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Home My WebLink AboutSTREETS PARK - BASIC DEVELOPMENT REVIEW - BDR180010 - SUBMITTAL DOCUMENTS - ROUND 2 - DRAINAGE REPORTFINAL DRAINAGE AND EROSION CONTROL REPORT Streets Park Tract A, East Vine Streets Facility P.U.D., Lots 1A & 2A, a replat of a portion of Lots 1 and 2, East Vine Streets Facility P.U.D., Major Amended Final, Phase Two Final located in the northeast quarter of Section 12, T-7-N, R-69-W of the Sixth Principal Meridian City of Fort Collins, Larimer County, Colorado Prepared for: City of Fort Collins Park Planning and Development 215 North Mason Fort Collins, CO 80524 Prepared by: Interwest Consulting Group 1218 West Ash, Suite A Windsor, Colorado 80550 (970) 674-3300 June 18, 2018 Job Number 1165-012-92 ii June 18, 2018 Mr. Dan Mogen City of Fort Collins Stormwater 700 Wood Street Fort Collins, Colorado 80522-0580 RE: Final Drainage Report for Streets Park Dear Dan, I am pleased to submit for your review and approval, this Final Drainage Report for the Streets Park development. I certify that this report for the drainage design was prepared in accordance with the criteria in the City of Fort Collins Storm Drainage Manual and previous reports for this site. I appreciate your time and consideration in reviewing this submittal. Please call if you have any questions. Sincerely, Michael Oberlander, P.E., LEED AP Colorado Professional Engineer No. 34288 Revised by: Logan Johnson, EIT iii TABLE OF CONTENTS TABLE OF CONTENTS ............................................................................................................ iii 1. GENERAL LOCATION AND DESCRIPTION ................................................................ 1 1.1 Location ........................................................................................................................... 1 1.2 Description of Property ................................................................................................. 1 1.3 Floodplain Submittal Requirements ............................................................................. 2 2. DRAINAGE BASINS AND SUB-BASINS .......................................................................... 2 2.1 Major Basin Description ................................................................................................ 2 2.2 Sub-basin Description .................................................................................................... 3 3. DRAINAGE DESIGN CRITERIA ...................................................................................... 3 3.1 Regulations ...................................................................................................................... 3 3.2 Directly Connected Impervious Area (DCIA) Discussion .......................................... 4 3.3 Development Criteria Reference and Constraints ...................................................... 5 3.4 Hydrological Criteria ..................................................................................................... 6 3.5 Hydraulic Criteria .......................................................................................................... 7 3.6 Floodplain Regulations Compliance ............................................................................. 7 3.7 Modifications of Criteria ............................................................................................... 7 4. DRAINAGE FACILITY DESIGN ....................................................................................... 7 4.1 General Concept ............................................................................................................. 7 4.2 Specific Details ................................................................................................................ 9 5. CONCLUSIONS .................................................................................................................. 11 5.1 Compliance with Standards ........................................................................................ 11 5.2 Drainage Concept ......................................................................................................... 12 6. REFERENCES .................................................................................................................... 13 APPENDIX VICINITY MAP AND DRAINAGE PLAN .............................................................................. A POND CALCULATIONS ............................................................................................................ B DRAINAGE INFORMATION .................................................................................................... C STANDARD OPERATING PROCEDURE .............................................................................. D 1 1. GENERAL LOCATION AND DESCRIPTION 1.1 Location The Streets Park project is located in the Northeast Quarter of Section 12, Township 7 North, Range 69 West of the Sixth Principal Meridian, in the City of Fort Collins, Larimer County, Colorado. Please refer to the vicinity map in Appendix A. Vine Drive and the BNSF Railroad Right of Way bound the site on the north; 9th Street (Lemay Avenue) bounds the site on the east, the New Belgium Brewery is located on the south, and the existing City Streets and Traffic facility is directly to the west. The site was platted with the overall Streets Facility as Tract A of the East Vine Streets Facility P.U.D. in 1993. Tract A was platted as a blanket Drainage and Access Easement and provides water quality and detention for the East Vine Streets Facility P.U.D. (all of the City land from 9th Street to Linden). 1.2 Description of Property Tract A consists of 8.5 acres of land and was always planned to be a stormwater and recreation facility. Today the existing driveway from 9th Street into the Streets facility exists on the south side of the site. A railroad spur is located on the north portion of the Tract. Water Quality Pond A is located on the west side of the site (south of the spur), and Water Quality Pond B is located north of the spur. A basketball court, picnic shelter and small parking area have been developed on the west side of the Tract adjacent to the driveway. The remainder of the Tract is the detention pond for the Streets Facility. It accepts discharges from both water quality ponds. The pond drains east to an existing 18” pipe and into the storm sewer system in 9th Street. There was an asphalt sidewalk on 9th Street that acted as the initial spillway for the pond. This walk and spillway was recently rebuilt by the city. Tract A generally slopes east at approximately 0.5% to 2%. The land is currently vacant except for the facilities described above. Based on previous reports, the only flow contributing to the site is the City Street Facilities to the west. According to FEMA Panel 08069C0981G (6/17/2008), the site is in Zone X - Protected by a Levee. The site has been studied numerous times in the past. Pertinent portions of these studies 2 will be discussed in this report regarding C values, release rates, and pond volumes. 1.3 Floodplain Submittal Requirements The site is in Zone X, and because of this a Floodplain Submittal is not required and a “City of Fort Collins Floodplain Review Checklist for 50% Submittals” has not been included with this report. 2. DRAINAGE BASINS AND SUB-BASINS 2.1 Major Basin Description The proposed development lies within the Dry Creek Master Drainage Plan. Outfall for this site is the storm sewer system in 9th Street and then Dry Creek. The previously approved release rate for the existing site is 10.5 CFS (more than the Master Plan requirement of 0.2 CFS per acre). The site was previously studied with the following reports. • “Final Drainage, Erosion and Storm Water Quality Study, East Vine Streets Facility P.U.D., Phase One Final”, by RBD, June 28, 1993. (The 1993 Report) • “Final Drainage and Erosion Control Study, East Vine Streets Facility P.U.D., Major Amendment Final, Phase Two Final”, by The Sear Brown Group, August 3, 1999. (The 1999 Report) • “Final Drainage and Erosion Control Report, East Vine Streets-Lot 5A City of Fort Collins Traffic Operations Facility”, by The Sear Brown Group, March 25, 2002. (The 2002 Report) The 1993 Report sized the two water quality ponds with the FAA/Rational Detention Method (prior to UDFCD guidance) as well as the detention pond with the FAA Method. The “C” value used for the sizing was 0.56 and the “old” City of Fort Collins Rainfall was utilized with a contributing area of 29.8 acres and a release rate of 10.5 CFS. The detention volume required was determined to be 2.77 acre-feet and the detention volume provided was 1.33 acre-feet. The designer added the 1.5 acre-feet of water quality volume to the provided detention volume to conclude that the required volume was achieved. 3 The 1999 Report re-sized the facilities again with the FAA Method for all three ponds. The “C” value used for the sizing was raised to 0.77 and the “old” City of Fort Collins Rainfall was again utilized with a contributing area of 29.47 acres and a release rate of 10.5 CFS. The detention volume required was determined to be 4.17 acre-feet and the detention volume provided was 2.61 acre-feet. The designer added the 1.6 acre-feet of water quality volume to the provided detention volume to conclude that the required volume was achieved. The 2002 Report did not analyze the detention pond and will not be discussed further. Please refer to Appendix B for reference material. 2.2 Sub-basin Description Tract A mostly contains existing water quality and detention facilities. There are several parking spaces, a picnic shelter, basketball court and the main access drive from 9th Street on the site – all of these facilities were shown on the original construction plans for the site and presumably were included in the drainage calculations. On Tract A, the existing driveway sheet flows to the south and never drained to the detention facility. This configuration will not be changed with the development of the park. The proposed project will regrade the detention pond so that it will function adequately as a recreation field with 1% minimum slope, install a restroom facility, larger picnic shelter, and playground with safety surface. Additional parking is proposed along the existing drive and LID treatment of this new impervious area is proposed. The core of the new park (new structures and playground) will be elevated and will fill within some of the existing detention pond volume. The project will regrade the pond so that the standalone detention storage in the pond will be achieved with the “new” 1997 City of Fort Collins rainfall and the water quality ponds will not be used as detention. 3. DRAINAGE DESIGN CRITERIA 3.1 Regulations This report was prepared to meet or exceed the “City of Fort Collins Storm Drainage Design Criteria Manual” specifications. Where applicable, the criteria established in the 4 “Urban Storm Drainage Criteria Manual” (UDFCD), developed by the Denver Regional Council of Governments, has been used. The release rate approved in 1993 and 1999 was used for the recalculation of detention volume. 3.2 Directly Connected Impervious Area (DCIA) Discussion Urban Drainage and Flood Control District (UDFCD) recommends a Four Step Process for receiving water protection that focuses on reducing runoff volumes, treating the water quality capture volume (WQCV), stabilizing drainageways and implementing long-term source controls. The Four Step Process applies to the management of smaller, frequently occurring events. The park development will add very little impervious area. Many of these criteria are not applicable to a project with such a minor drainage impact. Step 1: Employ Runoff Reduction Practices To reduce runoff peaks, volumes, and pollutant loads from urbanizing areas, implement Low Impact Development (LID) strategies, including Minimizing Directly Connected Impervious Areas (MDCIA). The core area of the park will be within an existing detention facility. The west portion of the core area will sheet flow into Water Quality Pond A and the east portion of the core area will flow into the playground safety surface and underdrain (which is effectively like a rain garden). The new parking proposed along the driveway will drain east and through a new rain garden to meet LID requirements. Step 2: Implement BMPs that Provide a Water Quality Capture Volume with Slow Release A rain garden is proposed for the new parking along the driveway. This will result in a slower release than if it simply sheet flowed south across the driveway. Step 3: Stabilize Drainageways Natural Drainageways are subject to bed and bank erosion due to increases in frequency, duration, rate and volume of runoff during and following development. Because the site will drain to an existing detention pond, bank stabilization is unnecessary with this project. 5 Step 4: Implement Site Specific and Other Source Control BMPs As a park, the proposed development will not increase pollutants that require treatment. The parking spaces (which could have sands, salts, and leaking fluids from cars) will drain to a rain garden. 3.3 Development Criteria Reference and Constraints The runoff from this site has been routed to conform to the requirements of the City Stormwater Department and previously approved reports for the overall site. The detention calculations were approved in 1999 with the “old” City rainfall (apparently the site submitted for review prior to the rainfall change in early 1999 and was vested). The existing water quality facilities on the west side of the site are upstream of the project and intended to treat the Streets Shops and Facilities. These ponds will not be upgraded or changed with this project. LID techniques are required – pavers are not proposed, so no less than seventy-five percent of any newly added impervious area must be treated using one or a combination of LID techniques. New impervious area in the park including the new parking spaces is approximately 16,859 sf. The restroom and walks on the west side of the core area (approximately 3,713 sf impervious) will drain west and into Water Quality Pond A. It is our understanding that the City would like to upgrade this water quality pond to a rain garden in the future, but at this time, this impervious area is not considered treated by LID. The east portion of the core area (shelter and playground – approximately 2,076 sf impervious) will be treated within the subsurface of the playground. Inside the perimeter of the playground will be a wood fiber media that will allow infiltration to a 3” layer of drainage gravel below the wood fiber media and surrounding a perforated sub-drain (very similar to a rain garden). This area is considered to be treated by LID. The remaining portion of walks (approximately 7,739 sf) sheet flow across an extensive amount of grass at shallow grades. There is no reasonable expectation that these concrete 6 walks needs additional water quality provisions, however these flows are being considered as treated by this grass buffer before exiting the detention pond. The new parking spaces and adjacent sidewalk will add 3,815 sf of impervious area. These parking spaces need to drain to the south, as they are lower than the top of the detention pond berm. The design will capture the minor storm in a new 4’ trickle pan on the south side of the new parking spaces and take that minor flow east and to a new rain garden. Any flows that overwhelm the pan or the rain garden will sheet flow to the south over the existing driveway and then east to 9th Street in a swale on the south side of the driveway. The parking spaces are considered to be 100% treated. The new impervious area created by the project that is treated by LID is 81%. Please refer to Appendix C – Drainage Exhibit for LID calculations and additional information. 3.4 Hydrologic Criteria Runoff computations have been prepared for the new park to demonstrate that there is no appreciable change in the imperviousness of the overall site when the existing Streets Facility is included. The 1999 Report determined the composite C Value for the overall basin to be 0.62, which yields an impervious value of 53% or 15.62 acres of hardscape on the 29.47 acre site. Whereas the proposed conditions for Basin A (draining to the detention pond) will add 0.48 acres of hardscape. In effect, this is an increase of 3.1% in hardscape acreage for the overall 29.47 acre site. Basin B (draining offsite) today releases a Q100 of 5.9 cfs and with the parking and walks added that cannot drain to the detention pond will produce 7.1 cfs in a 100 yr event, which is 1.2 cfs more than what was calculated for the historic (existing) condition of the site. However, 0.43 cfs will be conveyed through the proposed pan at the south of the new parking stalls, which will drain to the rain garden and ultimately the detention pond. The net additional runoff for Basin B will be 0.77 cfs (a 13% increase). Please refer to Appendix C – Runoff Computations for additional information. 7 3.5 Hydraulic Criteria No hydraulic calculations have been prepared. Two existing storm pipes will be extended with the project – these new pipes have been sized larger than the existing pipes. 3.6 Floodplain Regulations Compliance The project is located within a shaded FEMA Zone X, according to map number 08069C0981G. This Zone is for areas of 0.2% annual chance flood; areas of 1% chance flood with average depths of less than 1 foot or within drainage areas less than 1 square mile; and areas protected by levees from 1% annual chance flood. Based on the FEMA Flood Map Service Center, the site is within an area with reduced flood risk due to levee. 3.7 Modifications of Criteria The drainage design has been prepared assuming that the detention release rate can remain at the previously approved rate of 10.5 cfs. 4. DRAINAGE FACILITY DESIGN 4.1 General Concept Existing drainage scheme: The latest pertinent design of the East Vine Streets Facility (the 1999 Report), routed the southwestern portion of the overall facility (14.85 acres) to Water Quality Pond A and the northwestern portion of the facility (7.52 acres) to Water Quality Pond B. The water quality ponds released individually into the detention pond. A concrete pan exists from the outlet pipes to the 18” detention pond outlet pipe at 9th Street. The detention was undersized because the City’s old rainfall criterion was used. The 1999 Report design showed the invert of the pond at elevation 46.2 and the spillway to 9th Street at 4949.2 with a design volume of 2.61 acre-feet. At some point after the construction of the ponds, curb and gutter was added to 9th Street as well as an asphalt sidewalk between 9th Street and the pond. The old asphalt sidewalk appears to have significantly raised the spillway elevation of the detention pond with the 8 lowest point of the walk being at elevation 4950.1. The current survey indicates that the pond (with the additional 0.9’ of depth) exceeds the 1999 design volume with a detention volume of 4.97 acre-feet. The pond is deficient in that there is a low point in the driveway at elevation 4950.3, so if the pond ever were to spill, it would spill both east to 9th Street and to the south towards New Belgium Brewing once a water surface elevation of 4950.3 was exceeded. Since the most current survey was performed, the asphalt sidewalk between 9th Street and the pond has recently been reconstructed in concrete, with the previously submitted proposed grading plan used as a guide for construction of a higher spillway elevation. Proposed drainage scheme: The pan from the two water quality ponds runs through the center of the proposed core of the park. Several options to reroute this pan were investigated, but in each case, the reroute would take the pan between the playground/shelter and the turf field, which will be a high traffic area. The goal of the project was to avoid any park users from having to cross this trickle. The current design solution will reroute the pipe from Water Quality Pond B into Water Quality Pond A and then route the outlet pipe from Water Quality Pond A through the playground and to the south side of the site. A swale will be built at the toe of the south embankment at 0.5% to the detention pond outlet pipe. This swale area will be planted in a way that discourages pedestrians from crossing it. The detention pond volume has been recalculated with the 1999 Report acreage, C value and release rate, but with the current City of Fort Collins rainfall. The core area of the park is encroaching into the existing pond volume and the regrading of the bottom of the pond (to get a standard 1% slope) will also take some of the existing volume. To counteract this, the spillway will be lengthened and raised slightly, and the south berm of the pond will also be raised to an elevation 12” above the spillway (to remove chances of spilling over the drive). A headwall and orifice plate will be added to the pond outlet structure to reduce the flow to the 10.5 cfs release rate. 9 Parking will be added to the drive, but it will be treated in a rain garden prior to the underdrain releasing to the 0.5% swale. 4.2 Specific Details A summary of the drainage patterns within specific areas of the project is provided in the following paragraphs. Hydrology of the basins was not analyzed as the previous reports were used for overall C values and no new conveyance pipes are proposed. Please refer to Appendix A for the drainage plan. Water Quality Pond B is north of the railroad spur and currently has 0.56 acre-feet of volume prior to water spilling over the railroad tracks into Water Quality Pond A. Presently, the pond drains through a 12”x18” HERCP pipe (15” equivalent) to the trickle pan in the detention pond. The proposed design will add a manhole on this pipe on the south side of the railroad spur and extend an 18” pipe to Water Quality Pond A. Water Quality Pond A is south of the railroad spur and west of the proposed park core area and the detention pond. It accepts runoff from the existing streets facility both overland through a curb cut and from an existing 30” pipe. The pond has an existing volume of 1.59 acre feet prior to spilling east into the detention pond. The pond outlet is an 8” steel pipe which currently drains to the existing trickle pan in the detention pond. The proposed design will add a junction box (area inlet) on the downstream side of this 8” pipe. A new, solid 12” PVC pipe will be run through the proposed playground and will discharge into the detention pond on the south side of the core area. This 12” pipe will be placed on the subgrade of the playground with drainage gravel around it and engineered wood fiber safety surface above it. The pipe will be readily accessible if any maintenance is required. Additionally, the grading of the east side of Water Quality Pond A will be changed. Today the spill elevation of the pond is 4950.7. This spill location is directly adjacent to the proposed restroom and core area. With the new grading design of the detention pond, Water Quality Pond A will spill northeast at an elevation of 4951.0. The bottom of the detention pond will sheet flow at 1% to the southeast and be the new spillway for the Water Quality Pond. No erosion protection will be necessary as it will basically just spill into a flat field. With the increase in the spill elevation, the new volume associated with 10 Water Quality Pond A will be 1.99 acre-feet. It is assumed that in the future the streets department will reconfigure this pond into a rain garden or some LID treatment basin. Preliminary calculations indicate that much less volume than the 1.99 acre feet available would be necessary. The Core Area is located north of the existing drive and new parking, and between Water Quality Pond A and the Detention Pond. It will contain a new restroom (set 12” higher than the top of the detention pond berm), planting beds, walkways, an open air picnic shelter and the playground for the park. The core area is elevated above existing grade and will drain west and east. The west portion of the site will drain overland into Water Quality Pond A, the east portion of the site will drain into the playground safety surface. The safety surface is an engineered wood fiber that will be at least 18” deep with a layer of drainage gravel below that will surround a 6” perforated pipe in the bottom to drain runoff to the detention pond. The Detention Pond was designed in 1993 with the first construction phase of the East Vine Streets Facility P.U.D. Today the detention pond outlets to an uncontrolled 18” pipe in the southeast corner of the pond and into the storm sewer system in 9th Street. Based on the most current survey, the existing pond has a volume of 4.97 acre-feet at the existing spill elevation of 4950.1 over the 9th Street asphalt sidewalk. The pond has a secondary spill location on the north side of the existing driveway at elevation 4950.3. The existing volume of the pond is more than was designed, but the spill elevation was artificially raised with the construction of the asphalt sidewalk on 9th Street, and the pond bottom is much flatter than was designed with slopes as flat as 0.40%. The construction of the park core area will fill within the existing detention volume as will steepening the bottom of the pond to 1% minimum (required for usable turf fields). The goal of the project was to calculate the required pond volume with the current City of Fort Collins rainfall and control the release of the pond with a new orifice plate on the 18” outlet pipe. Using the acreage, C value, and release rate from the 1999 Report, along with the new rainfall, the required detention pond volume is 4.81 acre-feet. As mentioned previously, the asphalt sidewalk along the east rim of the detention pond was reconstructed in concrete. The design called for the walk being rebuilt with a 100’ long spill elevation of 4950.3. Calculations for the spillway sizing are provided in Appendix C. The south side of the pond will also be reconstructed to a minimum elevation of 11 4951.3 so that the secondary pond spillway is removed. The bottom of the pond has been designed with a 1% minimum slope in the open field areas, and a 0.5% grass channel on the south toe of the pond (which will receive flows from the core area and Water Quality Pond A). The detention pond volume achieved with these various grading modifications is 4.86 acre-feet, not including any detention within the water quality ponds, which meets the project’s goals. The New Parking Spaces are located on the north side of the existing driveway. The driveway in this area is lower than the top of the detention pond, so it is not possible to sheet flow the parking spaces into the pond. In an effort to provide water quality for this new hard surface area, a 4’ trickle pan will be run on the north edge of the driveway to accept the concrete parking spaces and the adjacent walk. This pan will be graded at 0.35% to the east and drain to a new, small rain garden. The sizing of the pan and rain garden follow: Total area of “New Parking Spaces” Basin = 4,620 SF Area of Concrete Pavement = 3,815 SF Percent Impervious = 83% C value = 0.82 Q (2-year for pan) = CiA = (0.82)*(2.85)*(4,620/43,560) = 0.25 cfs Q (100-year for pan) = CiA = (1.0)*(9.95)*(4,620/43,560) = 1.06 cfs Calculations for the rain garden are included in the appendices. It will have an 80 SF bottom at elevation 5049.5 and will pond 9” deep prior to overtopping the north edge of the driveway. The Existing South Driveway is south of the detention pond. The driveway is already lower than the existing pond spillway and it is impossible to drain the driveway to the pond. The original design of the Streets Facility showed this configuration. 5. CONCLUSIONS 5.1 Compliance with Standards All computations that have been completed within this report are in compliance with the 12 City of Fort Collins Storm Drainage Design Criteria Manual and the previously approved reports for the site. 5.2 Drainage Concept The proposed drainage concepts presented in this report and on the construction plans adequately provides for stormwater quantity and quality treatment of proposed impervious areas. Conveyance elements have been designed to pass required flows and to minimize future maintenance. If, at the time of construction, groundwater is encountered, a Colorado Department of Health Construction Dewatering Permit will be required. 13 6. REFERENCES 1. City of Fort Collins, “Fort Collins Stormwater Criteria Manual Amendments to the Urban Drainage and Flood Control District Criteria Manual”, adopted December 2011. 2. Urban Drainage and Flood Control District, “Urban Storm Drainage Criteria Manual”, Volumes 1 and 2, dated June 2001, and Volume 3 dated November 2010. 3. “Final Drainage, Erosion and Storm Water Quality Study, East Vine Streets Facility P.U.D., Phase One Final”, by RBD, June 28, 1993. 4. “Final Drainage and Erosion Control Study, East Vine Streets Facility P.U.D., Major Amendment Final, Phase Two Final”, by The Sear Brown Group, August 3, 1999. A APPENDIX A VICINITY MAP AND DRAINAGE PLAN A APPENDIX A VICINITY MAP AND DRAINAGE PLAN SITE Vicinity Map Scale: 1" = 1000' B APPENDIX B POND CALCULATIONS 1993 Report Calculations 1999 Report Calculations Actual Existing Pond Volumes based on 2017 Topographic Survey Proposed FAA Detention Sizing with “New” City Rainfall Proposed Volume Calculations (Detention and Water Quality Pond A) Orifice Plate Sizing for 10.5 CFS Detention Pond Drain Time This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA This unofficial copy was downloaded on May-10-2017 from the City of Fort Collins Public Records Website: http://citydocs.fcgov.com For additional information or an official copy, please contact City of Fort Collins Utilities 700 Wood Street Fort Collins, CO 80524 USA Existing Detention Pond - Stage/Storage LOCATION: STREETS PARK PROJECT NO: COMPUTATIONS BY: MPO DATE: 2/7/2018 V = 1/3 d ( A + B + sqrt(A*B)) where V = volume between contours, ft 3 d = depth between contours, ft A = surface area of contour Main Detention Pond at Lemay Water Quality Pond A (SOUTH) Water Quality Pond B (NORTH) Surface Incremental Total Surface Incremental Total Surface Incremental Total Stage Area Storage Storage Stage Area Storage Storage Stage Area Storage Storage (ft) (ft 2 ) (ac-ft) (ac-ft) (ft) (ft 2 ) (ac-ft) (ac-ft) (ft) (ft 2 ) (ac-ft) (ac-ft) 46.2 0 46.2 46.2 46.5 85 0.00 0.00 46.5 0.00 0.00 46.5 0.00 0.00 47.0 2913 0.01 0.01 47.0 0.00 0.00 47.0 0.00 0.00 47.5 12101 0.08 0.09 47.5 0.00 0.00 47.5 0.00 0.00 48.0 27047 0.22 0.31 48.0 0.00 0.00 48.0 0.00 0.00 48.5 52919 0.45 0.76 48.5 100 0.00 0.00 48.5 0.00 0.00 49.0 101873 0.87 1.64 49.0 18666 0.08 0.08 49.0 0.00 0.00 49.5 131750 1.34 2.97 49.5 35620 0.31 0.38 49.5 0.00 0.00 49.8 145695 0.95 3.93 49.8 40844 0.26 0.65 49.8 0.00 0.00 50.0 153886 0.69 4.62 50.0 43316 0.19 0.84 50.0 0 0.00 0.00 EX SPILL LEMAY 50.1 158202 0.36 4.97 50.1 44394 0.10 0.94 50.1 1 0.00 0.00 EX SPILL SOUTH 50.3 166935 0.75 5.72 50.3 45341 0.21 1.15 50.3 31 0.00 0.00 50.5 48397 0.22 1.36 50.5 200 0.00 0.00 50.7 50567 0.23 1.59 50.7 550 0.00 0.00 51.0 3230 0.02 0.02 51.5 11500 0.10 0.10 52.0 20000 0.18 0.28 52.5 33100 0.54 0.56 1-16-18 STREETS PARK POND MPO.xls Interwest Consulting Group DETENTION VOLUME CALCULATIONS Rational Volumetric (FAA) Method 100-Year Event LOCATION: STREETS PARK - 1999 POND SIZING WITH NEW RAINFALL PROJECT NO: COMPUTATIONS BY: MPO DATE: 2/7/2018 Equations: Area trib. to pond = 29.47 acre Developed flow = QD = CIA C (100) = 0.77 Vol. In = Vi = T C I A = T QD Developed C A = 22.7 acre Vol. Out = Vo =K QPO T Release rate, QPO = 10.50 cfs storage = S = Vi - Vo K = 1 (from fig 2.1) Rainfall intensity from City of Fort Collins IDF Curve with updated (3.67") rainfall Storm Rainfall QD Vol. In Vol. Out Storage Storage Duration, T Intensity, I (cfs) Vi Vo S S (min) (in/hr) (ft3) (ft3) (ft3) (ac-ft) 5 9.95 225.8 67735 3150 64585 1.48 10 7.77 176.2 105741 6300 99441 2.28 20 5.62 127.5 153052 12600 140452 3.22 30 4.47 101.4 182512 18900 163612 3.76 40 3.74 84.9 203678 25200 178478 4.10 50 3.23 73.4 220144 31500 188644 4.33 60 2.86 64.9 233614 37800 195814 4.50 70 2.57 58.3 245017 44100 200917 4.61 80 2.34 53.1 254915 50400 204515 4.70 90 2.15 48.8 263667 56700 206967 4.75 100 1.99 45.3 271520 63000 208520 4.79 110 1.86 42.2 278650 69300 209350 4.81 120 1.75 39.6 285184 75600 209584 4.81 130 1.65 37.3 291219 81900 209319 4.81 140 1.56 35.3 296830 88200 208630 4.79 150 1.48 33.6 302078 94500 207578 4.77 160 1.41 32.0 307008 100800 206208 4.73 170 1.35 30.6 311661 107100 204561 4.70 180 1.29 29.3 316067 113400 202667 4.65 190 1.24 28.1 320255 119700 200555 4.60 200 1.19 27.0 324245 126000 198245 4.55 210 1.15 26.0 328058 132300 195758 4.49 Required Storage Volume: 209584 ft3 4.81 acre-ft 1-16-18 STREETS PARK POND MPO.xls,FAA-100yr (A-E)) Proposed Detention Pond - Stage/Storage LOCATION: STREETS PARK PROJECT NO: COMPUTATIONS BY: LAJ DATE: 6/6/2018 V = 1/3 d ( A + B + sqrt(A*B)) where V = volume between contours, ft 3 d = depth between contours, ft A = surface area of contour Main Detention Pond at Lemay Water Quality Pond A Surface Incremental Total Surface Incremental Total Stage Area Storage Storage Stage Area Storage Storage (ft) (ft 2 ) (ac-ft) (ac-ft) (ft) (ft 2 ) (ac-ft) (ac-ft) 46.2 1 46.2 46.5 1218 0.00 0.00 46.5 0.00 0.00 47.0 8312 0.05 0.05 47.0 0.00 0.00 47.5 21334 0.16 0.22 47.5 0.00 0.00 48.0 37506 0.33 0.55 48.0 0.00 0.00 48.5 54767 0.53 1.08 48.5 100 0.00 0.00 49.0 73375 0.73 1.81 49.0 18666 0.08 0.08 49.5 94235 0.96 2.77 49.5 35620 0.31 0.38 49.8 107677 0.69 3.46 49.8 40844 0.26 0.65 50.0 115543 0.51 3.98 50.0 43316 0.19 0.84 50.1 119121 0.27 4.24 50.1 44394 0.10 0.94 NEW SPILL 50.3 126233 0.56 4.81 50.3 45341 0.21 1.15 50.4 50.5 48397 0.22 1.36 50.5 NEW OVERTOP TO DET 51.0 60000 0.84 1.99 NEW TOP OF BERM 51.3 EX SPILL TO SOUTH 51.6 Additional Detention Pond Volume at Lemay Surface Incremental Total Stage Area Storage Storage (ft) (ft 2 ) (ac-ft) (ac-ft) 47.8 1 48.5 223 0.00 0.00 49.0 608 0.00 0.01 49.5 1223 0.01 0.02 50.0 2111 0.02 0.04 NEW SPILL 50.3 2834 0.02 0.05 NEW TOP OF BERM 51.3 06-06-18 STREETS PARK POND_LAJ.xls DETENTIONPOND 100-yr Event, Outlet Sizing LOCATION: STREETS PARK PROJECT NO: COMPUTATIONS BY: MPO DATE: 2/7/2018 Submerged Orifice Outlet: release rate is described by the orifice equation, Qo = CoAo sqrt( 2g(h-Eo)) where Qo = orifice outflow (cfs) Co = orifice discharge coefficient g = gravitational acceleration = 32.20 ft/s Ao = effective area of the orifice (ft2) Eo = greater of geometric center elevation of the orifice or d/s HGL (ft) h = water surface elevation (ft) Qo = 10.50 cfs outlet pipe dia = D = 18.0 in Invert elev. = 46.20 ft (inv. "D" on outlet structure) Eo = 47.50 ft (downstream HGL for peak 100 yr flow - from FlowMaster) h = 50.30 ft - 100 yr WSEL Co = 0.65 solve for effective area of orifice using the orifice equation Ao = 1.203 ft2 = 173.2 in2 orifice dia. = d = 14.85 in Check orifice discharge coefficient using Figure 5-21 (Hydraulic Engineering ) d/ D = 0.83 kinematic viscosity, v = 1.22E-05 ft2/s Reynolds no. = Red = 4Q/(πdv ) = 8.85E+05 Co = (K in figure) = 0.65 check A o = 1.203 ft 2 = 173.23 in 2 Qmax = 10.50 cfs orifice - 100yr, 1-16-18 STREETS PARK POND MPO.xls Stormwater Facility Name: Facility Location & Jurisdiction: User (Input) Watershed Characteristics User Defined User Defined User Defined User Defined Watershed Slope = 0.010 ft/ft Stage [ft] Area [ft^2] Stage [ft] Discharge [cfs] Watershed Length-to-Width Ratio = 1.00 L:W 0.00 0 0.00 0.00 Watershed Area = 6.89 acres 0.30 1,218 4.10 10.50 Watershed Imperviousness = 7.0% percent 1.30 21,334 5.10 225.00 Percentage Hydrologic Soil Group A = 0.0% percent 2.30 54,767 Percentage Hydrologic Soil Group B = 0.0% percent 3.30 94,235 Percentage Hydrologic Soil Groups C/D = 100.0% percent 3.80 115,543 4.10 126,233 5.10 126,233 User Input: Detention Basin Characteristics WQCV Design Drain Time = 40.00 hours After completing and printing this worksheet to a pdf, go to: https://maperture.digitaldataservices.com/gvh/?viewer=cswdif, create a new stormwater facility, and attach the pdf of this worksheet to that record. Routed Hydrograph Results Design Storm Return Period = WQCV 2 Year 5 Year 10 Year 25 Year 50 Year 100 Year Two-Hour Rainfall Depth = 0.53 0.98 1.36 1.71 2.31 2.91 3.67 in Calculated Runoff Volume = 0.028 0.031 0.177 0.333 0.658 0.924 1.332 acre-ft OPTIONAL Override Runoff Volume = acre-ft Inflow Hydrograph Volume = 0.027 0.030 0.177 0.333 0.658 0.924 1.331 acre-ft Time to Drain 97% of Inflow Volume = 1 1 2 2 3 3 4 hours Time to Drain 99% of Inflow Volume = 1 1 2 2 3 4 4 hours Maximum Ponding Depth = 0.23 0.26 0.75 1.06 1.51 1.78 2.10 ft Maximum Ponded Area = 0.021 0.024 0.237 0.377 0.647 0.853 1.104 acres Maximum Volume Stored = 0.002 0.003 0.064 0.158 0.379 0.582 0.901 acre-ft Workbook Protected Worksheet Protected Stormwater Detention and Infiltration Design Data Sheet Streets Park Fort Collins, CO 06-15-18 STREETS PARK_DRAIN TIME.xlsm, Design Data 6/15/2018, 11:05 AM Doing_Clear_Formatting Yes = CountA= 1 0 1 2 3 #N/A #N/A 0 1 2 3 #N/A #N/A Check Data Set 1 Check Data Set 1 Area Discharge Stormwater Detention and Infiltration Design Data Sheet 0 5 10 15 20 25 30 35 0.1 1 10 FLOW [cfs] TIME [hr] 100YR IN 100YR OUT 50YR IN 50YR OUT 25YR IN 25YR OUT 10YR IN 10YR OUT 5YR IN 5YR OUT 2YR IN 2YR OUT WQCV IN WQCV OUT 0 0.5 1 1.5 2 2.5 0.1 1 10 100 PONDING DEPTH [ft] DRAIN TIME [hr] 100YR 50YR 25YR 10YR 5YR 2YR WQCV 06-15-18 STREETS PARK_DRAIN TIME.xlsm, Design Data 6/15/2018, 11:05 AM C APPENDIX C DRAINAGE INFORMATION Drainage Exhibit Runoff Computations Trickle Pan Capacity for New Parking Rain Garden Calculation Spillway Calculation Interwest Consulting Group RUNOFF COEFFICIENTS & % IMPERVIOUS LOCATION: Streets Park (HISTORIC) PROJECT NO: 1165-012-92 COMPUTATIONS BY: laj DATE: 6/15/2018 Recommended Runoff Coefficients from Table RO-11 of City of Fort Collins Stormwater Code, Volume I Recommended % Impervious from Table RO-3 Urban Storm Drainage Criteria Manual, Volume I Type B Soils Runoff % coefficient Impervious C Streets, parking lots (asphalt): 0.95 100 Sidewalks (concrete): 0.95 96 Roofs: 0.95 90 Gravel or Pavers: 0.50 40 Landscape Areas (Flat, heavy) : 0.15 0 Landscape Areas (Steep, heavy) : 0.20 0 SUBBASIN TOTAL TOTAL ROOF PAVED PAVERS SIDEWALK LANDSCAPE RUNOFF % DESIGNATION AREA AREA AREA AREA AREA AREA AREA COEFF. Impervious REMARKS (ac.) (sq.ft) (sq.ft) (sq.ft) (sq.ft) (sq.ft) (sq.ft) (C) A 6.89 300,014 195 6,491 0 2,996 290,332 0.18 3 B 1.50 65,352 0 25,599 0 750 39,003 0.47 40 Equations - Calculated C coefficients & % Impervious are area weighted C = Σ (Ci Ai) / At Ci = runoff coefficient for specific area, Ai Ai = areas of surface with runoff coefficient of Ci n = number of different surfaces to consider At = total area over which C is applicable; the sum of all Ai's 06-15-18 STREETS PARK_FC FLOW_HISTORIC.xls Interwest Consulting Group STANDARD FORM SF-2 TIME OF CONCENTRATION - 100 YR LOCATION: Streets Park (HISTORIC) PROJECT NO: 1165-012-92 COMPUTATIONS BY: laj DATE: 6/15/2018 100-yr storm Cf = 1.25 from Table RO-12 of City of Fort Collins Stormwater Code, Volume I SUB-BASIN INITIAL /OVERLAND TRAVEL TIME / GUTTER OR CHANNEL FLOW tc CHECK FINAL REMARKS DATA TIME (ti) (tt) (URBANIZED BASIN) tc DESIGN SUBBASIN(s) Area C C*Cf Length Slope ti Length Slope n Vel. tt tc = Total L tc=(l/180)+10 PONIT (ac) (ft) (%) (min) (ft) (%) Manning (ft/s) (min) ti + tt (ft) (min) (min) (1) (2) (3) (4) (5) (6) (7) (8) rough. (9) (10) (11) (12) (13) (14) A1 A 6.89 0.18 0.22 263 1.8 21.8 356 0.7 0.03 0.9 6.4 28.2 619 13.4 13.4 B1 B 1.50 0.47 0.59 58 0.9 7.6 751 0.5 0.03 0.7 17.0 24.7 809 14.5 14.5 EQUATIONS: tc = ti + tt ti = [1.87 (1.1 - CCf ) L0.5 ] / S 1/3 tt = L/Vel. Velocity from Manning's Equation with R=0.1 (corresponds to Figure 3-3 of City of Fort Collins Design Manual) final tc = minimum of ti + tt and urbanized basin check min. tc = 5 min. due to limits of IDF curves 06-15-18 STREETS PARK_FC FLOW_HISTORIC.xls Interwest Consulting Group RATIONAL METHOD PEAK RUNOFF (City of Fort Collins, 100-Yr Storm) LOCATION: Streets Park (HISTORIC) PROJECT NO: 1165-012-92 COMPUTATIONS BY: laj DATE: 6/15/2018 100 yr storm, Cf = 1.25 DIRECT RUNOFF CARRY OVER TOTAL REMARKS Des. Area A C Cf tc i Q (100) from Q (100) Q(100)tot Design Point Design. (ac) (min) (in/hr) (cfs) Point (cfs) (cfs) A1 A 6.89 0.22 13.4 6.84 10.4 10.4 B1 B 1.50 0.59 14.5 6.61 5.9 5.9 Q = C iA Q = peak discharge (cfs) C = runoff coefficient i = rainfall intensity (in/hr) from City of Fort Collins IDF curve (4/16/99) A = drainage area (acres) i = 84.682 / (10+ tc) 0.7975 06-15-18 STREETS PARK_FC FLOW_HISTORIC.xls Interwest Consulting Group RUNOFF COEFFICIENTS & % IMPERVIOUS LOCATION: Streets Park (PROPOSED) PROJECT NO: 1165-012-92 COMPUTATIONS BY: laj DATE: 6/15/2018 Recommended Runoff Coefficients from Table RO-11 of City of Fort Collins Stormwater Code, Volume I Recommended % Impervious from Table RO-3 Urban Storm Drainage Criteria Manual, Volume I Type B Soils Runoff % coefficient Impervious C Streets, parking lots (asphalt): 0.95 100 Sidewalks (concrete): 0.95 96 Roofs: 0.95 90 Gravel or Pavers: 0.50 40 Landscape Areas (Flat, heavy) : 0.20 0 Landscape Areas (Steep, heavy) : 0.35 0 SUBBASIN TOTAL TOTAL ROOF PAVED PAVERS SIDEWALK LANDSCAPE RUNOFF % DESIGNATION AREA AREA AREA AREA AREA AREA AREA COEFF. Impervious REMARKS (ac.) (sq.ft) (sq.ft) (sq.ft) (sq.ft) (sq.ft) (sq.ft) (C) A 6.89 300,014 1,573 2,619 0 16,119 279,703 0.25 7 B 1.50 65,352 0 29,490 0 3,090 32,773 0.57 50 Equations - Calculated C coefficients & % Impervious are area weighted C = Σ (Ci Ai) / At Ci = runoff coefficient for specific area, Ai Ai = areas of surface with runoff coefficient of Ci n = number of different surfaces to consider At = total area over which C is applicable; the sum of all Ai's 06-15-18 STREETS PARK_FC FLOW_PROPOSED.xls Interwest Consulting Group STANDARD FORM SF-2 TIME OF CONCENTRATION - 100 YR LOCATION: Streets Park (PROPOSED) PROJECT NO: 1165-012-92 COMPUTATIONS BY: laj DATE: 6/15/2018 100-yr storm Cf = 1.25 from Table RO-12 of City of Fort Collins Stormwater Code, Volume I SUB-BASIN INITIAL /OVERLAND TRAVEL TIME / GUTTER OR CHANNEL FLOW tc CHECK FINAL REMARKS DATA TIME (ti) (tt) (URBANIZED BASIN) tc DESIGN SUBBASIN(s) Area C C*Cf Length Slope ti Length Slope n Vel. tt tc = Total L tc=(l/180)+10 PONIT (ac) (ft) (%) (min) (ft) (%) Manning (ft/s) (min) ti + tt (ft) (min) (min) (1) (2) (3) (4) (5) (6) (7) (8) rough. (9) (10) (11) (12) (13) (14) A1 A 6.89 0.25 0.31 263 1.8 19.6 356 0.7 0.012 2.2 2.6 22.3 619 13.4 13.4 B1 B 1.50 0.57 0.72 58 0.9 5.7 751 0.5 0.03 0.7 17.0 22.8 809 14.5 14.5 EQUATIONS: tc = ti + tt ti = [1.87 (1.1 - CCf ) L0.5 ] / S 1/3 tt = L/Vel. Velocity from Manning's Equation with R=0.1 (corresponds to Figure 3-3 of City of Fort Collins Design Manual) final tc = minimum of ti + tt and urbanized basin check min. tc = 5 min. due to limits of IDF curves 06-15-18 STREETS PARK_FC FLOW_PROPOSED.xls Interwest Consulting Group RATIONAL METHOD PEAK RUNOFF (City of Fort Collins, 100-Yr Storm) LOCATION: Streets Park (PROPOSED) PROJECT NO: 1165-012-92 COMPUTATIONS BY: laj DATE: 6/15/2018 100 yr storm, Cf = 1.25 DIRECT RUNOFF CARRY OVER TOTAL REMARKS Des. Area A C Cf tc i Q (100) from Q (100) Q(100)tot Design Point Design. (ac) (min) (in/hr) (cfs) Point (cfs) (cfs) A1 A 6.89 0.31 13.4 6.84 14.8 14.8 B1 B 1.50 0.72 14.5 6.61 7.1 7.1 Q = C iA Q = peak discharge (cfs) C = runoff coefficient i = rainfall intensity (in/hr) from City of Fort Collins IDF curve (4/16/99) A = drainage area (acres) i = 84.682 / (10+ tc) 0.7975 06-15-18 STREETS PARK_FC FLOW_PROPOSED.xls Project Description Flow Element: Triangular Channel Friction Method: Manning Formula Solve For: Discharge Section Data Roughness Coefficient: 0.013 Channel Slope: 0.35000 % Normal Depth: 2.00 in Left Side Slope: 12.00 ft/ft (H:V) Right Side Slope: 12.00 ft/ft (H:V) Discharge: 0.43 ft³/s Capacity Cross Section for Triangular Channel - 1 Sheet 1 of 2 Designer: Company: Date: Project: Location: 1. Basin Storage Volume A) Effective Imperviousness of Tributary Area, Ia Ia = 83.0 % (100% if all paved and roofed areas upstream of rain garden) B) Tributary Area's Imperviousness Ratio (i = Ia/100) i = 0.830 C) Water Quality Capture Volume (WQCV) for a 12-hour Drain Time WQCV = 0.28 watershed inches (WQCV= 0.8 * (0.91* i3 - 1.19 * i2 + 0.78 * i) D) Contributing Watershed Area (including rain garden area) Area = 4,620 sq ft E) Water Quality Capture Volume (WQCV) Design Volume VWQCV = 107 cu ft Vol = (WQCV / 12) * Area F) For Watersheds Outside of the Denver Region, Depth of d6 = 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 = 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 = 71 sq ft D) Actual Flat Surface Area AActual = 80 sq ft E) Area at Design Depth (Top Surface Area) ATop = 600 sq ft F) Rain Garden Total Volume VT= 255 cu ft (VT= ((ATop + AActual) / 2) * Depth) 3. Growing Media 4. Underdrain System A) Are underdrains provided? B) Underdrain system orifice diameter for 12 hour drain time i) Distance From Lowest Elevation of the Storage y = ft Volume to the Center of the Orifice ii) Volume to Drain in 12 Hours Vol12 = N/A cu ft iii) Orifice Diameter, 3/8" Minimum DO = N/A in Design Procedure Form: Rain Garden (RG) MPO February 7, 2018 Streets Park - Overall Rain Garden Requirement based on Aerial Detention Pond Emergency Overflow Spillway Sizing LOCATION: STREETS PARK PROJECT NO: COMPUTATIONS BY: MPO DATE: 2/7/2018 Equation for flow over a broad crested weir Q = CLH3/2 where C = weir coefficient = 2.6 H = overflow height L = length of the weir The pond has a spill elevation equal to the maximum water surface elevation in the pond Design spillway with 0.5 ft flow depth, thus H = 0.9 ft Size the spillway assuming that the pond outlet is completely clogged. Pond Q (100) = 225.0 cfs (peak flow into pond) Spill elev = 50.30 ft Min top of berm elev.= 51.20 Weir length required: L = 101 ft Use L = 100 ft v = 2.45 ft/s spillway, 06-06-18 STREETS PARK POND_LAJ.xls D APPENDIX D STANDARD OPERATING PROCEDURE (SOP) Playground Surfacing Maintenance Plan Routine Maintenance Table (Summary adapted from Chapter 6 of UDFCD, Volume 3) Required Action Maintenance Objective Frequency of Action Debris and Litter Removal Remove debris and litter from the infiltrating surface to minimize clogging of the media. Routine - Including just before annual storm seasons (April and May), end of storm season after leaves have fallen (October), and following significant rainfall events. Sediment Removal and Media Replacement Maintain adequate infiltration rates to drain the playground surfacing within 24 hours. Upon replacement of EWF and/or clogging is observed. Inspection of the geotextile fabric and drainage gravel below the EWF should be performed. If either item is preventing proper infiltration, it should be replaced per design specifications. Non-routine – Maintenance activities to restore infiltration capacity of playground surfacing will vary with the degree and nature of the clogging. The frequency of media replacement will depend on site-specific characteristics that have the potential to clog the playground surfacing and drainage gravel. Replacement of Engineered Wood Fiber (EWF) Maintain a level play surface with raking of existing EWF and add additional EWF as necessary to achieve a level surface and proper depths. Where playground equipment is less than 4 feet in height, the minimum EWF depth required is 8 inches after compaction. Where playground equipment exceeds 4 feet in height, the minimum EWF depth required is 12 inches after compaction. Non-Routine – As needed and inspect EWF conditions at least twice annually following precipitation events. Inspections Determine if the playground surfacing area is providing acceptable infiltration, and outlet structures are not obstructed. Check for erosion and repair as necessary. Routine - Inspect the infiltrating surface at least twice annually Playground Drain Pipe Lines Maintenance Plan Routine Maintenance Table Required Action Maintenance Objective Frequency of Action Debris Removal from Inlets and Catch Basins Remove debris and trash from inlets to prevent them from continuing downstream or clogging and reducing the flow capacity of the system. Non-routine – Remove debris as needed after storm events or seasonally such as during the Fall with heavy amounts of leaves and twigs entering the system. Debris Removal from Storm Pipes Ensure the pipe systems function as intended. Reduced capacities in the pipes will cause the system to back up and increase the frequency of surface flooding that could damage property. Non-routine – Pipe cleaning is recommended as needed based on the results of inspections or when the system is no longer able to regularly convey routine storm flows from the site. Inspection Use a video camera to inspect the condition of the storm drain pipes looking for sediment buildup and structural integrity. Clean out pipes as needed. If the integrity of the pipe is compromised, then repair the damaged section(s). Routine – Visually Inspect pipes and inlets at least annually or after major storm events. Every 2-5 years the pipes should be inspected with a video camera. following precipitation events. Check for obvious problems during routine maintenance visits, especially for plugging of outlets and erosion.