622.00 4978.75 4983.19 4983.19 4983.89 0.017207 9.49 433.88 321.32 1.09 Boxelder1 33198 AB 100yr PC 2024 BTP 2622.00 4978.75 4983.19 4983.19 4983.89 0.017207 9.49 433.88 321.32 1.09 HEC-RAS River: Boxelder Creek Reach: Boxelder1 Profile: AB 100yr (Continued) Reach River Sta Profile Plan Q Total Min Ch El W.S. Elev Crit W.S. E.G. Elev E.G. Slope Vel Chnl Flow Area Top Width Froude # Chl (cfs) (ft) (ft) (ft) (ft) (ft/ft) (ft/s) (sq ft) (ft) Boxelder1 32894 AB 100yr Asbuilt Proj 2622.00 4978.09 4981.88 4982.00 0.001413 2.68 960.71 375.65 0.30 Boxelder1 32894 AB 100yr Prop 2024 2622.00 4978.09 4981.88 4982.00 0.001413 2.68 960.71 375.65 0.30 Boxelder1 32894 AB 100yr PC 2024 BTP 2622.00 4978.09 4981.88 4982.00 0.001413 2.68 960.71 375.65 0.30 Boxelder1 32700 BB AB 100yr Asbuilt Proj 2622.00 4977.96 4981.87 4981.95 0.001034 2.34 1120.93 369.64 0.27 Boxelder1 32700 BB AB 100yr Prop 2024 2622.00 4977.96 4981.87 4981.95 0.001034 2.34 1120.93 369.64 0.27 Boxelder1 32700 BB AB 100yr PC 2024 BTP 2622.00 4977.96 4981.87 4981.95 0.001034 2.34 1120.93 369.64 0.27 Boxelder1 32478 AB 100yr Asbuilt Proj 2622.00 4975.80 4981.51 4981.69 0.002135 4.20 790.74 304.16 0.41 Boxelder1 32478 AB 100yr Prop 2024 2622.00 4975.80 4981.51 4981.69 0.002135 4.20 790.74 304.16 0.41 Boxelder1 32478 AB 100yr PC 2024 BTP 2622.00 4975.80 4981.51 4981.69 0.002135 4.20 790.74 304.16 0.41 Boxelder1 32200 AB 100yr Asbuilt Proj 2622.00 4973.89 4980.92 4981.12 0.002135 5.12 893.07 436.90 0.43 Boxelder1 32200 AB 100yr Prop 2024 2622.00 4973.89 4980.92 4981.12 0.002134 5.12 893.28 436.92 0.43 Boxelder1 32200 AB 100yr PC 2024 BTP 2622.00 4973.89 4980.92 4981.12 0.002135 5.12 893.07 436.90 0.43 Boxelder1 31934 AB 100yr Asbuilt Proj 2622.00 4972.99 4980.31 4980.55 0.002367 5.70 846.90 413.35 0.46 Boxelder1 31934 AB 100yr Prop 2024 2622.00 4972.99 4980.31 4980.55 0.002362 5.69 847.67 413.45 0.45 Boxelder1 31934 AB 100yr PC 2024 BTP 2622.00 4972.99 4980.31 4980.55 0.002367 5.70 846.90 413.35 0.46 Boxelder1 31700 BA AB 100yr Asbuilt Proj 2622.00 4972.34 4979.86 4980.08 0.001848 5.08 914.66 479.56 0.41 Boxelder1 31700 BA AB 100yr Prop 2024 2622.00 4972.34 4979.87 4980.08 0.001837 5.07 916.92 479.94 0.41 Boxelder1 31700 BA AB 100yr PC 2024 BTP 2622.00 4972.34 4979.86 4980.08 0.001848 5.08 914.66 479.56 0.41 Boxelder1 31224 AB 100yr Asbuilt Proj 2622.00 4971.03 4978.57 4978.23 4978.89 0.003065 6.73 824.93 562.89 0.51 Boxelder1 31224 AB 100yr Prop 2024 2638.00 4971.03 4978.57 4978.24 4978.90 0.003070 6.74 828.69 563.73 0.51 Boxelder1 31224 AB 100yr PC 2024 BTP 2622.00 4971.03 4978.57 4978.23 4978.89 0.003065 6.73 824.93 562.89 0.51 Boxelder1 31117 AZ AB 100yr Asbuilt Proj 2622.00 4976.44 4977.69 4977.69 4978.23 0.017688 6.44 447.54 424.93 1.03 Boxelder1 31117 AZ AB 100yr Prop 2024 2638.00 4976.44 4977.69 4977.69 4978.23 0.017660 6.45 449.61 425.49 1.03 Boxelder1 31117 AZ AB 100yr PC 2024 BTP 2622.00 4976.44 4977.69 4977.69 4978.23 0.017688 6.44 447.54 424.93 1.03 HEC-RAS Profile: AB 100yr Reach River Sta Profile Plan Q Total Min Ch El W.S. Elev Crit W.S. E.G. Elev E.G. Slope Vel Chnl Flow Area Top Width Froude # Chl (cfs) (ft) (ft) (ft) (ft) (ft/ft) (ft/s) (sq ft) (ft) Reach 1 31043 AY AB 100yr AB Project 2511.00 4975.72 4976.84 4976.46 4976.93 0.003728 2.42 1036.96 1148.35 0.45 Reach 1 31043 AY AB 100yr PC 2024 2527.00 4975.72 4976.84 4976.47 4976.94 0.003695 2.42 1043.69 1148.52 0.45 Reach 1 31043 AY AB 100yr PC_BTP 2511.00 4975.72 4976.84 4976.46 4976.93 0.003728 2.42 1036.96 1148.35 0.45 Reach 1 30000 AB 100yr AB Project 2511.00 4967.69 4974.63 4972.61 4974.87 0.001856 6.00 935.97 450.46 0.43 Reach 1 30000 AB 100yr PC 2024 2527.00 4967.69 4974.64 4972.61 4974.88 0.001867 6.02 938.39 450.62 0.43 Reach 1 30000 AB 100yr PC_BTP 2511.00 4967.69 4974.63 4972.61 4974.87 0.001856 6.00 935.97 450.46 0.43 Reach 1 29781 AB 100yr AB Project 2511.00 4967.09 4973.53 4972.62 4974.28 0.004234 8.49 642.99 486.31 0.64 Reach 1 29781 AB 100yr PC 2024 2527.00 4967.09 4973.54 4972.73 4974.29 0.004212 8.48 648.69 486.47 0.64 Reach 1 29781 AB 100yr PC_BTP 2511.00 4967.09 4973.53 4972.62 4974.28 0.004234 8.49 642.99 486.31 0.64 Reach 1 29609 AX AB 100yr AB Project 2511.00 4966.26 4973.29 4972.41 4973.67 0.002503 6.29 832.04 518.66 0.49 Reach 1 29609 AX AB 100yr PC 2024 2527.00 4966.26 4973.31 4972.38 4973.68 0.002481 6.27 839.90 520.32 0.48 Reach 1 29609 AX AB 100yr PC_BTP 2511.00 4966.26 4973.29 4972.41 4973.67 0.002503 6.29 832.04 518.66 0.49 Reach 1 29351 AW AB 100yr AB Project 2511.00 4965.82 4972.81 4971.64 4973.17 0.002342 5.37 747.30 497.12 0.46 Reach 1 29351 AW AB 100yr PC 2024 2527.00 4965.82 4972.84 4971.65 4973.19 0.002304 5.34 759.22 498.26 0.45 Reach 1 29351 AW AB 100yr PC_BTP 2511.00 4965.82 4972.81 4971.64 4973.17 0.002342 5.37 747.30 497.12 0.46 Reach 1 28984 AB 100yr AB Project 2511.00 4965.08 4972.23 4970.56 4972.51 0.001493 4.86 809.59 348.46 0.38 Reach 1 28984 AB 100yr PC 2024 2527.00 4965.08 4972.27 4970.58 4972.54 0.001462 4.83 822.23 351.58 0.37 Reach 1 28984 AB 100yr PC_BTP 2511.00 4965.08 4972.23 4970.56 4972.51 0.001493 4.86 809.59 348.46 0.38 Reach 1 28856 AV AB 100yr AB Project 2511.00 4964.88 4971.96 4970.16 4972.29 0.002079 6.03 788.43 335.32 0.45 Reach 1 28856 AV AB 100yr PC 2024 2527.00 4964.88 4972.01 4970.16 4972.33 0.002005 5.96 804.87 338.22 0.44 Reach 1 28856 AV AB 100yr PC_BTP 2511.00 4964.88 4971.96 4970.16 4972.29 0.002079 6.03 788.43 335.32 0.45 Reach 1 28691 AB 100yr AB Project 2511.00 4964.58 4971.94 4968.61 4972.04 0.000557 3.46 1303.68 499.18 0.24 Reach 1 28691 AB 100yr PC 2024 2527.00 4964.58 4971.98 4968.60 4972.09 0.000540 3.42 1328.57 500.47 0.24 Reach 1 28691 AB 100yr PC_BTP 2511.00 4964.58 4971.94 4968.61 4972.04 0.000557 3.46 1303.68 499.18 0.24 Reach 1 28577 AB 100yr AB Project 2511.00 4963.92 4971.90 4968.36 4971.97 0.000395 2.78 1636.82 602.15 0.20 Reach 1 28577 AB 100yr PC 2024 2527.00 4963.92 4971.95 4968.36 4972.02 0.000386 2.76 1667.62 613.52 0.20 Reach 1 28577 AB 100yr PC_BTP 2511.00 4963.92 4971.90 4968.36 4971.97 0.000395 2.78 1636.82 602.15 0.20 Reach 1 28436 AU AB 100yr AB Project 2511.00 4963.11 4971.85 4969.61 4971.90 0.000508 3.13 1886.34 772.37 0.21 Reach 1 28436 AU AB 100yr PC 2024 2527.00 4963.11 4971.90 4969.60 4971.95 0.000483 3.07 1927.48 773.94 0.21 Reach 1 28436 AU AB 100yr PC_BTP 2511.00 4963.11 4971.85 4969.61 4971.90 0.000508 3.13 1886.34 772.37 0.21 Reach 1 28405 Culvert Reach 1 28373 AT AB 100yr AB Project 2511.00 4960.95 4969.71 4967.65 4969.91 0.000980 4.96 1095.66 707.27 0.32 Reach 1 28373 AT AB 100yr PC 2024 2527.00 4960.95 4969.73 4967.60 4969.93 0.000982 4.97 1108.14 711.88 0.32 Reach 1 28373 AT AB 100yr PC_BTP 2511.00 4960.95 4969.71 4967.65 4969.91 0.000980 4.96 1095.66 707.27 0.32 Reach 1 28147 AB 100yr AB Project 2511.00 4960.91 4969.20 4967.50 4969.63 0.002506 7.38 687.06 469.42 0.50 Reach 1 28147 AB 100yr PC 2024 2527.00 4960.91 4969.22 4967.50 4969.64 0.002502 7.39 696.27 498.11 0.50 Reach 1 28147 AB 100yr PC_BTP 2511.00 4960.91 4969.20 4967.50 4969.63 0.002506 7.38 687.06 469.42 0.50 Reach 1 27734 AB 100yr AB Project 2511.00 4959.46 4968.63 4966.22 4969.03 0.001497 5.39 557.16 134.39 0.39 Reach 1 27734 AB 100yr PC 2024 2527.00 4959.46 4968.65 4966.24 4969.05 0.001499 5.40 559.66 134.64 0.39 Reach 1 27734 AB 100yr PC_BTP 2511.00 4959.46 4968.63 4966.22 4969.03 0.001497 5.39 557.16 134.39 0.39 Reach 1 27304 AS AB 100yr AB Project 2511.00 4957.83 4967.34 4966.09 4968.06 0.003074 7.37 464.22 162.00 0.54 Reach 1 27304 AS AB 100yr PC 2024 2527.00 4957.83 4967.38 4966.01 4968.10 0.003009 7.33 471.21 163.44 0.53 Reach 1 27304 AS AB 100yr PC_BTP 2511.00 4957.83 4967.34 4966.09 4968.06 0.003074 7.37 464.22 162.00 0.54 Reach 1 27277 Culvert Reach 1 27250 AB 100yr AB Project 2511.00 4958.01 4965.90 4965.90 4967.12 0.006689 11.09 390.00 139.51 0.78 Reach 1 27250 AB 100yr PC 2024 2527.00 4958.01 4965.90 4965.90 4967.13 0.006745 11.14 390.68 139.56 0.78 Reach 1 27250 AB 100yr PC_BTP 2511.00 4958.01 4965.90 4965.90 4967.12 0.006689 11.09 390.00 139.51 0.78 Reach 1 27006 AB 100yr AB Project 2511.00 4957.23 4964.96 4964.41 4965.62 0.003716 8.06 542.33 218.91 0.59 Reach 1 27006 AB 100yr PC 2024 2527.00 4957.23 4964.97 4964.39 4965.64 0.003706 8.06 545.86 219.34 0.59 Reach 1 27006 AB 100yr PC_BTP 2511.00 4957.23 4964.96 4964.41 4965.62 0.003716 8.06 542.33 218.91 0.59 Reach 1 26814 AB 100yr AB Project 2511.00 4956.46 4964.84 4963.66 4965.13 0.001843 5.91 802.59 288.11 0.41 Reach 1 26814 AB 100yr PC 2024 2527.00 4956.46 4964.86 4963.73 4965.15 0.001837 5.91 807.66 288.72 0.41 Reach 1 26814 AB 100yr PC_BTP 2511.00 4956.46 4964.84 4963.66 4965.13 0.001843 5.91 802.59 288.11 0.41 Reach 1 26430 AR AB 100yr AB Project 2511.00 4955.93 4964.28 4962.80 4964.62 0.001635 5.99 720.92 208.32 0.40 Reach 1 26430 AR AB 100yr PC 2024 2527.00 4955.93 4964.30 4962.81 4964.63 0.001632 6.00 724.89 208.57 0.40 Reach 1 26430 AR AB 100yr PC_BTP 2511.00 4955.93 4964.28 4962.80 4964.62 0.001635 5.99 720.92 208.32 0.40 Reach 1 25898 AB 100yr AB Project 2511.00 4953.49 4963.20 4961.59 4963.78 0.002086 6.90 524.97 141.62 0.45 Reach 1 25898 AB 100yr PC 2024 2527.00 4953.49 4963.22 4961.60 4963.80 0.002085 6.91 527.87 141.86 0.45 Reach 1 25898 AB 100yr PC_BTP 2511.00 4953.49 4963.20 4961.59 4963.78 0.002086 6.90 524.97 141.62 0.45 Reach 1 25605 AQ AB 100yr AB Project 2511.00 4949.98 4962.67 4961.13 4963.15 0.002119 7.22 711.48 284.66 0.42 Reach 1 25605 AQ AB 100yr PC 2024 2527.00 4949.98 4962.70 4961.15 4963.18 0.002084 7.18 720.66 285.27 0.42 Reach 1 25605 AQ AB 100yr PC_BTP 2511.00 4949.98 4962.67 4961.13 4963.15 0.002119 7.22 711.48 284.66 0.42 Reach 1 25366 AB 100yr AB Project 2511.00 4949.67 4960.07 4960.07 4962.14 0.008458 12.38 283.02 135.46 0.82 Reach 1 25366 AB 100yr PC 2024 2527.00 4949.67 4960.07 4960.07 4962.17 0.008566 12.46 283.02 135.46 0.83 Reach 1 25366 AB 100yr PC_BTP 2511.00 4949.67 4960.07 4960.07 4962.14 0.008458 12.38 283.02 135.46 0.82 HEC-RAS Profile: AB 100yr (Continued) Reach River Sta Profile Plan Q Total Min Ch El W.S. Elev Crit W.S. E.G. Elev E.G. Slope Vel Chnl Flow Area Top Width Froude # Chl (cfs) (ft) (ft) (ft) (ft) (ft/ft) (ft/s) (sq ft) (ft) Reach 1 24907 AP AB 100yr AB Project 2511.00 4947.15 4959.06 4955.74 4959.77 0.001730 7.38 491.53 152.35 0.42 Reach 1 24907 AP AB 100yr PC 2024 2527.00 4947.15 4959.08 4955.74 4959.79 0.001740 7.41 493.54 152.51 0.42 Reach 1 24907 AP AB 100yr PC_BTP 2511.00 4947.15 4959.06 4955.74 4959.77 0.001730 7.38 491.53 152.35 0.42 Reach 1 24703 AB 100yr AB Project 2511.00 4946.72 4958.12 4958.12 4959.18 0.005185 9.37 429.48 189.83 0.62 Reach 1 24703 AB 100yr PC 2024 2527.00 4946.72 4958.13 4958.13 4959.20 0.005223 9.41 430.59 189.87 0.63 Reach 1 24703 AB 100yr PC_BTP 2511.00 4946.72 4958.12 4958.12 4959.18 0.005185 9.37 429.48 189.83 0.62 Reach 1 24412 AO AB 100yr AB Project 2511.00 4946.08 4952.60 4950.00 4952.66 0.000411 2.67 1794.41 928.44 0.20 Reach 1 24412 AO AB 100yr PC 2024 2527.00 4946.08 4952.62 4950.01 4952.68 0.000405 2.65 1813.35 931.57 0.20 Reach 1 24412 AO AB 100yr PC_BTP 2511.00 4946.08 4952.60 4950.00 4952.66 0.000411 2.67 1794.41 928.44 0.20 Reach 1 23987 AN AB 100yr AB Project 2511.00 4943.96 4952.58 4947.69 4952.60 0.000064 1.28 3299.14 992.09 0.08 Reach 1 23987 AN AB 100yr PC 2024 2527.00 4943.96 4952.61 4947.73 4952.62 0.000064 1.28 3318.17 995.30 0.08 Reach 1 23987 AN AB 100yr PC_BTP 2511.00 4943.96 4952.58 4947.69 4952.60 0.000064 1.28 3299.14 992.09 0.08 Reach 1 23647 AB 100yr AB Project 2511.00 4941.78 4952.56 4946.60 4952.58 0.000054 1.25 3038.95 894.41 0.08 Reach 1 23647 AB 100yr PC 2024 2527.00 4941.78 4952.59 4946.61 4952.60 0.000054 1.25 3053.41 907.88 0.08 Reach 1 23647 AB 100yr PC_BTP 2511.00 4941.78 4952.56 4946.60 4952.58 0.000054 1.25 3038.95 894.41 0.08 Reach 1 23235 AM AB 100yr AB Project 2615.00 4942.17 4952.49 4946.91 4952.54 0.000133 2.18 1651.03 1046.64 0.13 Reach 1 23235 AM AB 100yr PC 2024 2631.00 4942.17 4952.51 4946.93 4952.56 0.000134 2.19 1656.39 1047.53 0.13 Reach 1 23235 AM AB 100yr PC_BTP 2615.00 4942.17 4952.49 4946.91 4952.54 0.000133 2.18 1651.03 1046.64 0.13 Reach 1 23040 AB 100yr AB Project 2615.00 4941.57 4949.22 4949.22 4951.73 0.009904 15.30 248.96 51.03 1.02 Reach 1 23040 AB 100yr PC 2024 2631.00 4941.57 4949.27 4949.27 4951.76 0.009727 15.24 251.75 51.25 1.01 Reach 1 23040 AB 100yr PC_BTP 2615.00 4941.57 4949.22 4949.22 4951.73 0.009904 15.30 248.96 51.03 1.02 Reach 1 22783 AB 100yr AB Project 2615.00 4941.21 4946.40 4944.40 4946.62 0.002635 6.13 770.96 264.84 0.49 Reach 1 22783 AB 100yr PC 2024 2631.00 4941.21 4946.42 4944.41 4946.63 0.002633 6.14 774.08 264.96 0.49 Reach 1 22783 AB 100yr PC_BTP 2615.00 4941.21 4946.40 4944.40 4946.62 0.002635 6.13 770.96 264.84 0.49 Reach 1 22462 AB 100yr AB Project 2615.00 4939.16 4945.33 4943.58 4945.72 0.004265 7.97 582.42 144.46 0.61 Reach 1 22462 AB 100yr PC 2024 2631.00 4939.16 4945.34 4943.59 4945.74 0.004270 7.99 584.53 144.57 0.61 Reach 1 22462 AB 100yr PC_BTP 2615.00 4939.16 4945.33 4943.58 4945.72 0.004265 7.97 582.42 144.46 0.61 Reach 1 22122 AL AB 100yr AB Project 2615.00 4938.99 4944.76 4942.76 4944.95 0.002588 6.26 838.63 231.75 0.49 Reach 1 22122 AL AB 100yr PC 2024 2631.00 4938.99 4944.78 4942.76 4944.97 0.002583 6.27 842.36 231.84 0.49 Reach 1 22122 AL AB 100yr PC_BTP 2615.00 4938.99 4944.76 4942.76 4944.95 0.002588 6.26 838.63 231.75 0.49 Reach 1 21721 AB 100yr AB Project 2615.00 4938.07 4943.82 4942.06 4944.15 0.003486 7.47 656.61 167.40 0.58 Reach 1 21721 AB 100yr PC 2024 2631.00 4938.07 4943.83 4942.08 4944.17 0.003483 7.49 659.39 167.49 0.58 Reach 1 21721 AB 100yr PC_BTP 2615.00 4938.07 4943.82 4942.06 4944.15 0.003486 7.47 656.61 167.40 0.58 Reach 1 21273 AK AB 100yr AB Project 2615.00 4936.63 4942.97 4940.62 4943.19 0.002306 6.48 773.25 176.74 0.47 Reach 1 21273 AK AB 100yr PC 2024 2631.00 4936.63 4942.99 4940.63 4943.21 0.002308 6.50 776.18 176.90 0.47 Reach 1 21273 AK AB 100yr PC_BTP 2615.00 4936.63 4942.97 4940.62 4943.19 0.002306 6.48 773.25 176.74 0.47 Reach 1 21034 AB 100yr AB Project 2615.00 4936.41 4941.69 4940.69 4942.42 0.006367 9.64 477.43 136.23 0.77 Reach 1 21034 AB 100yr PC 2024 2631.00 4936.41 4941.70 4940.70 4942.44 0.006366 9.66 479.42 136.32 0.77 Reach 1 21034 AB 100yr PC_BTP 2615.00 4936.41 4941.69 4940.69 4942.42 0.006367 9.64 477.43 136.23 0.77 Reach 1 20753 AJ AB 100yr AB Project 2615.00 4935.27 4940.58 4938.97 4940.89 0.005025 7.91 624.60 179.21 0.65 Reach 1 20753 AJ AB 100yr PC 2024 2631.00 4935.27 4940.59 4938.97 4940.91 0.005002 7.91 628.02 179.38 0.65 Reach 1 20753 AJ AB 100yr PC_BTP 2615.00 4935.27 4940.58 4938.97 4940.89 0.005025 7.91 624.60 179.21 0.65 Reach 1 20518 AB 100yr AB Project 2615.00 4934.92 4939.90 4938.00 4940.11 0.003064 5.90 798.17 349.11 0.52 Reach 1 20518 AB 100yr PC 2024 2631.00 4934.92 4939.92 4938.00 4940.13 0.003021 5.89 804.89 349.45 0.51 Reach 1 20518 AB 100yr PC_BTP 2615.00 4934.92 4939.90 4938.00 4940.11 0.003064 5.90 798.17 349.11 0.52 Reach 1 20262 AB 100yr AB Project 2780.00 4934.41 4939.77 4937.23 4939.89 0.000771 3.24 1006.54 410.51 0.27 Reach 1 20262 AB 100yr PC 2024 2796.00 4934.41 4939.80 4937.22 4939.92 0.000760 3.23 1015.31 411.23 0.26 Reach 1 20262 AB 100yr PC_BTP 2780.00 4934.41 4939.77 4937.23 4939.89 0.000771 3.24 1006.54 410.51 0.27 Reach 1 19830 AB 100yr AB Project 2780.00 4933.87 4939.46 4937.08 4939.62 0.001815 5.01 1143.76 550.69 0.41 Reach 1 19830 AB 100yr PC 2024 2796.00 4933.87 4939.50 4937.09 4939.65 0.001764 4.97 1161.35 552.65 0.40 Reach 1 19830 AB 100yr PC_BTP 2780.00 4933.87 4939.46 4937.08 4939.62 0.001815 5.01 1143.76 550.69 0.41 Reach 1 19613 AI AB 100yr AB Project 2780.00 4931.25 4939.08 4937.99 4939.23 0.003224 5.27 1152.29 620.64 0.47 Reach 1 19613 AI AB 100yr PC 2024 2796.00 4931.25 4939.14 4937.98 4939.28 0.002977 5.12 1190.62 625.82 0.45 Reach 1 19613 AI AB 100yr PC_BTP 2780.00 4931.25 4939.08 4937.99 4939.23 0.003224 5.27 1152.29 620.64 0.47 Reach 1 19603 Culvert Reach 1 19593 AB 100yr AB Project 2780.00 4931.22 4939.08 4938.11 4939.23 0.002895 5.36 1220.72 635.41 0.47 Reach 1 19593 AB 100yr PC 2024 2796.00 4931.22 4939.10 4938.11 4939.24 0.002857 5.34 1230.65 635.73 0.46 Reach 1 19593 AB 100yr PC_BTP 2780.00 4931.22 4939.08 4938.11 4939.23 0.002895 5.36 1220.72 635.41 0.47 Reach 1 19233 AB 100yr AB Project 2780.00 4930.62 4938.72 4936.04 4938.87 0.000971 4.74 1324.07 421.91 0.32 Reach 1 19233 AB 100yr PC 2024 2796.00 4930.62 4938.73 4936.04 4938.88 0.000968 4.74 1331.29 423.00 0.32 Reach 1 19233 AB 100yr PC_BTP 2780.00 4930.62 4938.72 4936.04 4938.87 0.000971 4.74 1324.07 421.91 0.32 Reach 1 18944 AB 100yr AB Project 2780.00 4929.24 4937.03 4936.13 4938.07 0.005161 10.83 444.98 133.36 0.72 Reach 1 18944 AB 100yr PC 2024 2796.00 4929.24 4937.05 4936.12 4938.09 0.005166 10.85 446.80 133.45 0.72 Reach 1 18944 AB 100yr PC_BTP 2780.00 4929.24 4937.03 4936.13 4938.07 0.005161 10.83 444.98 133.36 0.72 HEC-RAS Profile: AB 100yr (Continued) Reach River Sta Profile Plan Q Total Min Ch El W.S. Elev Crit W.S. E.G. Elev E.G. Slope Vel Chnl Flow Area Top Width Froude # Chl (cfs) (ft) (ft) (ft) (ft) (ft/ft) (ft/s) (sq ft) (ft) Reach 1 18539 AH AB 100yr AB Project 2780.00 4928.66 4935.07 4934.45 4935.79 0.006442 10.00 481.20 154.33 0.76 Reach 1 18539 AH AB 100yr PC 2024 2796.00 4928.66 4935.08 4934.46 4935.81 0.006448 10.02 483.01 154.48 0.76 Reach 1 18539 AH AB 100yr PC_BTP 2780.00 4928.66 4935.07 4934.45 4935.79 0.006442 10.00 481.20 154.33 0.76 Reach 1 18128 AG AB 100yr AB Project 2780.00 4927.64 4934.20 4932.34 4934.46 0.002194 6.10 837.53 245.56 0.46 Reach 1 18128 AG AB 100yr PC 2024 2796.00 4927.64 4934.21 4932.35 4934.47 0.002199 6.11 840.17 245.71 0.46 Reach 1 18128 AG AB 100yr PC_BTP 2780.00 4927.64 4934.20 4932.34 4934.46 0.002194 6.10 837.53 245.56 0.46 Reach 1 17756 AF AB 100yr AB Project 2780.00 4926.00 4932.08 4931.74 4933.04 0.007917 11.16 437.60 281.13 0.86 Reach 1 17756 AF AB 100yr PC 2024 2796.00 4926.00 4932.11 4931.75 4933.07 0.007758 11.10 442.11 281.64 0.85 Reach 1 17756 AF AB 100yr PC_BTP 2780.00 4926.00 4932.08 4931.74 4933.04 0.007917 11.16 437.60 281.13 0.86 Reach 1 17661 Culvert Reach 1 17566 AB 100yr AB Project 2780.00 4924.44 4930.90 4930.90 4932.44 0.008576 12.22 361.01 247.49 0.90 Reach 1 17566 AB 100yr PC 2024 2796.00 4924.44 4930.95 4930.95 4932.46 0.008280 12.09 366.95 252.12 0.89 Reach 1 17566 AB 100yr PC_BTP 2780.00 4924.44 4930.90 4930.90 4932.44 0.008576 12.22 361.01 247.49 0.90 Reach 2 17159 AB 100yr AB Project 2780.00 4923.19 4930.35 4928.70 4930.53 0.001644 5.58 934.86 279.27 0.39 Reach 2 17159 AB 100yr PC 2024 2796.00 4923.19 4930.36 4928.69 4930.55 0.001642 5.58 938.96 280.08 0.39 Reach 2 17159 AB 100yr PC_BTP 2780.00 4923.19 4930.35 4928.70 4930.53 0.001644 5.58 934.86 279.27 0.39 Reach 2 16631 AE AB 100yr AB Project 2780.00 4921.99 4929.63 4927.78 4929.85 0.001706 5.86 894.25 259.11 0.40 Reach 2 16631 AE AB 100yr PC 2024 2796.00 4921.99 4929.65 4927.78 4929.87 0.001703 5.87 898.43 259.41 0.40 Reach 2 16631 AE AB 100yr PC_BTP 2780.00 4921.99 4929.63 4927.78 4929.85 0.001706 5.86 894.25 259.11 0.40 Reach 2 16525 AB 100yr AB Project 2780.00 4921.58 4929.55 4927.40 4929.74 0.001375 5.26 957.46 255.44 0.35 Reach 2 16525 AB 100yr PC 2024 2796.00 4921.58 4929.57 4927.41 4929.75 0.001376 5.27 961.58 255.94 0.35 Reach 2 16525 AB 100yr PC_BTP 2780.00 4921.58 4929.55 4927.40 4929.74 0.001375 5.26 957.46 255.44 0.35 Reach 2 16020 AB 100yr AB Project 2780.00 4920.71 4928.93 4926.74 4929.16 0.001499 5.88 896.92 237.38 0.38 Reach 2 16020 AB 100yr PC 2024 2796.00 4920.71 4928.95 4926.76 4929.17 0.001498 5.89 900.86 237.69 0.38 Reach 2 16020 AB 100yr PC_BTP 2780.00 4920.71 4928.93 4926.74 4929.16 0.001499 5.88 896.92 237.38 0.38 Reach 3 15814 AB 100yr AB Project 2780.00 4920.16 4928.44 4926.34 4928.78 0.002099 6.66 718.05 184.21 0.44 Reach 3 15814 AB 100yr PC 2024 2796.00 4920.16 4928.46 4926.34 4928.80 0.002100 6.67 721.02 184.54 0.44 Reach 3 15814 AB 100yr PC_BTP 2780.00 4920.16 4928.44 4926.34 4928.78 0.002099 6.66 718.05 184.21 0.44 Reach 3 15675 AB 100yr AB Project 2780.00 4920.18 4927.28 4926.84 4928.36 0.006110 11.01 421.38 116.78 0.75 Reach 3 15675 AB 100yr PC 2024 2796.00 4920.18 4927.29 4926.86 4928.37 0.006119 11.03 422.92 116.88 0.75 Reach 3 15675 AB 100yr PC_BTP 2780.00 4920.18 4927.28 4926.84 4928.36 0.006110 11.01 421.38 116.78 0.75 Reach 4 15491 AB 100yr AB Project 2780.00 4919.52 4926.46 4925.67 4927.20 0.005399 9.89 502.70 154.86 0.70 Reach 4 15491 AB 100yr PC 2024 2796.00 4919.52 4926.47 4925.68 4927.22 0.005400 9.90 504.82 155.09 0.70 Reach 4 15491 AB 100yr PC_BTP 2780.00 4919.52 4926.46 4925.67 4927.20 0.005399 9.89 502.70 154.86 0.70 Reach 4 15109 AB 100yr AB Project 2780.00 4919.19 4926.69 4921.66 4926.73 0.000325 2.59 1786.86 378.38 0.17 Reach 4 15109 AB 100yr PC 2024 2796.00 4919.19 4926.70 4921.66 4926.74 0.000325 2.59 1792.22 378.52 0.17 Reach 4 15109 AB 100yr PC_BTP 2780.00 4919.19 4926.69 4921.66 4926.73 0.000325 2.59 1786.86 378.38 0.17 Reach 5 14859 AB 100yr AB Project 2780.00 4919.10 4926.64 4922.60 4926.66 0.000188 1.96 2514.17 632.06 0.13 Reach 5 14859 AB 100yr PC 2024 2796.00 4919.10 4926.65 4922.76 4926.68 0.000188 1.97 2523.13 633.51 0.13 Reach 5 14859 AB 100yr PC_BTP 2780.00 4919.10 4926.64 4922.60 4926.66 0.000188 1.96 2514.17 632.06 0.13 Reach 5 14566 AC AB 100yr AB Project 2780.00 4917.61 4926.52 4923.53 4926.59 0.000414 3.26 1617.97 528.93 0.20 Reach 5 14566 AC AB 100yr PC 2024 2796.00 4917.61 4926.54 4923.53 4926.60 0.000414 3.26 1625.21 529.95 0.20 Reach 5 14566 AC AB 100yr PC_BTP 2780.00 4917.61 4926.52 4923.53 4926.59 0.000414 3.26 1617.97 528.93 0.20 Reach 5 14127 AB AB 100yr AB Project 2780.00 4917.20 4924.94 4924.94 4926.12 0.006853 11.53 436.62 156.83 0.78 Reach 5 14127 AB AB 100yr PC 2024 2796.00 4917.20 4924.95 4924.95 4926.14 0.006877 11.56 438.00 156.89 0.79 Reach 5 14127 AB AB 100yr PC_BTP 2780.00 4917.20 4924.94 4924.94 4926.12 0.006853 11.53 436.62 156.83 0.78 Reach 5 13868 AB 100yr AB Project 2780.00 4917.05 4923.24 4921.27 4923.45 0.001803 5.51 850.40 229.86 0.41 Reach 5 13868 AB 100yr PC 2024 2796.00 4917.05 4923.26 4921.28 4923.47 0.001793 5.51 855.00 229.99 0.41 Reach 5 13868 AB 100yr PC_BTP 2780.00 4917.05 4923.24 4921.27 4923.45 0.001803 5.51 850.40 229.86 0.41 Reach 5 13700 AA AB 100yr AB Project 2780.00 4916.37 4922.95 4921.06 4923.18 0.001832 5.76 814.89 207.89 0.41 Reach 5 13700 AA AB 100yr PC 2024 2796.00 4916.37 4922.97 4921.08 4923.20 0.001825 5.77 819.16 208.08 0.41 Reach 5 13700 AA AB 100yr PC_BTP 2780.00 4916.37 4922.95 4921.06 4923.18 0.001832 5.76 814.89 207.89 0.41 Reach 5 13237 AB 100yr AB Project 2780.00 4915.62 4921.54 4920.29 4922.04 0.004719 8.17 534.15 180.19 0.65 Reach 5 13237 AB 100yr PC 2024 2796.00 4915.62 4921.58 4920.30 4922.07 0.004641 8.14 538.97 180.57 0.65 Reach 5 13237 AB 100yr PC_BTP 2780.00 4915.62 4921.54 4920.29 4922.04 0.004719 8.17 534.15 180.19 0.65 Reach 5 12954 AB 100yr AB Project 2780.00 4915.50 4921.00 4918.75 4921.21 0.001572 4.72 817.20 325.30 0.38 Reach 5 12954 AB 100yr PC 2024 2796.00 4915.50 4921.05 4918.76 4921.25 0.001533 4.70 826.38 327.47 0.38 Reach 5 12954 AB 100yr PC_BTP 2780.00 4915.50 4921.00 4918.75 4921.21 0.001572 4.72 817.20 325.30 0.38 Reach 5 12758 AB 100yr AB Project 2780.00 4914.26 4920.77 4918.23 4920.93 0.001253 4.56 922.75 441.66 0.35 Reach 5 12758 AB 100yr PC 2024 2796.00 4914.26 4920.82 4918.24 4920.98 0.001219 4.52 934.08 443.02 0.34 Reach 5 12758 AB 100yr PC_BTP 2780.00 4914.26 4920.77 4918.23 4920.93 0.001253 4.56 922.75 441.66 0.35 Reach 5 12525 Z AB 100yr AB Project 2780.00 4912.27 4920.68 4917.48 4920.75 0.000430 2.88 1501.17 542.93 0.20 Reach 5 12525 Z AB 100yr PC 2024 2796.00 4912.27 4920.74 4917.47 4920.80 0.000418 2.86 1519.62 543.52 0.20 Reach 5 12525 Z AB 100yr PC_BTP 2780.00 4912.27 4920.68 4917.48 4920.75 0.000430 2.88 1501.17 542.93 0.20 Reach 5 12172 AB 100yr AB Project 2780.00 4911.02 4920.60 4915.81 4920.66 0.000197 2.24 1659.60 684.52 0.15 HEC-RAS Profile: AB 100yr (Continued) Reach River Sta Profile Plan Q Total Min Ch El W.S. Elev Crit W.S. E.G. Elev E.G. Slope Vel Chnl Flow Area Top Width Froude # Chl (cfs) (ft) (ft) (ft) (ft) (ft/ft) (ft/s) (sq ft) (ft) Reach 5 12172 AB 100yr PC 2024 2796.00 4911.02 4920.66 4915.81 4920.72 0.000193 2.23 1678.48 695.47 0.14 Reach 5 12172 AB 100yr PC_BTP 2780.00 4911.02 4920.60 4915.81 4920.66 0.000197 2.24 1659.60 684.52 0.15 Reach 5 11797 Y AB 100yr AB Project 2788.00 4908.60 4919.87 4913.78 4920.39 0.000785 5.80 480.67 595.82 0.31 Reach 5 11797 Y AB 100yr PC 2024 2805.00 4908.60 4919.93 4913.74 4920.45 0.000781 5.80 483.25 609.38 0.31 Reach 5 11797 Y AB 100yr PC_BTP 2788.00 4908.60 4919.87 4913.78 4920.39 0.000785 5.80 480.67 595.82 0.31 Reach 5 11662 Culvert Reach 5 11527 X AB 100yr AB Project 2788.00 4910.00 4916.85 4915.31 4918.32 0.004374 9.73 286.51 449.24 0.67 Reach 5 11527 X AB 100yr PC 2024 2805.00 4910.00 4916.86 4915.36 4918.35 0.004389 9.76 287.26 451.04 0.67 Reach 5 11527 X AB 100yr PC_BTP 2788.00 4910.00 4916.85 4915.31 4918.32 0.004374 9.73 286.51 449.24 0.67 Reach 5 11422 W AB 100yr AB Project 3286.00 4909.26 4915.32 4915.32 4917.34 0.014929 11.39 288.38 144.43 0.99 Reach 5 11422 W AB 100yr PC 2024 3313.00 4909.26 4915.36 4915.36 4917.38 0.014773 11.38 291.18 146.84 0.99 Reach 5 11422 W AB 100yr PC_BTP 3286.00 4909.26 4915.32 4915.32 4917.34 0.014929 11.39 288.38 144.43 0.99 Reach 5 11368 AB 100yr AB Project 3286.00 4910.00 4914.34 4912.46 4914.59 0.001952 4.00 821.37 370.72 0.36 Reach 5 11368 AB 100yr PC 2024 3313.00 4910.00 4914.35 4912.48 4914.60 0.001956 4.02 824.94 371.39 0.36 Reach 5 11368 AB 100yr PC_BTP 3286.00 4910.00 4914.34 4912.46 4914.59 0.001952 4.00 821.37 370.72 0.36 Reach 5 10968 V AB 100yr AB Project 3286.00 4909.00 4913.63 4912.40 4913.77 0.002332 4.57 1319.01 518.76 0.40 Reach 5 10968 V AB 100yr PC 2024 3313.00 4909.00 4913.65 4912.42 4913.79 0.002319 4.57 1328.89 519.38 0.40 Reach 5 10968 V AB 100yr PC_BTP 3286.00 4909.00 4913.63 4912.40 4913.77 0.002332 4.57 1319.01 518.76 0.40 Reach 5 10652 AB 100yr AB Project 3286.00 4906.82 4913.34 4911.56 4913.45 0.001431 4.18 1455.69 451.76 0.32 Reach 5 10652 AB 100yr PC 2024 3313.00 4906.82 4913.36 4911.58 4913.47 0.001427 4.19 1464.96 452.21 0.32 Reach 5 10652 AB 100yr PC_BTP 3286.00 4906.82 4913.34 4911.56 4913.45 0.001431 4.18 1455.69 451.76 0.32 Reach 5 10143 U AB 100yr AB Project 3286.00 4907.00 4912.98 4910.65 4913.11 0.001070 3.59 1322.89 336.66 0.28 Reach 5 10143 U AB 100yr PC 2024 3313.00 4907.00 4913.00 4910.65 4913.13 0.001071 3.60 1329.80 336.81 0.28 Reach 5 10143 U AB 100yr PC_BTP 3286.00 4907.00 4912.98 4910.65 4913.11 0.001070 3.59 1322.89 336.66 0.28 Reach 5 9971 AB 100yr AB Project 3286.00 4906.00 4912.07 4910.31 4912.72 0.004172 7.01 584.84 145.25 0.51 Reach 5 9971 AB 100yr PC 2024 3313.00 4906.00 4912.08 4910.31 4912.74 0.004205 7.04 586.68 145.41 0.51 Reach 5 9971 AB 100yr PC_BTP 3286.00 4906.00 4912.07 4910.31 4912.72 0.004172 7.01 584.84 145.25 0.51 Reach 5 9599 AB 100yr AB Project 3376.00 4904.00 4911.22 4910.23 4911.51 0.002452 5.39 1060.76 565.34 0.42 Reach 5 9599 AB 100yr PC 2024 3402.00 4904.00 4911.24 4910.25 4911.52 0.002457 5.41 1067.40 567.71 0.42 Reach 5 9599 AB 100yr PC_BTP 3376.00 4904.00 4911.22 4910.23 4911.51 0.002452 5.39 1060.76 565.34 0.42 Reach 5 9314 AB 100yr AB Project 3376.00 4902.57 4910.95 4909.76 4911.11 0.001672 4.45 1371.69 715.09 0.34 Reach 5 9314 AB 100yr PC 2024 3402.00 4902.57 4910.96 4909.77 4911.12 0.001669 4.45 1381.13 716.60 0.34 Reach 5 9314 AB 100yr PC_BTP 3376.00 4902.57 4910.95 4909.76 4911.11 0.001672 4.45 1371.69 715.09 0.34 Reach 5 8918 AB 100yr AB Project 3376.00 4901.19 4910.40 4909.05 4910.66 0.001916 5.35 1198.19 621.46 0.38 Reach 5 8918 AB 100yr PC 2024 3402.00 4901.19 4910.42 4909.07 4910.68 0.001901 5.34 1209.75 625.68 0.38 Reach 5 8918 AB 100yr PC_BTP 3376.00 4901.19 4910.40 4909.05 4910.66 0.001916 5.35 1198.19 621.46 0.38 Reach 5 8678 T AB 100yr AB Project 3376.00 4901.00 4909.73 4908.69 4910.20 0.002255 6.58 870.34 373.66 0.47 Reach 5 8678 T AB 100yr PC 2024 3402.00 4901.00 4909.74 4908.71 4910.22 0.002252 6.59 877.29 375.22 0.47 Reach 5 8678 T AB 100yr PC_BTP 3376.00 4901.00 4909.73 4908.69 4910.20 0.002255 6.58 870.34 373.66 0.47 Reach 5 8177 AB 100yr AB Project 3376.00 4901.00 4907.94 4907.26 4908.67 0.004608 8.24 626.22 200.31 0.65 Reach 5 8177 AB 100yr PC 2024 3402.00 4901.00 4907.96 4907.29 4908.68 0.004623 8.26 628.96 200.48 0.65 Reach 5 8177 AB 100yr PC_BTP 3376.00 4901.00 4907.94 4907.26 4908.67 0.004608 8.24 626.22 200.31 0.65 Reach 5 7663 S AB 100yr AB Project 3376.00 4898.00 4905.21 4905.21 4906.15 0.006279 9.48 637.68 296.11 0.75 Reach 5 7663 S AB 100yr PC 2024 3402.00 4898.00 4905.22 4905.22 4906.16 0.006278 9.49 641.87 296.40 0.75 Reach 5 7663 S AB 100yr PC_BTP 3376.00 4898.00 4905.21 4905.21 4906.15 0.006279 9.48 637.68 296.11 0.75 Reach 6 7256 R AB 100yr AB Project 951.00 4897.13 4903.69 4902.71 4903.80 0.001404 3.29 491.16 311.96 0.30 Reach 6 7256 R AB 100yr PC 2024 951.00 4897.13 4903.69 4902.71 4903.80 0.001404 3.29 491.16 311.96 0.30 Reach 6 7256 R AB 100yr PC_BTP 951.00 4897.13 4903.69 4902.71 4903.80 0.001404 3.29 491.16 311.96 0.30 Reach 6 7001 AB 100yr AB Project 951.00 4896.35 4902.90 4899.85 4903.30 0.001856 5.09 186.94 217.21 0.36 Reach 6 7001 AB 100yr PC 2024 951.00 4896.35 4902.90 4899.85 4903.30 0.001856 5.09 186.94 217.21 0.36 Reach 6 7001 AB 100yr PC_BTP 951.00 4896.35 4902.90 4899.85 4903.30 0.001856 5.09 186.94 217.21 0.36 Reach 6 6918 Bridge Reach 6 6852 AB 100yr AB Project 951.00 4895.70 4900.46 4899.08 4901.21 0.004890 6.94 137.01 94.63 0.57 Reach 6 6852 AB 100yr PC 2024 951.00 4895.70 4900.46 4899.08 4901.21 0.004890 6.94 137.01 94.63 0.57 Reach 6 6852 AB 100yr PC_BTP 951.00 4895.70 4900.46 4899.08 4901.21 0.004890 6.94 137.01 94.63 0.57 Reach 6 6506 P AB 100yr AB Project 951.00 4892.50 4898.61 4897.91 4899.08 0.006847 5.57 181.14 108.09 0.62 Reach 6 6506 P AB 100yr PC 2024 951.00 4892.50 4898.61 4897.91 4899.08 0.006847 5.57 181.14 108.09 0.62 Reach 6 6506 P AB 100yr PC_BTP 951.00 4892.50 4898.61 4897.91 4899.08 0.006847 5.57 181.14 108.09 0.62 Reach 6 6391 O AB 100yr AB Project 951.00 4891.34 4898.38 4895.48 4898.58 0.002300 3.62 262.56 62.86 0.31 Reach 6 6391 O AB 100yr PC 2024 951.00 4891.34 4898.38 4895.48 4898.58 0.002300 3.62 262.56 62.86 0.31 Reach 6 6391 O AB 100yr PC_BTP 951.00 4891.34 4898.38 4895.48 4898.58 0.002300 3.62 262.56 62.86 0.31 Reach 6 6243 N AB 100yr AB Project 951.00 4890.67 4898.13 4895.00 4898.27 0.001670 3.09 310.15 102.72 0.27 Reach 6 6243 N AB 100yr PC 2024 951.00 4890.67 4898.13 4895.00 4898.27 0.001670 3.09 310.15 102.72 0.27 Reach 6 6243 N AB 100yr PC_BTP 951.00 4890.67 4898.13 4895.00 4898.27 0.001670 3.09 310.15 102.72 0.27 HEC-RAS Profile: AB 100yr (Continued) Reach River Sta Profile Plan Q Total Min Ch El W.S. Elev Crit W.S. E.G. Elev E.G. Slope Vel Chnl Flow Area Top Width Froude # Chl (cfs) (ft) (ft) (ft) (ft) (ft/ft) (ft/s) (sq ft) (ft) Reach 7 6006 AB 100yr AB Project 951.00 4889.24 4897.87 4893.73 4897.98 0.000903 2.70 404.80 144.14 0.20 Reach 7 6006 AB 100yr PC 2024 951.00 4889.24 4897.87 4893.73 4897.98 0.000903 2.70 404.80 144.14 0.20 Reach 7 6006 AB 100yr PC_BTP 951.00 4889.24 4897.87 4893.73 4897.98 0.000903 2.70 404.80 144.14 0.20 Reach 7 5865 AB 100yr AB Project 951.00 4888.46 4897.54 4892.82 4897.78 0.001542 3.93 241.81 91.73 0.25 Reach 7 5865 AB 100yr PC 2024 951.00 4888.46 4897.54 4892.82 4897.78 0.001542 3.93 241.81 91.73 0.25 Reach 7 5865 AB 100yr PC_BTP 951.00 4888.46 4897.54 4892.82 4897.78 0.001542 3.93 241.81 91.73 0.25 Reach 7 5818 Bridge Reach 7 5771 AB 100yr AB Project 951.00 4887.96 4896.72 4892.79 4897.03 0.002045 4.50 211.10 40.81 0.30 Reach 7 5771 AB 100yr PC 2024 951.00 4887.96 4896.72 4892.79 4897.03 0.002045 4.50 211.10 40.81 0.30 Reach 7 5771 AB 100yr PC_BTP 951.00 4887.96 4896.72 4892.79 4897.03 0.002045 4.50 211.10 40.81 0.30 Reach 7 5670 M AB 100yr AB Project 951.00 4890.00 4896.05 4894.71 4896.63 0.006085 6.46 189.28 109.87 0.54 Reach 7 5670 M AB 100yr PC 2024 951.00 4890.00 4896.05 4894.71 4896.63 0.006085 6.46 189.28 109.87 0.54 Reach 7 5670 M AB 100yr PC_BTP 951.00 4890.00 4896.05 4894.71 4896.63 0.006085 6.46 189.28 109.87 0.54 Reach 7 5403 AB 100yr AB Project 951.00 4888.00 4894.56 4892.50 4895.04 0.005517 5.56 170.95 39.97 0.47 Reach 7 5403 AB 100yr PC 2024 951.00 4888.00 4894.56 4892.50 4895.04 0.005517 5.56 170.95 39.97 0.47 Reach 7 5403 AB 100yr PC_BTP 951.00 4888.00 4894.56 4892.50 4895.04 0.005517 5.56 170.95 39.97 0.47 Reach 7 5121 AB 100yr AB Project 951.00 4887.00 4893.64 4890.93 4893.90 0.002830 4.18 263.34 134.35 0.35 Reach 7 5121 AB 100yr PC 2024 951.00 4887.00 4893.64 4890.93 4893.90 0.002830 4.18 263.34 134.35 0.35 Reach 7 5121 AB 100yr PC_BTP 951.00 4887.00 4893.64 4890.93 4893.90 0.002830 4.18 263.34 134.35 0.35 Reach 7 4898 L AB 100yr AB Project 951.00 4886.00 4892.88 4890.57 4893.29 0.002530 5.22 211.16 111.48 0.41 Reach 7 4898 L AB 100yr PC 2024 951.00 4886.00 4892.88 4890.57 4893.29 0.002530 5.22 211.16 111.48 0.41 Reach 7 4898 L AB 100yr PC_BTP 951.00 4886.00 4892.88 4890.57 4893.29 0.002530 5.22 211.16 111.48 0.41 Reach 7 4553 K AB 100yr AB Project 951.00 4885.00 4891.15 4889.77 4891.88 0.007174 6.86 139.42 50.21 0.65 Reach 7 4553 K AB 100yr PC 2024 951.00 4885.00 4891.15 4889.77 4891.88 0.007174 6.86 139.42 50.21 0.65 Reach 7 4553 K AB 100yr PC_BTP 951.00 4885.00 4891.15 4889.77 4891.88 0.007174 6.86 139.42 50.21 0.65 Reach 7 4093 J AB 100yr AB Project 951.00 4882.00 4888.12 4886.88 4888.92 0.005790 7.26 138.39 46.13 0.60 Reach 7 4093 J AB 100yr PC 2024 951.00 4882.00 4888.12 4886.88 4888.92 0.005790 7.26 138.39 46.13 0.60 Reach 7 4093 J AB 100yr PC_BTP 951.00 4882.00 4888.12 4886.88 4888.92 0.005790 7.26 138.39 46.13 0.60 Reach 7 3983 AB 100yr AB Project 951.00 4882.00 4887.97 4885.57 4888.58 0.001206 6.22 152.83 45.94 0.45 Reach 7 3983 AB 100yr PC 2024 951.00 4882.00 4887.97 4885.57 4888.58 0.001206 6.22 152.83 45.94 0.45 Reach 7 3983 AB 100yr PC_BTP 951.00 4882.00 4887.97 4885.57 4888.58 0.001206 6.22 152.83 45.94 0.45 Reach 7 3964 Culvert Reach 7 3945 AB 100yr AB Project 951.00 4882.00 4886.74 4885.52 4887.68 0.002532 7.77 122.34 44.00 0.63 Reach 7 3945 AB 100yr PC 2024 951.00 4882.00 4886.74 4885.52 4887.68 0.002532 7.77 122.34 44.00 0.63 Reach 7 3945 AB 100yr PC_BTP 951.00 4882.00 4886.74 4885.52 4887.68 0.002532 7.77 122.34 44.00 0.63 Reach 7 3583 I AB 100yr AB Project 951.00 4880.00 4885.89 4883.89 4886.35 0.003672 5.50 172.94 41.84 0.48 Reach 7 3583 I AB 100yr PC 2024 951.00 4880.00 4885.89 4883.89 4886.35 0.003672 5.50 172.94 41.84 0.48 Reach 7 3583 I AB 100yr PC_BTP 951.00 4880.00 4885.89 4883.89 4886.35 0.003672 5.50 172.94 41.84 0.48 Reach 7 3288 H AB 100yr AB Project 951.00 4879.00 4883.89 4883.13 4884.79 0.007720 7.64 127.73 42.71 0.70 Reach 7 3288 H AB 100yr PC 2024 951.00 4879.00 4883.89 4883.13 4884.79 0.007720 7.64 127.73 42.71 0.70 Reach 7 3288 H AB 100yr PC_BTP 951.00 4879.00 4883.89 4883.13 4884.79 0.007720 7.64 127.73 42.71 0.70 Reach 7 3057 AB 100yr AB Project 951.00 4877.16 4881.11 4881.11 4882.40 0.014123 9.53 109.14 43.19 0.94 Reach 7 3057 AB 100yr PC 2024 951.00 4877.16 4881.11 4881.11 4882.40 0.014123 9.53 109.14 43.19 0.94 Reach 7 3057 AB 100yr PC_BTP 951.00 4877.16 4881.11 4881.11 4882.40 0.014123 9.53 109.14 43.19 0.94 Reach 7 2638 G AB 100yr AB Project 951.00 4875.00 4880.24 4876.84 4880.30 0.000520 2.04 466.53 106.64 0.17 Reach 7 2638 G AB 100yr PC 2024 951.00 4875.00 4880.24 4876.84 4880.30 0.000520 2.04 466.53 106.64 0.17 Reach 7 2638 G AB 100yr PC_BTP 951.00 4875.00 4880.24 4876.84 4880.30 0.000520 2.04 466.53 106.64 0.17 Reach 7 2280 AB 100yr AB Project 951.00 4874.00 4879.16 4878.21 4879.78 0.007311 6.45 164.02 85.63 0.60 Reach 7 2280 AB 100yr PC 2024 951.00 4874.00 4879.16 4878.21 4879.78 0.007311 6.45 164.02 85.63 0.60 Reach 7 2280 AB 100yr PC_BTP 951.00 4874.00 4879.16 4878.21 4879.78 0.007311 6.45 164.02 85.63 0.60 Reach 7 1982 F AB 100yr AB Project 951.00 4873.00 4878.07 4877.44 4878.35 0.003082 5.16 291.42 151.55 0.45 Reach 7 1982 F AB 100yr PC 2024 951.00 4873.00 4878.07 4877.44 4878.35 0.003082 5.16 291.42 151.55 0.45 Reach 7 1982 F AB 100yr PC_BTP 951.00 4873.00 4878.07 4877.44 4878.35 0.003082 5.16 291.42 151.55 0.45 Reach 7 1548 E AB 100yr AB Project 951.00 4872.00 4875.30 4875.30 4875.91 0.012170 7.29 184.16 136.42 0.83 Reach 7 1548 E AB 100yr PC 2024 951.00 4872.00 4875.30 4875.30 4875.91 0.012170 7.29 184.16 136.42 0.83 Reach 7 1548 E AB 100yr PC_BTP 951.00 4872.00 4875.30 4875.30 4875.91 0.012170 7.29 184.16 136.42 0.83 Reach 7 1313 AB 100yr AB Project 951.00 4871.00 4874.60 4873.32 4874.65 0.001641 2.28 537.70 282.35 0.27 Reach 7 1313 AB 100yr PC 2024 951.00 4871.00 4874.60 4873.32 4874.65 0.001641 2.28 537.70 282.35 0.27 Reach 7 1313 AB 100yr PC_BTP 951.00 4871.00 4874.60 4873.32 4874.65 0.001641 2.28 537.70 282.35 0.27 Reach 7 1039 D AB 100yr AB Project 951.00 4871.00 4874.28 4872.55 4874.32 0.001195 1.71 629.36 318.86 0.22 Reach 7 1039 D AB 100yr PC 2024 951.00 4871.00 4874.28 4872.55 4874.32 0.001195 1.71 629.36 318.86 0.22 Reach 7 1039 D AB 100yr PC_BTP 951.00 4871.00 4874.28 4872.55 4874.32 0.001195 1.71 629.36 318.86 0.22 Reach 7 979 AB 100yr AB Project 951.00 4869.00 4872.64 4872.35 4873.83 0.005463 8.78 108.36 48.55 0.86 Reach 7 979 AB 100yr PC 2024 951.00 4869.00 4872.64 4872.35 4873.83 0.005463 8.78 108.36 48.55 0.86 Reach 7 979 AB 100yr PC_BTP 951.00 4869.00 4872.64 4872.35 4873.83 0.005463 8.78 108.36 48.55 0.86 HEC-RAS Profile: AB 100yr (Continued) Reach River Sta Profile Plan Q Total Min Ch El W.S. Elev Crit W.S. E.G. Elev E.G. Slope Vel Chnl Flow Area Top Width Froude # Chl (cfs) (ft) (ft) (ft) (ft) (ft/ft) (ft/s) (sq ft) (ft) Reach 7 963 Culvert Reach 7 946 AB 100yr AB Project 951.00 4869.00 4871.94 4871.94 4873.38 0.007285 9.63 98.74 56.34 0.99 Reach 7 946 AB 100yr PC 2024 951.00 4869.00 4871.94 4871.94 4873.38 0.007285 9.63 98.74 56.34 0.99 Reach 7 946 AB 100yr PC_BTP 951.00 4869.00 4871.94 4871.94 4873.38 0.007285 9.63 98.74 56.34 0.99 Reach 7 820 C AB 100yr AB Project 951.00 4867.00 4870.29 4869.31 4870.46 0.005318 4.29 321.35 214.71 0.48 Reach 7 820 C AB 100yr PC 2024 951.00 4867.00 4870.29 4869.31 4870.46 0.005318 4.29 321.35 214.71 0.48 Reach 7 820 C AB 100yr PC_BTP 951.00 4867.00 4870.29 4869.31 4870.46 0.005318 4.29 321.35 214.71 0.48 Reach 7 431 B AB 100yr AB Project 951.00 4865.00 4868.87 4868.23 4869.03 0.003729 4.17 382.21 221.65 0.42 Reach 7 431 B AB 100yr PC 2024 951.00 4865.00 4868.87 4868.23 4869.03 0.003729 4.17 382.21 221.65 0.42 Reach 7 431 B AB 100yr PC_BTP 951.00 4865.00 4868.87 4868.23 4869.03 0.003729 4.17 382.21 221.65 0.42 Reach 7 227 AB 100yr AB Project 951.00 4865.00 4868.57 4866.31 4868.59 0.001120 1.61 898.75 363.85 0.17 Reach 7 227 AB 100yr PC 2024 951.00 4865.00 4868.57 4866.31 4868.59 0.001120 1.61 898.75 363.85 0.17 Reach 7 227 AB 100yr PC_BTP 951.00 4865.00 4868.57 4866.31 4868.59 0.001120 1.61 898.75 363.85 0.17 Reach 7 220 Bridge Reach 7 212 A AB 100yr AB Project 951.00 4864.02 4868.54 4866.30 4868.56 0.001000 1.62 944.03 379.54 0.16 Reach 7 212 A AB 100yr PC 2024 951.00 4864.02 4868.54 4866.30 4868.56 0.001000 1.62 944.03 379.54 0.16 Reach 7 212 A AB 100yr PC_BTP 951.00 4864.02 4868.54 4866.30 4868.56 0.001000 1.62 944.03 379.54 0.16 Appendix E Culvert Design HY-8 Culvert Analysis Report Table 1 - Project Headwater Table Crossing Name Culvert Name Discharge Names Total Discharge (cfs) Culvert Discharge (cfs) Headwater Elevation (ft) Inlet Control Depth (ft) Outlet Control Depth (ft) HW / D (ft) Normal Depth (ft) Critical Depth (ft) Outlet Depth (ft) Outlet Velocity (ft/s) Kelley St - RCP Culvert 1 100-yr 230.00 230.00 4986.64 4.15 4.236 1.41 3.00 2.46 2.86 8.27 Bypass Culverts Culvert 1 Bypass 30.00 30.00 4984.55 1.93 2.052 0.82 1.10 1.31 2.05 3.48 Crossing Input: Kelley St - RCP Parameter Value Units DISCHARGE DATA Discharge Method User-Defined Discharge List Define... TAILWATER DATA Channel Type Trapezoidal Channel Bottom Width 30.000 ft Side Slope (H:V) 4.000 _:1 Channel Slope 0.0025 ft/ft Manning's n (channel) 0.065 Channel Invert Elevation 4981.800 ft Rating Curve View... ROADWAY DATA Roadway Profile Shape Irregular Irregular Shape Define... Roadway Surface Paved Top Width 71.000 ft Culvert Input: Kelley St - RCP Parameter Value Units CULVERT DATA Name Culvert 1 Shape Circular Material Concrete Diameter 3.000 ft Embedment Depth 0.000 in Manning's n 0.012 Culvert Type Straight Inlet Configuration Grooved End Projecting (Ke=0.2) Inlet Depression? No SITE DATA Site Data Input Option Culvert Invert Data Inlet Station 0.000 ft Inlet Elevation 4982.400 ft Outlet Station 124.000 ft Outlet Elevation 4981.800 ft Number of Barrels 4 Computed Culvert Slope 0.004839 ft/ft Table 2 - Culvert Summary Table: Culvert 1 Discharge Names Total Discharge (cfs) Culvert Discharge (cfs) Headwater Elevation (ft) Inlet Control Depth (ft) Outlet Control Depth (ft) HW / D (ft) Flow Type Normal Depth (ft) Critical Depth (ft) Outlet Depth (ft) Tailwater Depth (ft) Outlet Velocity (ft/s) Tailwater Velocity (ft/s) 10-yr 77.00 77.00 4984.39 1.99 1.177 0.66 1- S2n 1.29 1.41 1.29 1.55 6.65 1.37 100-yr 230.00 230.00 4986.64 4.15 4.236 1.41 7- M2t 3.00 2.46 2.86 2.86 8.27 1.94 Overtopping 345.00 268.89 4988.11 4.92 5.712 1.90 4-FFf 3.00 2.62 3.00 3.56 9.51 2.19 Water Surface Profile Plot for Culvert: Culvert 1 Crossing Input: Bypass Culverts Parameter Value Units DISCHARGE DATA Discharge Method User-Defined Discharge List Define... TAILWATER DATA Channel Type Enter Constant Tailwater Elevation Channel Invert Elevation 4982.000 ft Constant Tailwater Elevation 4984.050 ft Rating Curve View... ROADWAY DATA Roadway Profile Shape Constant Roadway Elevation First Roadway Station 0.000 ft Crest Length 50.000 ft Crest Elevation 4985.400 ft Roadway Surface Paved Top Width 30.000 ft Culvert Input: Bypass Culverts Parameter Value Units CULVERT DATA Name Culvert 1 Shape Circular Material Concrete Diameter 2.500 ft Embedment Depth 0.000 in Manning's n 0.013 Culvert Type Straight Inlet Configuration Square Edge with Headwall (Ke=0.5) Inlet Depression? No SITE DATA Site Data Input Option Culvert Invert Data Inlet Station 0.000 ft Inlet Elevation 4982.500 ft Outlet Station 60.000 ft Outlet Elevation 4982.000 ft Number of Barrels 2 Computed Culvert Slope 0.008333 ft/ft Table 3 - Culvert Summary Table: Culvert 1 Discharge Names Total Discharge (cfs) Culvert Discharge (cfs) Headwater Elevation (ft) Inlet Control Depth (ft) Outlet Control Depth (ft) HW / D (ft) Flow Type Normal Depth (ft) Critical Depth (ft) Outlet Depth (ft) Tailwater Depth (ft) Outlet Velocity (ft/s) Tailwater Velocity (ft/s) Bypass 20.00 20.00 4984.26 1.50 1.763 0.71 1-S1t 0.88 1.06 2.05 2.05 2.32 0.00 Bypass 30.00 30.00 4984.55 1.93 2.052 0.82 1-S1t 1.10 1.31 2.05 2.05 3.48 0.00 Overtopping 75.00 59.30 4985.62 3.12 2.711 1.25 5- S2n 1.68 1.86 1.69 2.05 8.38 0.00 Water Surface Profile Plot for Culvert: Culvert 1 Appendix F Riprap Design ERDC TN-EMRRP SR-29 5 Table 2. Permissible Shear and Velocity for Selected Lining Materials1 Boundary Category Boundary Type Permissible Shear Stress (lb/sq ft) Permissible Velocity (ft/sec) Citation(s) Soils Fine colloidal sand 0.02 - 0.03 1.5 A Sandy loam (noncolloidal) 0.03 - 0.04 1.75 A Alluvial silt (noncolloidal) 0.045 - 0.05 2 A Silty loam (noncolloidal) 0.045 - 0.05 1.75 – 2.25 A Firm loam 0.075 2.5 A Fine gravels 0.075 2.5 A Stiff clay 0.26 3 – 4.5 A, F Alluvial silt (colloidal) 0.26 3.75 A Graded loam to cobbles 0.38 3.75 A Graded silts to cobbles 0.43 4 A Shales and hardpan 0.67 6 A Gravel/Cobble 1-in. 0.33 2.5 – 5 A 2-in. 0.67 3 – 6 A 6-in. 2.0 4 – 7.5 A 12-in. 4.0 5.5 – 12 A Vegetation Class A turf 3.7 6 – 8 E, N Class B turf 2.1 4 - 7 E, N Class C turf 1.0 3.5 E, N Long native grasses 1.2 – 1.7 4 – 6 G, H, L, N Short native and bunch grass 0.7 - 0.95 3 – 4 G, H, L, N Reed plantings 0.1-0.6 N/A E, N Hardwood tree plantings 0.41-2.5 N/A E, N Temporary Degradable RECPs Jute net 0.45 1 – 2.5 E, H, M Straw with net 1.5 – 1.65 1 – 3 E, H, M Coconut fiber with net 2.25 3 – 4 E, M Fiberglass roving 2.00 2.5 – 7 E, H, M Non-Degradable RECPs Unvegetated 3.00 5 – 7 E, G, M Partially established 4.0-6.0 7.5 – 15 E, G, M Fully vegetated 8.00 8 – 21 F, L, M Riprap 6 – in. d50 2.5 5 – 10 H 9 – in. d50 3.8 7 – 11 H 12 – in. d50 5.1 10 – 13 H 18 – in. d50 7.6 12 – 16 H 24 – in. d50 10.1 14 – 18 E Soil Bioengineering Wattles 0.2 – 1.0 3 C, I, J, N Reed fascine 0.6-1.25 5 E Coir roll 3 - 5 8 E, M, N Vegetated coir mat 4 - 8 9.5 E, M, N Live brush mattress (initial) 0.4 – 4.1 4 B, E, I Live brush mattress (grown) 3.90-8.2 12 B, C, E, I, N Brush layering (initial/grown) 0.4 – 6.25 12 E, I, N Live fascine 1.25-3.10 6 – 8 C, E, I, J Live willow stakes 2.10-3.10 3 – 10 E, N, O Hard Surfacing Gabions 10 14 – 19 D Concrete 12.5 >18 H 1 Ranges of values generally reflect multiple sources of data or different testing conditions. A. Chang, H.H. (1988). F. Julien, P.Y. (1995). K. Sprague, C.J. (1999). B. Florineth. (1982) G. Kouwen, N.; Li, R. M.; and Simons , D.B., (1980). L. Temple, D.M. (1980). C. Gerstgraser, C. (1998). H. Norman, J. N. (1975). M. TXDOT (1999) D. Goff, K. (1999). I. Schiechtl, H. M. and R. Stern. (1996). N. Data from Author (2001) E. Gray, D.H., and Sotir, R.B. (1996). J. Schoklitsch, A. (1937). O. USACE (1997). Front Range Storage Preliminary Drainage Report 23 APPENDIX F – MAPS A W e s t r i a n C o m p a n y LEGEND Know what's below. before you dig.Call R A W e s t r i a n C o m p a n y Know what's below. before you dig.Call R KE L L E Y S T R E E T A W e s t r i a n C o m p a n y Know what's below. before you dig.Call R Front Range Storage Preliminary Drainage Report 25 APPENDIX H –BEAT THE PEAK A W e s t r i a n C o m p a n y Know what's below. before you dig.Call R LID TREATMENT KELLEY STREET