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Home My WebLink AboutCROWNE AT OLD TOWN NORTH (FORMERLY CROWNE ON SUNIGA - RESIDENTIAL) - PDP - PDP170007 - SUBMITTAL DOCUMENTS - ROUND 1 - DRAINAGE REPORTPreliminary Drainage and Erosion Control Report for Crowne at Old Town North Fort Collins, Colorado February 15, 2017 February 15, 2017 Mrs. Heather McDowell City of Fort Collins Water Utilities--Storm water 700 Wood Street Fort Collins, Colorado 80521 RE: Preliminary Drainage and Erosion Control Report Crowne at Old Town North Dear Heather: We are pleased to submit to you, for your review and approval, this Preliminary Drainage and Erosion Control Report for Crowne at Old Town North. All computations within this report have been completed in compliance with the City of Fort Collins Storm Drainage Design Criteria. We appreciate your time and consideration in reviewing this submittal. Please call if you have any questions. Respectfully, Aspen Engineering John Gooch, P.E. Principal TABLE OF CONTENTS DESCRIPTION PAGE I. GENERAL LOCATION AND DESCRIPTION 5 A. LOCATION 5 B. DESCRIPTION OF PROPERTY 5 II. DRAINAGE BASINS 6 A. MAJOR BASIN DESCRIPTION 6 B. EXISTING SUB-BASIN DESCRIPTION 7 C. PROPOSED SUB-BASIN DESCRIPTION 8 III. DRAINAGE DESIGN CRITERIA 9 A. REGULATIONS 9 B. DEVELOPMENT CRITERIA REFERENCE AND CONSTRAINTS 9 C. HYDROLOGIC CRITERIA 10 D. HYDRAULIC CRITERIA 10 E. VARIANCES 10 IV. DRAINAGE FACILITY DESIGN 10 A. GENERAL CONCEPT 10 B. SPECIFIC DETAILS 11 C. DETENTION POND 15 D. STREET CAPACITIES 16 V. STORM WATER QUALITY 16 A. GENERAL CONCEPT & SPECIFIC DETAILS 16 VI. EROSION CONTROL 16 A. GENERAL CONCEPT 16 VII. CONCLUSIONS 17 A. COMPLIANCE WITH STANDARDS & STORMWATER 17 OPERATIONS/ MAINTENANCE PROCEDURE B. DRAINAGE CONCEPT 18 C. STORM WATER QUALITY 18 D. EROSION CONTROL CONCEPT 18 E. EROSION CONTROL ESCROW ESTIMATE 18 REFERENCES 19 APPENDIX PAGE VICINITY MAP A RATIONAL METHOD HYDROLOGY & POND SIZING B STORM SEWER PIPE SIZING C INLET & CONCRETE SIDEWALK CULVERT SIZING D SWALE SIZING E EROSION CONTROL & RIPRAP SIZING F PROPOSED AND EXISTING DRAINAGE BASIN EXHIBITS G 5 PRELIMINARY DRAINAGE AND EROSION CONTROL REPORT FOR CROWNE AT OLD TOWN NORTH FORT COLLINS, COLORADO I. GENERAL LOCATION AND DESCRIPTION A. Location The Crowne at Old Town North project is located approximately 450 feet east of North College, along future Suniga Road. The property is bound to the west by a portion of Dry Creek and Jax Outdoors. The property is bound to the north by Conifer Street and to the south by future Suniga Road. The Aspen Heights development bounds the property to the east. The project site can also be described as situated in the southwest quarter of Section 1, Township 7 North, Range 69 West of the 6th P.M., City of Fort Collins, County of Larimer, State of Colorado. The site (property boundary) comprises approximately 15.71 acres (see vicinity map Appendix A). B. Description of Property The project site currently is an existing 15.71-acre vacant field comprised of primarily dirt with native weeds and grasses. The site was formerly used as a materials staging area during the construction of the Aspen Heights development. Dry Creek runs along the west boundary of the proposed site. The majority of the existing site (east portion) has topography which generally slopes from the northwest to the south-southeast at approximately 0.5%, with varying slopes from 0.3% to 0.8%. The proposed development consists of 289 apartment units housed in five buildings, 15 townhome units housed in four buildings, a Clubhouse with pool, and associated street, water, sanitary sewer, storm sewer, and private infrastructure improvements, as well as intermittent green spaces and outdoor spaces. 6 II. DRAINAGE BASINS A. Major Basin Description The Crowne at Old Town North project lies within the City of Fort Collins Dry Creek Drainage Basin. The Dry Creek Drainage Basin generally flows from the northwest to southeast and ultimately outlets into the Poudre River. A.1 NECCO Regional Storm Sewer System In speaking with the City of Fort Collins Stormwater Department, the proposed development is not required to provide detention or water quality as both water quality and detention volume for the Crowne site is being provided in the NECCO regional detention pond. The NECCO regional pond is scheduled to be constructed at the beginning of 2018. The development is part of the NECCO Master Plan. NECCO Storm Sewer C1 travels along the southern boundary of the site, adjacent to Suniga Road. The storm sewer starts at the NECCO regional pond and heads west as a 66-in reinforced concrete pipe (RCP). The storm sewer transitions to a 48-in storm sewer at the southeast corner of the site. The 48-in storm sewer takes a 90-degree bend at the southwest corner of the site, traveling north along the existing Dry Creek alignment. This storm sewer was designed to convey the proposed project site to the regional detention pond. The 66-in storm sewer was constructed with the Aspen Heights development. The 48-in storm sewer will be constructed with this project. The proposed site was broken into four major basins and included into the Dry Creek master plan model to insure that the proposed design would meet the design intents of the master plan. Basin Crowne-West represents basins 15-23 and OS-1. These basins will drain into the 48-in storm sewer at the southwest corner of the property. Basin Crowne-Main represents the majority of the proposed development (basins 1-14). This basin discharges into the 66-in storm sewer at the southeast corner of the site. The modeling demonstrated that the proposed development can drain into the NECCO system at both design points. The hydraulic grade line in the 48-in storm sewer is reduced slightly from the master plan conditions. The basins draining to Suniga Road were also adjusted in the master plan model as well as the basins draining to Conifer Street. This was to insure that the minor change in basin area does not negatively impact the NECCO storm sewer system. These basins are described in more detailed in sections below. 7 B. Existing Sub-Basin Description The existing site consists primarily of dirt with intermittent grasses and weeds. Dry Creek runs along the west side of the property. The property can be broken into two main existing drainage basins. The majority of the property consists of one basin (EX1). The site drains from the northwest corner of the site to the southeast corner of the site. This drainage continues south to two 14” x 23” HERCP. These culverts cross under Blue Spruce and ultimately to Dry Creek. A smaller basin (EX2) flows west to the Dry Creek channel that travels along the west side of the property. It’s important to note that a small portion of the site (approximately 2.59 acres) from Aspen Height’s basins OS6 and OS7 was modeled to drain into 5 inlets, located along the western boundary (bottom west side of retaining walls) of Aspen Heights. C. Proposed Sub-Basin Description The proposed development consists of 289apartment units housed in five buildings, 15 townhome units housed in four buildings, a Clubhouse with pool, and associated street, water, sanitary sewer, storm sewer, and private infrastructure improvements, as well as intermittent green spaces and outdoor spaces. The majority of the runoff from the proposed 15.71+/- acre development will be routed to the NECCO storm sewer systems located along the south and west boundaries of the proposed site. The NECCO storm sewers will route the flows to the NECCO regional detention pond. The regional detention pond provides detention and water quality for the proposed development. The proposed public roads will be paved with asphalt, while the private drives and adjacent parking areas will be paved in concrete or asphalt. Interior sidewalks will be paved in concrete to serve pedestrians and provide access throughout the site. III. DRAINAGE BASIN CRITERIA A. Regulations The drainage design for the subject site is required to meet the current City of Fort Collins Stormwater and Erosion Control Standards and requirements. Therefore, the drainage design for the subject site has been designed in accordance with these standards and provides for the site drainage. The proposed project is not required to provide water quality or on-site detention, as both water quality and detention are being provided in the NECCO Regional Detention pond. Previous masterplan modeling, by Ayres Associates, provided for an impervious ratio of 89% for the Crowne development. The calculated impervious ratio for the Crowne development (including offsite basins) is 76%. 8 B. Development Criteria Reference and Constraints The criteria and constraints from the City of Fort Collins will be met. The proposed project is being routed to the NECCO storm sewer system. The capacity of the system was verified in the Dry Creek Master Plan EPA SWMM model. C. Hydrologic Criteria The Rational Method for determining surface runoff was used for the project site. The 2-year and 100-year storm event intensities were used in calculating runoff values. The City of Fort Collins intensity duration frequency curves were used to obtain rainfall data for each storm specified. D. Hydraulic Criteria All hydraulic calculations within this report have been prepared in accordance with the City of Fort Collins Drainage Criteria and are also included in the Appendix. Final storm sewer pipe and inlet/curb cut sizing will be completed during final design using UDSewer and UDInlet from UDFCD, as well as other orifice/inlet control sizing spreadsheets. Final Swale sizing will also be completed during final design using AutoCadd Civil 3D Hydraulic Software, while final erosion control/riprap sizing will be calculated using North American Green software. E. Variances No variances are being requested at this time. IV. DRAINAGE FACILITY DESIGN A. General Concept Twenty-eight proposed onsite drainage basins and six offsite basins have been created to analyze the drainage for the proposed development. Basins 1-14 drain ultimately to the southeast corner of the site via overland flow, curb and gutter, and proposed storm sewer systems. The drainage is ultimately collected in a proposed storm sewer which will connect into the 66-in NECCO storm sewer. The 100-year peak flow to the 66-in storm sewer at this location will be 40cfs. 9 Basins 15-23 and OS1 drain to the west side of the property via overland flow, curb and gutter, and proposed storm sewer system. The basins ultimately drain to the 48- in NECCO storm sewer located along the western boundary of the site. The 100-year peak flow to the 48-in storm sewer is 32cfs. The NECCO storm sewer drains to the east to the NECCO Regional Detention Pond. The regional pond is anticipated to be constructed at the beginning of 2018. The offsite basins OS3-OS6 drain to future Suniga Road. Basin 28 and offsite basins OS2 drains to Conifer Street. The impacts of these flows to storm sewer systems on Conifer Street and Suniga Road were verified in Dry Creek master plan EPA SWMM model. Please refer to the rational calculations in Appendix B and the Existing and Proposed Drainage Basin Exhibits in Appendix G for additional information. The inlets and storm sewer system will be sized with final design. B. Specific Details Drainage to the NECCO 66-inch Storm Sewer: The runoff from the following basins is collected in a storm sewer system which ultimately connected into the NECCO 66-in storm sewer located at the southeast corner of the site. These basins represent basin Crowne-Main in the Dry Creek EPA SWMM model. Basin Crowne-Main was modified to determine the impacts of the proposed development to the NECCO system. It’s important to note that Ayres Associates masterplan modeling provided an impervious ratio of 89% for the Crowne development area, versus the calculated impervious ratio of 76% (including offsite, adjacent basins), as seen in the rational calculations of this report. The following is the conveyance summary for the onsite and offsite basins for the Crowne at Old Town North development: Basin 1 Basin 1 will convey its flow overland to a LID Basin. The runoff is directed to the LID basin through a curb cut. The LID Basin discharges into a proposed storm sewer system at design point 1. Basin 2 Basin 2 drains overland to dual inlets at design points 2. The inlets are located in the grass strip between the parking lot and building and will drain to a proposed storm sewer system. 10 Basin 3 Basin 3 drains via overland flow to a LID basin located at design point 3. The LID basin is located in the middle of a parking lot median. The runoff is directed to the LID Basin through two curb cuts. The LID Basin discharges into the proposed storm sewer system. Basin 4 Basin 4 drains via overland flow to a LID basin located at design point 4. The LID basin is located in the middle of a parking lot median. The runoff is directed to the LID Basin through two curb cuts. The LID Basin discharges into the proposed storm sewer system. Basin 5 Basin 5 drains via overland flow to a low spot at design point 5. An inlet is located at the low spot which will collect the runoff and discharge into the proposed storm sewer system. The inlet is located in a grassy area to the east of the building. Basin 6 Basin 6 drains via overland flow to a low spot at design point 6. Inlets located in the low spot will collect the runoff and discharge into the proposed storm sewer system. This basin contains pavers which discharge to the inlets at design point 6. Basin 7 Basin 7 drains via overland flow, curb and gutter, and storm sewer to a low spot at design point 7. Design point 7 contains inlets that are connected to the proposed storm sewer system. The inlet at design point 7 is a Type R curb inlet located along Lupine Drive. Basin 8 Basin 8 drains via overland flow, curb and gutter, and storm sewer to a low spot at design point 8. Design point 8 contains inlets that are connected to the proposed storm sewer system. The inlet at design point 8 is a Type R curb inlet located along Lupine Drive. Basin 9 Basin 9 drains to a LID Basin located at design point 9. The LID Basin connects into the proposed storm sewer system via a proposed inlet. The LID Basin is located adjacent to a sidewalk in Basin 9. Basin 10 Basin 10 drains to a low spot at design point 10, in the middle of a parking lot. An inlet is located at the low spot. This inlet collects runoff from the 11 basin and conveys it to the proposed storm sewer system. This basin contains pavers which discharge to the inlets at design point 10. Basin 11 Basin 11 drains to an inlet at design point 11, which discharges into the proposed storm sewer system. Drainage from basin 11 flows via overland flow to a curb cut which directs the flow to the inlet. Basin 12 Basin 12 drains via overland flow, curb and gutter and storm sewer to design point 12. Design point 12 consists of a LID Basin with an inlet in the middle of a parking lot median. This inlet connects into the proposed storm sewer system. Basin 13 Basin 13 drains to a low spot at design point 13, in the middle of a parking lot. An inlet is located at the low spot. This inlet collects runoff from the basin and conveys it to the proposed storm sewer system. This basin contains pavers which discharge to the inlets at design point 13. Basin 14 Basin 14 drains to low spot at design point 14. The inlet at design point 14 collects the runoff from the basin and connects into the proposed storm sewer system. The inlet is located east of the curb and gutter. Runoff from the basin is directed via overland flow and curb cut to the low point. This basin contains pavers which discharge to the inlets at design point 14. Basin 24 Basin 24 is a small 0.03-acre basin that drains to an existing area inlet located at the southeast corner of the development. The existing inlet will be raised to match proposed grade of the Crowne Development. Basins 25 and 26 These basins are a combined area of 0.04-acres and drain to Lupine Drive and ultimately to Aspen Heights. Basin 27 Basin 27 is a small 0.11 acre (predominantly green-area) that drains via overland flow to two existing area inlets, located along the bottom of the retaining wall, which was constructed with Aspen Heights. The existing inlets will be raised to match proposed grade of the Crowne Development. It’s important to note that though the Aspen Heights Drainage Report provided for and allows approximately 2.59 acres of Crowne’s site to flow to 12 the existing inlets, only approximately 0.18 acres will be directed to the existing inlets. Drainage to the NECCO 48-inch Storm Sewer: The runoff from the following basins is collected in a storm sewer system which ultimately connects into the NECCO 48-in storm sewer located along the western boundary of the site. These basins represent basin Crowne-West in the Dry Creek EPA SWMM model. Basin Crowne-West was modified to determine the impacts of the proposed development to the NECCO system. Basin 15 Basin 15 consists of the area that drains to the east half of Jerome Street. The runoff from this basin flows via overland flow and curb and gutter to a low point located at design point 15. The inlet at design point 15 is a Type R curb inlet located along Jerome Street. The inlet conveys the runoff to the proposed storm sewer system. Basin 16 Basin 16 consists of the area that drains to the west half of Jerome Street and small western portion of Lupine Drive. The runoff from this basin flows via overland flow and curb and gutter to a low point located at design point 16. The inlet at design point 16 is a Type R curb inlet located along Jerome Street. The inlet conveys the runoff to the proposed storm sewer system. Basin 17 Basin 17 drains to a low spot at design point 17. The low spot is in a grassy area between a building and the street and contains an inlet. This inlet ties into the proposed storm sewer system. Basins 18-23 Basins 18-22 drain ultimately to a series of LID basins, located along the west boundary of the site. Runoff is conveyed to the LID basins via overland flow, curb and gutter, and curb cuts to the LID Basins. All LID basins will have underdrain systems that will convey filtered runoff into the 48” NECCO storm sewer system, via the inlets at design points 19, 21, and 23. Offsite Drainage The runoff from the following basins drain offsite. Basin 28 and OS2 Basin 28 and OS2 represent a portion of the project that drains to the north and onto Conifer Street. These basins are part of basin 26 in the Dry Creek EPA SWMM model. Basin 26 was modified to correctly include the runoff 13 from these basins. This was done to insure that the impacts to the offsite system were minimal and met the design intent of the NECCO storm sewer system. OS3 and OS4 Basins OS3 and OS4 represent a portion of the project that drains to the west along Suniga Road. These basins are part of basin 316 in the Dry Creek EPA SWMM model. Basin 316 was modified to correctly include the runoff from these basins. This was done to insure that the impacts to the offsite system were minimal and met the design intent of the NECCO storm sewer system. Should Suniga Road be extended west of the Crowne development by the City of Fort Collins, basins OS3 and OS4 will drain to proposed inlets at low points along the north and south sides of Suniga Road. In the interim and should the City not extend Suniga Road west of the Crowne development, a riprap diversion channel will be installed at the west end of Suniga Road (at Crowne’s western boundary) to convey runoff from OS3 and OS4 north and into a 30” RCP that is stubbed out from the 48” NECCO storm sewer. OS 5 and OS6 Basins OS5 and OS6 represent a portion of the project that drains to the east along Suniga Road. These basins are part of basin 318 in the Dry Creek EPA SWMM model. Basin 318 was modified to correctly include the runoff from these basins. This was done to insure that the impacts to the offsite system were minimal and met the design intent of the NECCO storm sewer system. Overflow Conditions Basins 1-6: Should the inlets at the low spots in these basins clog, the runoff will flow through the parking lot to the inlets at design points 3, 4, and 6. Basins 7 and 8: Should the Type R Inlets at design points 7 and 8 clog, storm runoff will spill east and west down Lupine Drive. Basin 9: Should the inlet in the LID Basin clog, storm runoff will east and into the existing inlet near the bottom of the retaining wall along Aspen Heights’ west boundary. Basins 10-14: Should the inlets at the low spots in these basins clog, the runoff will flow through the parking lot to the inlets at design points basins 10, 13 and 14. Basins 15 and 16: Should the Type R Inlets at design points 15and 16 clog, storm runoff will spill east down Lupine Drive. 14 Basin 17: Should the inlet in this basin clog, storm runoff will east onto Jerome Street. Basins 18-22: Should the curb cuts or inlets within the LID basins clog, the runoff will spill south and eventually into the LID basin in basin 23. Basin 23: Should the inlet in basin 23 clog, the runoff will spill south to Suniga Road. Basin 24: Should the existing inlet in basin 24 clog, the runoff will flow to the south to Suniga Road. Basin 27: Should the existing inlets in basin 27 clog, the runoff will flow to the north to the inlet in basin 5. C. Detention Pond The proposed development does not contain a detention pond. The flow is ultimately collected in the NECCO storm sewer system. Detention and water quality for the proposed Crowne development is provided in the NECCO Regional Detention Pond. D. Street Capacities Street capacity calculations for public roads have been analyzed and calculated, with the results provided in Appendix D. V. STORM WATER QUALITY A. General Concept & Specific Details The NECCO regional detention pond provides water quality for the proposed development. LID treatment will be provided for the Crowne development through the utilization of LID basins and porous paver areas. Final sizing and calculations, including the final LID table will be provided in final design. VI. EROSION CONTROL A. General Concept 15 The subject site lies within the Moderate Rainfall Erodibility Zone and the Moderate Wind Erodibility Zone per the City of Fort Collins zone maps. The potential exists for erosion problems during construction, but should be minimal after completion of proposed development. Silt fence has been installed along the north, west, south, and portions of the east side of the site to prevent sediment from leaving the site, while also providing as a barrier for adjacent prairie dog mitigation on-site. Vehicle tracking pads will also be placed at entrances/exits to the site, with the exact location provided during final design. Straw Wattles and gravel inlet filters will be placed at proposed inlet locations to mitigate the build-up of sediment in the proposed inlet and manhole structures. Straw wattle check dams will also be installed at 300' intervals in the proposed swales throughout the site, as may be applicable. Erosion Control Calculations and the Erosion Control Escrow Amount will be provided during final design. Please refer to Appendix G for the Erosion Control Plan and Erosion Control Notes and Detail Sheets. VII. CONCLUSIONS A. Compliance with Standards & Stormwater Operations/Maintenance Procedure All computations within this report have been completed in compliance with the City of Fort Collins Storm Drainage Design Criteria. The City of Fort Collins Storm water Utility will not maintain the on-site storm drainage facilities within the subject site. The owners of the subject site will maintain their on-site storm drainage facilities on a regular basis. The following shall be implemented for the private stormwater improvements’ operations/ maintenance procedures for the project on an annual or bi-annual basis: 1) Storm Sewer Inlets, pipes and flared-end-sections, curb cuts and concrete sidewalk culverts/chases, structures, manholes, and the LID outlet control structures shall be cleaned through the removal of debris and sediment from the associated items to allow for adequate drainage through the site to the offsite regional detention facility 2) Re-vegetation through the use of Natural Seeding/ Sod shall be provided for disturbed areas and other permanent erosion controls shall be provided for areas where erosion has taken place and requires remediation back to the proposed condition shown in the plans 16 The Stormwater Operating/ Maintenance Procedures listed above are guidelines to the minimum procedures that shall be implemented for the site, with these and additional measures being utilized on an as-needed basis. B. Drainage Concept The proposed drainage concepts presented in this study and shown on the utility plans adequately provide for the transmission of developed on-site runoff to the NECCO regional detention pond. The proposed storm sewer system will provide for the 100-year developed flows. If groundwater is encountered at the time of construction, a Colorado Department of Health Construction Dewatering Permit will be required. C. Storm Water Quality Water quality for the site will be provided in the NECCO regional detention pond. LID measures have also been provided for the project and will be sized accordingly during final design. D. Erosion Control Concept Proposed erosion control concepts will adequately provide for the control of wind and rainfall erosion from the proposed development. Through the construction of the proposed erosion control concepts, the City of Fort Collins standards will be met. The proposed erosion control concepts presented in the preliminary report and shown on the erosion control plan are in compliance with the City of Fort Collins Erosion Control Criteria. E. Erosion Control Escrow Estimate The Erosion Control Escrow Estimate for the subject property will be provided at final design. 17 REFERENCES 1. Storm Drainage Design Criteria and Construction Standards by the City of Fort Collins, Colorado, May 1984, Revised January 1997, & Associated UDFCD Updates and New City of Fort Collins Stormwater Criteria manual, adopted January, 2012. 2. Erosion Control Reference Manual for Construction Sites by the City of Fort Collins, Colorado, January 1991, Revised January 1997, & Associated UDFCD Updates and New City of Fort Collins Stormwater Criteria manual, adopted January, 2012. 3. Urban Storm Drainage Criteria Manual Volume 1; Urban Drainage and Flood Control District, Denver, Colorado, March, 1969. 4. Urban Storm Drainage Criteria Manual Volume 2; Urban Drainage and Flood Control District, Denver, Colorado, March, 1969. 5. Urban Storm Drainage Criteria Manual Volume 3, Best Management Practices; Urban Drainage and Flood Control District, Denver, Colorado, September, 1999. 6. Overall Drainage Plans, Aspen Heights, Fort Collins; Owen Consulting Group, Inc., October 17, 2013. 7. North East College Corridor Outfall Plans; Ayres Associates, May 2009. 17 APPENDIX 18 APPENDIX A 19 VICINITY MAP VICINITY MAP 20 APPENDIX B 21 RATIONAL METHOD HYDROLOGY NECCO Basin Basin(s) Location Drained to Area (acre) Composite I% Crowne-West 15-23, OS1 48-in NECCO Storm Sewer 4.87 67% Crowne-Main 1-14 60-in NECCO Storm Sewer 7.84 81% 26 (NECCO Model) 28, OS-2 Add to Conifer (Basin 26; total =1.74ac) 0.60 97% 316 (NECCO Model) OS3 Adjusted NECOO Basin 316 (3.6 + 0.62 ac = 4.2ac ) to include OS3 0.62 76% 318 (NECCO Model) OS4 Adjusted NECOO Basin 318 (0.44 + 0.62ac = 1.11 ac) to include OS4 0.44 87% 830 (NECCO Model) OS5 Adjusted NECOO Basin 380 (0.50 + 0.96ac = 1.46 ac) to include OS5 0.96 67% 831 (NECCO Model) OS6 Adjusted NECOO Basin 831 (0.55 + 0.57ac = 1.12 ac) to include OS6 0.57 89% Design Points Basin(s) Location Drained to Area (acre) Composite I% 25 25 Aspen Heights 0.02 62% 26 26 Aspen Heights 0.02 70% 27 27 Aspen Heights 0.11 39% 24 24 Existing Inlet 0.03 31% Flow Summary Crowne @ Old Town North 501-003 APEX ENGINEERING 10:12 PM 2/13/2017 TIME OF CONCENTRATION 2 year design storm Crowne @ Old Town North 501-003 t c = t i + t L C f = 1.00 SUB-BASIN DATA INITIAL/OVERLAND TIME TRAVEL TIME FINAL REMARKS BASIN AREA C LENGTH SLOPE ti LENGTH CHANNEL SLOPE VELOCITY tL tc NO. (ac) (ft) (%) (min) (ft) TYPE(a) (%) (ft/s) (min) (min) 1 2 3 4 5 6 7 8 10 12 13 1 0.52 0.70 30 2.0 3.2 120 PA 0.5 1.34 1.5 5.0 Drains to NECCO 66in Storm Sewer (South) 2 0.07 0.58 30 2.0 4.2 70 GW 2.0 2.18 0.5 5.0 Drains to NECCO 66in Storm Sewer (South) 3 0.79 0.88 40 2.0 2.0 200 PA 2.0 2.72 1.2 5.0 Drains to NECCO 66in Storm Sewer (South) 4 0.76 0.94 40 2.0 1.5 195 PA 2.0 2.72 1.2 5.0 Drains to NECCO 66in Storm Sewer (South) 5 0.14 0.39 20 2.0 4.7 60 GW 2.0 2.18 0.5 5.2 Drains to NECCO 66in Storm Sewer (South) 6 0.40 0.93 19 2.0 1.1 127 PA 2.0 2.72 0.8 5.0 Drains to NECCO 66in Storm Sewer (South) 7 0.65 0.64 40 2.0 4.3 220 PA 2.0 2.72 1.3 5.7 Drains to NECCO 66in Storm Sewer (South) 8 0.69 0.68 50 2.0 4.4 220 PA 2.0 2.72 1.3 5.7 Drains to NECCO 66in Storm Sewer (South) 9 0.19 0.54 40 2.0 5.2 60 PA 2.0 2.72 0.4 5.6 Drains to NECCO 66in Storm Sewer (South) 10 1.12 0.94 25 2.0 1.2 115 PA 2.0 2.72 0.7 5.0 Drains to NECCO 66in Storm Sewer (South) 11 0.25 0.92 38 2.0 1.6 125 PA 2.0 2.72 0.8 5.0 Drains to NECCO 66in Storm Sewer (South) 12 0.74 0.74 60 2.0 4.1 150 PA 2.0 2.72 0.9 5.0 Drains to NECCO 66in Storm Sewer (South) 13 0.86 0.77 30 2.0 2.7 210 PA 2.0 2.72 1.3 5.0 Drains to NECCO 66in Storm Sewer (South) 14 0.65 0.91 50 2.0 2.0 135 PA 2.0 2.72 0.8 5.0 Drains to NECCO 66in Storm Sewer (South) 15 1.84 0.66 90 2.0 6.2 370 PA 2.0 2.72 2.3 8.5 Drains to NECCO 48in Storm Sewer (West) 16 1.02 0.78 50 2.0 3.3 415 PA 0.5 1.34 5.2 8.5 Drains to NECCO 48in Storm Sewer (West) 17 0.14 0.50 20 2.0 4.0 120 PA 2.0 2.72 0.7 5.0 Drains to NECCO 48in Storm Sewer (West) 18 0.27 0.90 30 2.0 1.6 140 PA 2.0 2.72 0.9 5.0 Drains to NECCO 48in Storm Sewer (West) 19 0.37 0.68 20 2.0 2.8 125 PA 2.0 2.72 0.8 5.0 Drains to NECCO 48in Storm Sewer (West) 20 0.39 0.81 35 2.0 2.5 150 PA 2.0 2.72 0.9 5.0 Drains to NECCO 48in Storm Sewer (West) 21 0.21 0.62 30 2.0 3.9 75 PA 2.0 2.72 0.5 5.0 Drains to NECCO 48in Storm Sewer (West) 22 0.18 0.82 45 2.0 2.7 90 PA 2.0 2.72 0.6 5.0 Drains to NECCO 48in Storm Sewer (West) 23 0.18 0.32 30 2.0 6.3 115 GW 0.5 1.09 1.8 8.1 Drains to NECCO 48in Storm Sewer (West) 24 0.03 0.43 15 2.0 3.8 15 PA 2.0 2.72 0.1 5.0 Drains to existing inlet SE corner of the site 25 0.02 0.67 25 2.0 3.2 5PA2.02.72 0.0 5.0 Offsite to Aspen Heights 26 0.02 0.72 25 2.0 2.8 5PA2.02.72 0.0 5.0 Offsite to Aspen Heights 27 0.11 0.51 30 2.0 4.8 5PA2.02.72 0.0 5.0 Drains to NECCO 66in Storm Sewer (South) 28 0.48 0.61 30 2.0 4.0 100 PA 2.0 2.72 0.6 5.0 Drains to Conifer t CC D i S  f 187 11  0333 .( . ) . ASPEN ENGINEERING 9:43 PM 2/13/2017 SUB-BASIN DATA INITIAL/OVERLAND TIME TRAVEL TIME FINAL REMARKS BASIN AREA C LENGTH SLOPE ti LENGTH CHANNEL SLOPE VELOCITY tL tc NO. (ac) (ft) (%) (min) (ft) TYPE(a) (%) (ft/s) (min) (min) 1 2 3 4 5 6 7 8 10 12 13 OS1 0.26 0.78 53 2.0 3.5 230 PA 0.5 1.34 2.9 6.4 Drains to NECCO 48in Storm Sewer (West) OS2 0.12 0.83 11.0 0.5 1PA1.01.91 0.0 5.0 Drains to Conifer OS3 0.62 0.77 60 2.0 3.8 245 PA 1.0 1.91 2.1 6.0 Drains to Suniga OS4 0.44 0.84 60 2.0 2.9 245 PA 1.0 1.91 2.1 5.1 Drains to Suniga OS5 0.96 0.70 60 2.0 4.5 350 PA 1.0 1.91 3.1 7.6 Drains to Suniga OS6 0.57 0.86 60 2.0 2.8 350 PA 1.0 1.91 3.1 5.9 Drains to Suniga Note: a) Codes the channel type for velocity calculations. PA = Paved, PL = Pasture & Lawns, GW = Grassed Waterway ASPEN ENGINEERING 9:43 PM 2/13/2017 Basin Roof Area (sqft) Asphalt Area (sqft) Concrete Area (sqft) Gravel Area (sqft) Lawn Area (sqft) Total Area Total Area Composite No. "C=0.90" "C=0.95" "C=0.90" "C=0.41" "C=0.25" (sqft) (acre) "C" 1 2,450 10,840 1,500 0 7,715 22,505 0.52 0.70 2 1,400 0 50 0 1,395 2,845 0.07 0.58 3 7,905 22,750 1,200 0 2,637 34,492 0.79 0.88 4 4,230 28,500 250 0 282 33,262 0.76 0.94 5 1,095 0 250 0 4,936 6,281 0.14 0.39 6 2,900 13,100 1,200 0 250 17,450 0.40 0.93 7 8,400 5,180 3,130 0 11,753 28,463 0.65 0.64 8 5,255 10,453 3,680 0 10,792 30,180 0.69 0.68 9 2,280 0 1,360 0 4,445 8,085 0.19 0.54 10 5,065 41,809 1,500 0 250 48,624 1.12 0.94 11 1,500 8,369 750 0 250 10,869 0.25 0.92 12 10,880 8,400 4,400 0 8,465 32,145 0.74 0.74 13 5,310 19,528 3,990 0 8,847 37,675 0.86 0.77 14 4,465 20,348 2,500 0 1,200 28,513 0.65 0.91 15 16,470 23,500 8,550 0 31,709 80,229 1.84 0.66 16 6,970 21,530 6,300 0 9,817 44,617 1.02 0.78 17 2,260 0 75 0 3,714 6,049 0.14 0.50 18 3,711 7,300 44 0 505 11,560 0.27 0.90 19 550 9,340 0 0 6,174 16,064 0.37 0.68 20 1,800 9,790 2,500 0 3,051 17,141 0.39 0.81 21 1,370 3,220 450 0 4,226 9,266 0.21 0.62 22 1,950 3,950 765 0 1,218 7,883 0.18 0.82 23 825 0 90 0 7,125 8,040 0.18 0.32 24 100 0 250 0 905 1,255 0.03 0.43 25 0 575 0 0 376 951 0.02 0.67 26 0 580 120 0 323 1,023 0.02 0.72 Developed Weighted Runoff Coefficients Crowne @ Old Town North 501-003 aspen engineering 9:46 PM 2/13/2017 27 1,600 50 270 0 2,961 4,881 0.11 0.51 28 3,140 4,830 3,150 0 9,911 21,031 0.48 0.61 OS1 0 6,600 1,900 0 2,609 11,109 0.26 0.78 OS2 0 3,110 1,250 0 805 5,165 0.12 0.83 OS3 880 16,073 3,500 0 6,740 27,193 0.62 0.77 OS4 0 13,200 3,200 0 2,668 19,068 0.44 0.84 OS5 8,450 15,200 4,500 0 13,763 41,913 0.96 0.70 OS6 0 17,500 4,500 0 3,028 25,028 0.57 0.86 Total SITE 113,211 345,624 67,174 0 174,844 700,853 0.76 Total Acreage 2.60 7.93 1.54 0.00 4.01 16.09 Impervious Ratio Basin Roof Area (sqft) Asphalt Area (sqft) Concrete Area (sqft) Gravel Area (sqft) Lawn Area (sqft) Total Area Imperviousness No. (sqft) Ratio 1 2,450 10,840 1,500 0 7,715 22,505 66% 2 1,400 0 50 0 1,395 2,845 48% 3 7,905 22,750 1,200 0 2,637 34,492 90% 4 4,230 28,500 250 0 282 33,262 98% 5 1,095 0 250 0 4,936 6,281 24% 6 2,900 13,100 1,200 0 250 17,450 97% 7 8,400 5,180 3,130 0 11,753 28,463 58% 8 5,255 10,453 3,680 0 10,792 30,180 64% 9 2,280 0 1,360 0 4,445 8,085 45% 10 5,065 41,809 1,500 0 250 48,624 98% 11 1,500 8,369 750 0 250 10,869 96% 12 10,880 8,400 4,400 0 8,465 32,145 72% 13 5,310 19,528 3,990 0 8,847 37,675 76% 14 4,465 20,348 2,500 0 1,200 28,513 94% 15 16,470 23,500 8,550 0 31,709 80,229 60% 16 6,970 21,530 6,300 0 9,817 44,617 78% 17 2,260 0 75 0 3,714 6,049 38% 18 3,711 7,300 44 0 505 11,560 93% 19 550 9,340 0 0 6,174 16,064 63% 20 1,800 9,790 2,500 0 3,051 17,141 82% 21 1,370 3,220 450 0 4,226 9,266 55% 22 1,950 3,950 765 0 1,218 7,883 83% 23 825 0 90 0 7,125 8,040 15% aspen engineering 9:46 PM 2/13/2017 24 100 0 250 0 905 1,255 31% 25 0 575 0 0 376 951 62% 26 0 580 120 0 323 1,023 70% 27 1,600 50 270 0 2,961 4,881 39% 28 3,140 4,830 3,150 0 9,911 21,031 54% OS1 0 6,600 1,900 0 2,609 11,109 78% OS2 0 3,110 1,250 0 805 5,165 85% OS3 880 16,073 3,500 0 6,740 27,193 76% OS4 0 13,200 3,200 0 2,668 19,068 87% OS5 8,450 15,200 4,500 0 13,763 41,913 67% OS6 0 17,500 4,500 0 3,028 25,028 89% Total SITE 113,211 345,624 67,174 0 174,844 700,853 76% Total Acreage 2.60 7.93 1.54 0.00 4.01 16.09 75% aspen engineering 9:46 PM 2/13/2017 TIME OF CONCENTRATION 100 year design storm Crowne @ Old Town North 501-003 t c = t i + t L C f = 1.25 SUB-BASIN DATA INITIAL/OVERLAND TIME TRAVEL TIME FINAL REMARKS BASIN AREA C LENGTH SLOPE ti LENGTH CHANNEL SLOPE VELOCITY tL tc NO. (ac) (ft) (%) (min) (ft) TYPE(a) (%) (ft/s) (min) (min) 1 2 3 4 5 6 7 8 10 12 13 1 0.52 0.70 30 2.00 1.8 120 PA 0.50 1.34 1.5 5.0 2 0.07 0.58 30 2.00 3.0 70 GW 2.00 2.18 0.5 5.0 3 0.79 0.88 40 2.00 0.9 200 PA 2.00 2.72 1.2 5.0 4 0.76 0.94 40 2.00 0.9 195 PA 2.00 2.72 1.2 5.0 5 0.14 0.39 20 2.00 4.1 60 GW 2.00 2.18 0.5 5.0 6 0.40 0.93 19 2.00 0.6 127 PA 2.00 2.72 0.8 5.0 7 0.65 0.64 40 2.00 2.8 220 PA 2.00 2.72 1.3 5.0 8 0.69 0.68 50 2.00 2.6 220 PA 2.00 2.72 1.3 5.0 9 0.19 0.54 40 2.00 4.0 60 PA 2.00 2.72 0.4 5.0 10 1.12 0.94 25 2.00 0.7 115 PA 2.00 2.72 0.7 5.0 11 0.25 0.92 38 2.00 0.9 125 PA 2.00 2.72 0.8 5.0 12 0.74 0.74 60 2.00 2.0 150 PA 2.00 2.72 0.9 5.0 13 0.86 0.77 30 2.00 1.1 210 PA 2.00 2.72 1.3 5.0 14 0.65 0.91 50 2.00 1.0 135 PA 2.00 2.72 0.8 5.0 15 1.84 0.66 90 2.00 3.9 370 PA 2.00 2.72 2.3 6.2 16 1.02 0.78 50 2.00 1.3 415 PA 0.50 1.34 5.2 6.5 17 0.14 0.50 20 2.00 3.1 120 PA 2.00 2.72 0.7 5.0 18 0.27 0.90 30 2.00 0.8 140 PA 2.00 2.72 0.9 5.0 19 0.37 0.68 20 2.00 1.7 125 PA 2.00 2.72 0.8 5.0 20 0.39 0.81 35 2.00 0.9 150 PA 2.00 2.72 0.9 5.0 21 0.21 0.62 30 2.00 2.6 75 PA 2.00 2.72 0.5 5.0 22 0.18 0.82 45 2.00 1.0 90 PA 2.00 2.72 0.6 5.0 23 0.18 0.32 30 2.00 5.7 115 GW 0.50 1.09 1.8 7.4 24 0.03 0.43 15 2.00 3.2 15 PA 2.00 2.72 0.1 5.0 25 0.02 0.67 25 2.00 1.9 5 PA 2.00 2.72 0.0 5.0 26 0.02 0.72 25 2.00 1.5 5 PA 2.00 2.72 0.0 5.0 27 0.11 0.51 30 2.00 3.8 5 PA 2.00 2.72 0.0 5.0 28 0.48 0.61 30 2.00 2.8 100 PA 2.00 2.72 0.6 5.0 t CC D i S  f 187 11  0333 .( . ) . ASPEN ENGINEERING 9:48 PM 2/13/2017 SUB-BASIN DATA INITIAL/OVERLAND TIME TRAVEL TIME FINAL REMARKS BASIN AREA C LENGTH SLOPE ti LENGTH CHANNEL SLOPE VELOCITY tL tc NO. (ac) (ft) (%) (min) (ft) TYPE(a) (%) (ft/s) (min) (min) 1 2 3 4 5 6 7 8 10 12 13 OS1 0.26 0.78 53 2.00 1.4 230 PA 0.50 1.34 2.9 5.0 OS2 0.12 0.83 1 1.00 0.2 1 PA 1.00 1.91 0.0 5.0 OS3 0.62 0.77 60 2.00 1.6 245 PA 1.00 1.91 2.1 5.0 OS4 0.44 0.84 60 2.00 1.1 245 PA 1.00 1.91 2.1 5.0 OS5 0.96 0.70 60 2.00 2.5 350 PA 1.00 1.91 3.1 5.6 OS6 0.57 0.86 60 2.00 1.1 350 PA 1.00 1.91 3.1 5.0 Note: a) Codes the channel type for velocity calculations. PA = Paved, PL = Pasture & Lawns, GW = Grassed Waterway ASPEN ENGINEERING 9:48 PM 2/13/2017 Business: Commercial areas Neighborhood areas Residential: Single-family Multiunit (detached) Multiunit (attached) Half-acre lot or larger Apartments Industrial: Light areas Heavy areas Parks, cemeteries: Playgrounds: Schools: Railroad yard areas: Undeveloped areas: Historical Flow Analysis Greenbelts, agricultural Off-site flow analysis (when land use not defined) Streets: Paved Gravel (packed) Driveways and sidewalks: Roofs: Lawns, sandy soil Lawns, clayey soil *Refer to Figures RO-3 through RO-5 in Runoff Chapter Land Use or Surface Characteristics Percent Imper-viousness 95 85 * 60 75 * 80 80 90 5 10 50 15 2 45 0 0 100 40 90 90 aspen engineering 9:46 PM 2/13/2017 Rational Method 2 Year Design Storm Crowne @ Old Town North 501-003 Design Point Basins tc Length Type Slope Velocity Travel Pipe Travel tc' C Intensity Area Direct Runoff Other Runoff Total Runoff Location (min) (ft) (a) (%) (ft/s) (min) (min) (min) (in/hr) (ac) (cfs) (cfs) (cfs) 11 5.0 -- -- -- -- 0.0 0.0 5.0 0.70 2.85 0.52 1.03 0.00 1.03 22 5.0 -- -- -- -- 0.0 0.0 5.0 0.58 2.85 0.07 0.11 0.00 0.11 33 5.0 -- -- -- -- 0.0 0.0 5.0 0.88 2.85 0.79 1.99 0.00 1.99 44 5.0 -- -- -- -- 0.0 0.0 5.0 0.94 2.85 0.76 2.04 0.00 2.04 55 5.2 -- -- -- -- 0.0 0.0 5.2 0.39 2.82 0.14 0.16 0.00 0.16 66 5.0 -- -- -- -- 0.0 0.0 5.0 0.93 2.85 0.40 1.06 0.00 1.06 77 5.7 -- -- -- -- 0.0 0.0 5.7 0.64 2.74 0.65 1.15 0.00 1.15 88 5.7 -- -- -- -- 0.0 0.0 5.7 0.68 2.73 0.69 1.30 0.00 1.30 99 5.6 -- -- -- -- 0.0 0.0 5.6 0.54 2.75 0.19 0.28 0.00 0.28 10 10 5.0 -- -- -- -- 0.0 0.0 5.0 0.94 2.85 1.12 2.99 0.00 2.99 11 11 5.0 -- -- -- -- 0.0 0.0 5.0 0.92 2.85 0.25 0.66 0.00 0.66 12 12 5.0 -- -- -- -- 0.0 0.0 5.0 0.74 2.84 0.74 1.56 0.00 1.56 13 13 5.0 -- -- -- -- 0.0 0.0 5.0 0.77 2.85 0.86 1.91 0.00 1.91 14 14 5.0 -- -- -- -- 0.0 0.0 5.0 0.91 2.85 0.65 1.69 0.00 1.69 15 15 8.5 -- -- -- -- 0.0 0.0 8.5 0.66 2.36 1.84 2.86 0.00 2.86 16 16 8.5 -- -- -- -- 0.0 0.0 8.5 0.78 2.36 1.02 1.89 0.00 1.89 17 17 5.0 -- -- -- -- 0.0 0.0 5.0 0.50 2.85 0.14 0.20 0.00 0.20 18 18 5.0 -- -- -- -- 0.0 0.0 5.0 0.90 2.85 0.27 0.68 0.00 0.68 19 19 5.0 -- -- -- -- 0.0 0.0 5.0 0.68 2.85 0.37 0.71 0.00 0.71 20 20 5.0 -- -- -- -- 0.0 0.0 5.0 0.81 2.85 0.39 0.91 0.00 0.91 21 21 5.0 -- -- -- -- 0.0 0.0 5.0 0.62 2.85 0.21 0.38 0.00 0.38 22 22 5.0 -- -- -- -- 0.0 0.0 5.0 0.82 2.85 0.18 0.43 0.00 0.43 23 23 8.1 -- -- -- -- 0.0 0.0 8.1 0.32 2.41 0.18 0.14 0.00 0.14 24 24 5.0 -- -- -- -- 0.0 0.0 5.0 0.43 2.85 0.03 0.04 0.00 0.04 25 25 5.0 -- -- -- -- 0.0 0.0 5.0 0.67 2.85 0.02 0.04 0.00 0.04 26 26 5.0 -- -- -- -- 0.0 0.0 5.0 0.72 2.85 0.02 0.05 0.00 0.05 27 27 5.0 -- -- -- -- 0.0 0.0 5.0 0.51 2.85 0.11 0.16 0.00 0.16 28 28 5.0 -- -- -- -- 0.0 0.0 5.0 0.61 2.85 0.48 0.83 0.00 0.83 OS1 OS1 6.4 -- -- -- -- 0.0 0.0 6.4 0.78 2.63 0.26 0.52 0.00 0.52 OS2 OS2 5.0 -- -- -- -- 0.0 0.0 5.0 0.83 2.85 0.12 0.28 0.00 0.28 OS3 OS3 6.0 -- -- -- -- 0.0 0.0 6.0 0.77 2.69 0.62 1.29 0.00 1.29 OS4 OS4 5.1 -- -- -- -- 0.0 0.0 5.1 0.84 2.83 0.44 1.05 0.00 1.05 OS5 OS5 7.6 -- -- -- -- 0.0 0.0 7.6 0.70 2.47 0.96 1.67 0.00 1.67 OS6 OS6 5.9 25.0 PA 2.0 2.7 0.2 0.0 6.0 0.86 2.68 0.57 1.32 0.00 1.32 Routing 15 15 8.5 -- 0.0 8.5 0.66 2.36 1.84 2.86 0.00 2.86 16 15,16,OS1 8.5 50.0 PA 0.4 1.2 0.7 9.2 0.71 2.29 3.12 5.05 0.00 5.05 17 15-17, OS1 9.2 47.0 PA 0.4 1.2 0.7 9.9 0.70 2.22 3.26 5.07 0.00 5.07 48-in 15-17, OS1 9.9 222.0 PA 0.4 1.2 3.1 13.0 0.70 1.99 3.26 4.53 0.00 4.53 48-in 15-23, OS1 3.1 366.0 PA 0.4 1.2 5.1 8.2 0.88 2.39 4.87 10.20 1.00 11.20 5 5 5.0 -- 0.0 5.0 0.39 2.85 0.14 0.16 0.00 0.16 6 5,6 5.0 188.0 PA 0.4 1.2 2.6 7.6 0.79 2.46 0.54 1.05 0.00 1.05 MH 5,6 7.6 67.0 PA 0.4 1.2 0.9 8.6 0.79 2.35 0.54 1.01 0.00 1.01 1 1 5.0 -- 0.0 5.0 0.70 2.85 0.52 1.03 0.00 1.03 MH 1,2 5.0 93.0 PA 0.4 1.2 1.3 6.3 0.69 2.64 0.58 1.06 0.00 1.06 Routing Flow Time (tL) Runoff Design Point Basins tc Length Type Slope Velocity Travel Pipe Travel tc' C Intensity Area Direct Runoff Other Runoff Total Runoff Location (min) (ft) (a) (%) (ft/s) (min) (min) (min) (in/hr) (ac) (cfs) (cfs) (cfs) Routing Flow Time (tL) Runoff 2 2 5.0 -- 0.0 5.0 0.58 2.85 0.07 0.11 0.00 0.11 MH 1,2 5.0 48.0 PA 0.4 1.2 0.7 5.7 0.69 2.74 0.58 1.10 0.00 1.10 7 7 5.7 -- 0.0 5.7 0.64 2.74 0.65 1.15 0.00 1.15 MH 7,8 5.7 30.0 PA 0.4 1.2 0.4 6.1 0.66 2.68 1.35 2.39 0.00 2.39 MH 7,8 6.1 153.0 PA 0.4 1.2 2.1 8.2 0.66 2.39 1.35 2.14 1.00 3.14 10 10 5.0 -- 0.0 5.0 0.94 2.85 1.12 2.99 0.00 2.99 11 10 5.0 197.0 PA 0.4 1.2 2.8 7.8 0.94 2.45 1.12 2.57 0.00 2.57 12 12 5.0 -- 0.0 5.0 0.74 2.84 0.74 1.56 0.00 1.56 13 12-13 5.0 133.0 PA 0.4 1.2 1.9 6.9 0.76 2.56 1.60 3.11 0.00 3.11 14 12-14 6.9 215.0 PA 0.4 1.2 3.0 9.9 0.80 2.22 2.26 4.02 1.00 5.02 MH 1,2 6.3 31.0 PA 0.4 1.2 0.4 6.7 0.69 2.58 0.58 1.03 0.00 1.03 3 1-3 6.7 76.0 PA 0.4 1.2 1.1 7.8 0.80 2.44 1.37 2.69 0.00 2.69 4 1-4 7.8 122.0 PA 0.4 1.2 1.7 9.5 0.85 2.26 2.14 4.10 0.00 4.10 MH 1-6 9.5 129.0 PA 0.4 1.2 1.8 11.3 0.84 2.10 2.68 4.71 0.00 4.71 MH 1-8 11.3 138.0 PA 0.4 1.2 1.9 13.2 0.78 1.97 4.03 6.18 0.00 6.18 9 1-9 13.2 77.0 PA 0.4 1.2 1.1 14.3 0.77 1.91 4.21 6.17 0.00 6.17 11 1-11 14.3 193.0 PA 0.4 1.2 2.7 17.0 0.81 1.76 5.58 7.93 0.00 7.93 14 1-14 17.0 85.0 PA 0.4 1.2 1.2 18.2 0.81 1.69 7.84 10.72 0.00 10.72 NECCO 60in 1-14 18.2 203.0 PA 0.4 1.2 2.8 21.0 0.81 1.57 7.84 9.91 0.00 9.91 OFFSITE Note: a) Codes the channel type for velocity calculations. PA = Paved, PL = Pasture & Lawns, GW = Grassed Waterway ASPEN ENGINEERING 9:49 PM 2/13/2017 Rational Method 100 Year Design Storm Crowne @ Old Town North 501-003 Design Point Basins tc Length Type Slope Velocity Travel Pipe Travel tc' C C*Cf Intensity Area Direct Runoff Other Runoff Total Runoff Location (min) (ft) (a) (%) (ft/s) (min) (min) (min) (in/hr) (ac) (cfs) (cfs) (cfs) 1 1 5.0 -- -- -- -- 0.0 5.00 0.70 0.88 9.95 0.52 4.51 0.00 4.51 2 2 5.0 -- -- -- -- 0.0 5.00 0.58 0.73 9.95 0.07 0.47 0.00 0.47 3 3 5.0 -- -- -- -- 0.0 5.00 0.88 1.00 9.95 0.79 7.88 0.00 7.88 4 4 5.0 -- -- -- -- 0.0 5.00 0.94 1.00 9.95 0.76 7.60 0.00 7.60 5 5 5.0 -- -- -- -- 0.0 5.00 0.39 0.49 9.95 0.14 0.70 0.00 0.70 6 6 5.0 -- -- -- -- 0.0 5.00 0.93 1.00 9.95 0.40 3.99 0.00 3.99 7 7 5.0 -- -- -- -- 0.0 5.00 0.64 0.80 9.95 0.65 5.21 0.00 5.21 8 8 5.0 -- -- -- -- 0.0 5.00 0.68 0.86 9.95 0.69 5.90 0.00 5.90 9 9 5.0 -- -- -- -- 0.0 5.00 0.54 0.68 9.95 0.19 1.25 0.00 1.25 10 10 5.0 -- -- -- -- 0.0 5.00 0.94 1.00 9.95 1.12 11.11 0.00 11.11 11 11 5.0 -- -- -- -- 0.0 5.00 0.92 1.00 9.95 0.25 2.48 0.00 2.48 12 12 5.0 -- -- -- -- 0.0 5.00 0.74 0.93 9.95 0.74 6.81 0.00 6.81 13 13 5.0 -- -- -- -- 0.0 5.00 0.77 0.97 9.95 0.86 8.32 0.00 8.32 14 14 5.0 -- -- -- -- 0.0 5.00 0.91 1.00 9.95 0.65 6.51 0.00 6.51 15 15 6.2 -- -- -- -- 0.0 6.18 0.66 0.82 9.29 1.84 14.07 0.00 14.07 16 16 6.5 -- -- -- -- 0.0 6.47 0.78 0.98 9.14 1.02 9.14 0.00 9.14 17 17 5.0 -- -- -- -- 0.0 5.00 0.50 0.63 9.95 0.14 0.87 0.00 0.87 18 18 5.0 -- -- -- -- 0.0 5.00 0.90 1.00 9.95 0.27 2.64 0.00 2.64 19 19 5.0 -- -- -- -- 0.0 5.00 0.68 0.85 9.95 0.37 3.12 0.00 3.12 20 20 5.0 -- -- -- -- 0.0 5.00 0.81 1.00 9.95 0.39 3.92 0.00 3.92 21 21 5.0 -- -- -- -- 0.0 5.00 0.62 0.78 9.95 0.21 1.64 0.00 1.64 22 22 5.0 -- -- -- -- 0.0 5.00 0.82 1.00 9.95 0.18 1.80 0.00 1.80 23 23 7.4 -- -- -- -- 0.0 7.41 0.32 0.40 8.70 0.18 0.65 0.00 0.65 24 24 5.0 -- -- -- -- 0.0 5.00 0.43 0.54 9.95 0.03 0.15 0.00 0.15 25 25 5.0 -- -- -- -- 0.0 5.00 0.67 0.84 9.95 0.02 0.18 0.00 0.18 26 26 5.0 -- -- -- -- 0.0 5.00 0.72 0.90 9.95 0.02 0.21 0.00 0.21 27 27 5.0 -- -- -- -- 0.0 5.00 0.51 0.63 9.95 0.11 0.71 0.00 0.71 28 28 5.0 -- -- -- -- 0.0 5.00 0.61 0.76 9.95 0.48 3.63 0.00 3.63 OS1 OS1 5.0 -- -- -- -- 0.0 5.00 0.78 0.97 9.95 0.26 2.46 0.00 2.46 OS2 OS2 5.0 -- -- -- -- 0.0 5.00 0.83 1.00 9.95 0.12 1.18 0.00 1.18 OS3 OS3 5.0 -- -- -- -- 0.0 5.00 0.77 0.96 9.95 0.62 5.97 0.00 5.97 OS4 OS4 5.0 -- -- -- -- 0.0 5.00 0.84 1.00 9.95 0.44 4.36 0.00 4.36 OS5 OS5 5.6 -- -- -- -- 0.0 5.58 0.70 0.88 9.61 0.96 8.15 0.00 8.15 OS6 OS6 5.0 -- -- -- -- 0.0 5.00 0.86 1.00 9.95 0.57 5.72 0.00 5.72 Routing 15 15 6.2 -- 0.0 6.18 0.66 0.82 9.29 1.84 14.07 0.00 14.07 16 15,16,OS1 6.2 50.0 PA 0.4 1.2 0.7 6.88 0.74 0.92 8.94 3.12 25.79 0.00 25.79 17 15-17, OS1 6.9 47.0 PA 0.4 1.2 0.7 7.54 0.68 0.85 8.64 3.26 23.86 0.00 23.86 48-in 15-17, OS1 7.5 222.0 PA 0.4 1.2 3.1 10.64 0.68 0.85 7.52 3.26 20.77 0.00 20.77 48-in 15-23, OS1 10.6 223.0 PA 1.4 2.3 1.6 12.28 0.72 0.90 7.09 4.87 31.19 1.00 32.19 5 5 5.0 -- 0.0 5.00 0.39 0.49 9.95 0.14 0.70 0.00 0.70 6 5,6 5.0 188.0 PA 0.4 1.2 2.6 7.63 1.52 1.00 8.60 0.54 4.69 0.00 4.69 MH 5,6 7.6 67.0 PA 0.4 1.2 0.9 8.57 1.52 1.00 8.22 0.54 4.48 0.00 4.48 1 1 5.0 -- 0.0 5.00 0.70 0.88 9.95 0.52 4.51 0.00 4.51 MH 1,2 5.0 93.0 PA 0.4 1.2 1.3 6.30 0.64 0.80 9.23 0.58 4.31 0.00 4.31 2 2 5.0 -- 0.0 5.00 0.58 0.73 9.95 0.07 0.47 0.00 0.47 Design Point Basins tc Length Type Slope Velocity Travel Pipe Travel tc' C C*Cf Intensity Area Direct Runoff Other Runoff Total Runoff Location (min) (ft) (a) (%) (ft/s) (min) (min) (min) (in/hr) (ac) (cfs) (cfs) (cfs) Routing Flow Time (tL) Runoff MH 1,2 6.3 31.0 PA 0.4 1.2 0.4 6.73 0.64 0.80 9.01 0.58 4.20 0.00 4.20 3 1-3 6.7 76.0 PA 0.4 1.2 1.1 7.80 0.49 0.61 8.53 1.37 7.15 0.00 7.15 4 1-4 7.8 122.0 PA 0.4 1.2 1.7 9.50 1.71 1.00 7.88 2.14 16.85 0.00 16.85 MH 1-6 9.5 129.0 PA 0.4 1.2 1.8 11.31 1.62 1.00 7.34 2.68 19.68 0.00 19.68 MH 1-8 11.3 138.0 PA 0.4 1.2 1.9 13.24 0.72 0.90 6.87 4.03 24.86 0.00 24.86 9 1-9 13.2 77.0 PA 0.4 1.2 1.1 14.31 0.70 0.87 6.65 4.21 24.48 0.00 24.48 11 1-11 14.3 193.0 PA 0.4 1.2 2.7 17.01 0.74 0.93 6.11 5.58 31.61 0.00 31.61 14 1-14 17.0 85.0 PA 0.4 1.2 1.2 18.20 0.76 0.94 5.90 7.84 43.64 0.00 43.64 NECCO 60in 1-14 18.2 203.0 PA 0.4 1.2 2.8 21.04 0.76 0.94 5.45 7.84 40.34 0.00 40.34 Note: a) Codes the channel type for velocity calculations. PA = Paved, PL = Pasture & Lawns, GW = Grassed Waterway ASPEN ENGINEERING 9:50 PM 2/13/2017 31 LID Summary New Impervious Area 328,794 sf Required Minimum Impervious Area to be Treated (50% of Imp. Area) 164,397 sf Impervious Area Treated by LID Treatment Method #1 (LID Basin DP 23) 64,806 sf Impervious Area Treated by LID Treatment Method #2 (L0D DP 27) 6,531 sf Impervious Area Treated by LID Treatment Method #3 (LID Basin DP 3) 31,196 sf Impervious Area Treated by LID Treatment Method #4 (LID Basin DP 4) 32,571 sf Impervious Area Treated by LID Treatment Method #5 (LID Basin DP 9) 3,634 sf Impervious Area Treated by LID Treatment Method #6 (LOD DP 11) 10,482 sf Impervious Area Treated by LID Treatment Method #7 (LID Basin DP 1) 14,931 sf Impervious Area Treated by LID Treatment Method #8 (Porous Pavement) 20,074 Total Impervious Area Treated 184,224 sf Percent LID Treatment Provided for Entire Site Area 56% New Pavement Area 345,624 sf Required Minimum Area of Porous Pavement (25% of New Pvmt. Area) 86,406 sf Area of Paver Section #1 4,684 sf Run‐on area for Paver Section #1 (up to 3:1 is permitted) 4,684 sf Area of Paver Section #2 3,667 sf Run‐on area for Paver Section #2 (up to 3:1 is permitted) 7,334 sf Area of Paver Section #3 4,028 sf Run‐on area for Paver Section #3 (up to 3:1 is permitted) 8,056 sf Area of Paver Section #4 4,028 sf Run‐on area for Paver Section #4 (up to 3:1 is permitted) 8,056 sf Area of Paver Section #4 3,667 sf Run‐on area for Paver Section #4 (up to 3:1 is permitted) 7,334 sf Total Porous Pavement Area for Site 20,074 sf Allowable Run‐on Area for Site 60,221 sf Total Run‐on Area Utilized for Site 35,464 sf LID TABLE 31 NECCO Summary WSEL (ft) Flow (cfs) WSEL (ft) Flow (cfs) Inlet_C3A 4971.23 72.64 4969.27 72.64 Inlet_C4B 4970.66 27.48 4969 28.71 In_803 4970.15 81.77 4968.44 130.32 In_804 4967.79 232.83 4964.16 168.96 In_805 4965.76 281.38 4963.04 225.22 Regional_Pond 4961.17 873.67 4961.07 873.67 Inlet_C6A 4962.97 10.75 4962.99 11.03 Area (ac) Q100 (cfs) Area (ac) Q100 (cfs) 404 19.2 191.46 ‐‐‐ ‐‐‐ 316 4.2 27.48 4.2 28.7 318 1 9.83 1.11 10.87 830 1.1 10.75 1.46 14.04 831 1.1 10.84 1.12 11.03 26 1.2 11.69 1.74 16.73 Crowe‐Main ‐‐‐ ‐‐‐ 7.84 74.37 Crowe‐West ‐‐‐ ‐‐‐ 4.87 45.15 404a ‐‐‐ ‐‐‐ 2.35 22.24 NECCO EPA SWMM Impact Summary Basin Basin Summary Impacted by Project Master Plan Proposed Master Plan Proposed Node Name Node Summary Downstream of Project EPA SWMM EPASWMM Basins ‐ Master Plan 404 26 830 831 318 316 EPA SWMM ne2 EPASWMM Basins – Proposed Project Adjustments 404a 26 830 831 318 316 Crowe‐Main Crowe‐West EPA SWMM EPASWMM Basins – Master Plan Nodes Inlet_C3A Inlet_C6B IN_803 Inlet_C6A IN_804 IN_805 Regional Pond 22 APPENDIX C 23 STORM SEWER PIPE SIZING (TO BE PROVIDED AT FINAL DESIGN) Project Description Friction Method Manning Formula Solve For Full Flow Capacity Input Data Roughness Coefficient 0.013 Channel Slope 0.00400 ft/ft Normal Depth 1.00 ft Diameter 1.00 ft Discharge 2.25 ft³/s Results Discharge 2.25 ft³/s Normal Depth 1.00 ft Flow Area 0.79 ft² Wetted Perimeter 3.14 ft Hydraulic Radius 0.25 ft Top Width 0.00 ft Critical Depth 0.64 ft Percent Full 100.0 % Critical Slope 0.00724 ft/ft Velocity 2.87 ft/s Velocity Head 0.13 ft Specific Energy 1.13 ft Froude Number 0.00 Maximum Discharge 2.42 ft³/s Discharge Full 2.25 ft³/s Slope Full 0.00400 ft/ft Flow Type SubCritical GVF Input Data Downstream Depth 0.00 ft Length 0.00 ft Number Of Steps 0 GVF Output Data Upstream Depth 0.00 ft Profile Description Profile Headloss 0.00 ft Average End Depth Over Rise 0.00 % 12-in Pipe 2/13/2017 9:53:32 PM Bentley Systems, Inc. Haestad Methods Solution Bentley Center FlowMaster V8i (SELECTseries 1) [08.11.01.03] 27 Siemons Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 2 GVF Output Data Normal Depth Over Rise 100.00 % Downstream Velocity Infinity ft/s Upstream Velocity Infinity ft/s Normal Depth 1.00 ft Critical Depth 0.64 ft Channel Slope 0.00400 ft/ft Critical Slope 0.00724 ft/ft 12-in Pipe 2/13/2017 9:53:32 PM Bentley Systems, Inc. Haestad Methods Solution Bentley Center FlowMaster V8i (SELECTseries 1) [08.11.01.03] 27 Siemons Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 2 of 2 Project Description Friction Method Manning Formula Solve For Full Flow Capacity Input Data Roughness Coefficient 0.013 Channel Slope 0.00400 ft/ft Normal Depth 1.50 ft Diameter 1.50 ft Discharge 6.64 ft³/s Results Discharge 6.64 ft³/s Normal Depth 1.50 ft Flow Area 1.77 ft² Wetted Perimeter 4.71 ft Hydraulic Radius 0.38 ft Top Width 0.00 ft Critical Depth 1.00 ft Percent Full 100.0 % Critical Slope 0.00656 ft/ft Velocity 3.76 ft/s Velocity Head 0.22 ft Specific Energy 1.72 ft Froude Number 0.00 Maximum Discharge 7.15 ft³/s Discharge Full 6.64 ft³/s Slope Full 0.00400 ft/ft Flow Type SubCritical GVF Input Data Downstream Depth 0.00 ft Length 0.00 ft Number Of Steps 0 GVF Output Data Upstream Depth 0.00 ft Profile Description Profile Headloss 0.00 ft Average End Depth Over Rise 0.00 % 18-in Pipe 2/13/2017 9:53:56 PM Bentley Systems, Inc. Haestad Methods Solution Bentley Center FlowMaster V8i (SELECTseries 1) [08.11.01.03] 27 Siemons Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 2 GVF Output Data Normal Depth Over Rise 100.00 % Downstream Velocity Infinity ft/s Upstream Velocity Infinity ft/s Normal Depth 1.50 ft Critical Depth 1.00 ft Channel Slope 0.00400 ft/ft Critical Slope 0.00656 ft/ft 18-in Pipe 2/13/2017 9:53:56 PM Bentley Systems, Inc. Haestad Methods Solution Bentley Center FlowMaster V8i (SELECTseries 1) [08.11.01.03] 27 Siemons Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 2 of 2 Project Description Friction Method Manning Formula Solve For Full Flow Capacity Input Data Roughness Coefficient 0.013 Channel Slope 0.00400 ft/ft Normal Depth 2.00 ft Diameter 2.00 ft Discharge 14.31 ft³/s Results Discharge 14.31 ft³/s Normal Depth 2.00 ft Flow Area 3.14 ft² Wetted Perimeter 6.28 ft Hydraulic Radius 0.50 ft Top Width 0.00 ft Critical Depth 1.36 ft Percent Full 100.0 % Critical Slope 0.00613 ft/ft Velocity 4.55 ft/s Velocity Head 0.32 ft Specific Energy 2.32 ft Froude Number 0.00 Maximum Discharge 15.39 ft³/s Discharge Full 14.31 ft³/s Slope Full 0.00400 ft/ft Flow Type SubCritical GVF Input Data Downstream Depth 0.00 ft Length 0.00 ft Number Of Steps 0 GVF Output Data Upstream Depth 0.00 ft Profile Description Profile Headloss 0.00 ft Average End Depth Over Rise 0.00 % 24-in Pipe 2/13/2017 9:54:18 PM Bentley Systems, Inc. Haestad Methods Solution Bentley Center FlowMaster V8i (SELECTseries 1) [08.11.01.03] 27 Siemons Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 2 GVF Output Data Normal Depth Over Rise 100.00 % Downstream Velocity Infinity ft/s Upstream Velocity Infinity ft/s Normal Depth 2.00 ft Critical Depth 1.36 ft Channel Slope 0.00400 ft/ft Critical Slope 0.00613 ft/ft 24-in Pipe 2/13/2017 9:54:18 PM Bentley Systems, Inc. Haestad Methods Solution Bentley Center FlowMaster V8i (SELECTseries 1) [08.11.01.03] 27 Siemons Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 2 of 2 Project Description Friction Method Manning Formula Solve For Full Flow Capacity Input Data Roughness Coefficient 0.013 Channel Slope 0.00400 ft/ft Normal Depth 2.50 ft Diameter 2.50 ft Discharge 25.94 ft³/s Results Discharge 25.94 ft³/s Normal Depth 2.50 ft Flow Area 4.91 ft² Wetted Perimeter 7.85 ft Hydraulic Radius 0.63 ft Top Width 0.00 ft Critical Depth 1.74 ft Percent Full 100.0 % Critical Slope 0.00583 ft/ft Velocity 5.28 ft/s Velocity Head 0.43 ft Specific Energy 2.93 ft Froude Number 0.00 Maximum Discharge 27.90 ft³/s Discharge Full 25.94 ft³/s Slope Full 0.00400 ft/ft Flow Type SubCritical GVF Input Data Downstream Depth 0.00 ft Length 0.00 ft Number Of Steps 0 GVF Output Data Upstream Depth 0.00 ft Profile Description Profile Headloss 0.00 ft Average End Depth Over Rise 0.00 % 30-in Pipe 2/13/2017 9:54:34 PM Bentley Systems, Inc. Haestad Methods Solution Bentley Center FlowMaster V8i (SELECTseries 1) [08.11.01.03] 27 Siemons Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 2 GVF Output Data Normal Depth Over Rise 100.00 % Downstream Velocity Infinity ft/s Upstream Velocity Infinity ft/s Normal Depth 2.50 ft Critical Depth 1.74 ft Channel Slope 0.00400 ft/ft Critical Slope 0.00583 ft/ft 30-in Pipe 2/13/2017 9:54:34 PM Bentley Systems, Inc. Haestad Methods Solution Bentley Center FlowMaster V8i (SELECTseries 1) [08.11.01.03] 27 Siemons Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 2 of 2 Project Description Friction Method Manning Formula Solve For Full Flow Capacity Input Data Roughness Coefficient 0.013 Channel Slope 0.00400 ft/ft Normal Depth 3.00 ft Diameter 3.00 ft Discharge 42.18 ft³/s Results Discharge 42.18 ft³/s Normal Depth 3.00 ft Flow Area 7.07 ft² Wetted Perimeter 9.42 ft Hydraulic Radius 0.75 ft Top Width 0.00 ft Critical Depth 2.12 ft Percent Full 100.0 % Critical Slope 0.00560 ft/ft Velocity 5.97 ft/s Velocity Head 0.55 ft Specific Energy 3.55 ft Froude Number 0.00 Maximum Discharge 45.37 ft³/s Discharge Full 42.18 ft³/s Slope Full 0.00400 ft/ft Flow Type SubCritical GVF Input Data Downstream Depth 0.00 ft Length 0.00 ft Number Of Steps 0 GVF Output Data Upstream Depth 0.00 ft Profile Description Profile Headloss 0.00 ft Average End Depth Over Rise 0.00 % 36-in Pipe 2/13/2017 9:54:51 PM Bentley Systems, Inc. Haestad Methods Solution Bentley Center FlowMaster V8i (SELECTseries 1) [08.11.01.03] 27 Siemons Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 2 GVF Output Data Normal Depth Over Rise 100.00 % Downstream Velocity Infinity ft/s Upstream Velocity Infinity ft/s Normal Depth 3.00 ft Critical Depth 2.12 ft Channel Slope 0.00400 ft/ft Critical Slope 0.00560 ft/ft 36-in Pipe 2/13/2017 9:54:51 PM Bentley Systems, Inc. Haestad Methods Solution Bentley Center FlowMaster V8i (SELECTseries 1) [08.11.01.03] 27 Siemons Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 2 of 2 Project Description Friction Method Manning Formula Solve For Full Flow Capacity Input Data Roughness Coefficient 0.013 Channel Slope 0.00400 ft/ft Normal Depth 3.00 ft Diameter 3.00 ft Discharge 42.18 ft³/s Results Discharge 42.18 ft³/s Normal Depth 3.00 ft Flow Area 7.07 ft² Wetted Perimeter 9.42 ft Hydraulic Radius 0.75 ft Top Width 0.00 ft Critical Depth 2.12 ft Percent Full 100.0 % Critical Slope 0.00560 ft/ft Velocity 5.97 ft/s Velocity Head 0.55 ft Specific Energy 3.55 ft Froude Number 0.00 Maximum Discharge 45.37 ft³/s Discharge Full 42.18 ft³/s Slope Full 0.00400 ft/ft Flow Type SubCritical GVF Input Data Downstream Depth 0.00 ft Length 0.00 ft Number Of Steps 0 GVF Output Data Upstream Depth 0.00 ft Profile Description Profile Headloss 0.00 ft Average End Depth Over Rise 0.00 % 42-in Pipe 2/13/2017 9:55:09 PM Bentley Systems, Inc. Haestad Methods Solution Bentley Center FlowMaster V8i (SELECTseries 1) [08.11.01.03] 27 Siemons Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 2 GVF Output Data Normal Depth Over Rise 100.00 % Downstream Velocity Infinity ft/s Upstream Velocity Infinity ft/s Normal Depth 3.00 ft Critical Depth 2.12 ft Channel Slope 0.00400 ft/ft Critical Slope 0.00560 ft/ft 42-in Pipe 2/13/2017 9:55:09 PM Bentley Systems, Inc. Haestad Methods Solution Bentley Center FlowMaster V8i (SELECTseries 1) [08.11.01.03] 27 Siemons Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 2 of 2 Project Description Friction Method Manning Formula Solve For Full Flow Capacity Input Data Roughness Coefficient 0.013 Channel Slope 0.00400 ft/ft Normal Depth 4.00 ft Diameter 4.00 ft Discharge 90.84 ft³/s Results Discharge 90.84 ft³/s Normal Depth 4.00 ft Flow Area 12.57 ft² Wetted Perimeter 12.57 ft Hydraulic Radius 1.00 ft Top Width 0.00 ft Critical Depth 2.89 ft Percent Full 100.0 % Critical Slope 0.00526 ft/ft Velocity 7.23 ft/s Velocity Head 0.81 ft Specific Energy 4.81 ft Froude Number 0.00 Maximum Discharge 97.72 ft³/s Discharge Full 90.84 ft³/s Slope Full 0.00400 ft/ft Flow Type SubCritical GVF Input Data Downstream Depth 0.00 ft Length 0.00 ft Number Of Steps 0 GVF Output Data Upstream Depth 0.00 ft Profile Description Profile Headloss 0.00 ft Average End Depth Over Rise 0.00 % 48-in Pipe 2/13/2017 9:55:31 PM Bentley Systems, Inc. Haestad Methods Solution Bentley Center FlowMaster V8i (SELECTseries 1) [08.11.01.03] 27 Siemons Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 2 GVF Output Data Normal Depth Over Rise 100.00 % Downstream Velocity Infinity ft/s Upstream Velocity Infinity ft/s Normal Depth 4.00 ft Critical Depth 2.89 ft Channel Slope 0.00400 ft/ft Critical Slope 0.00526 ft/ft 48-in Pipe 2/13/2017 9:55:31 PM Bentley Systems, Inc. Haestad Methods Solution Bentley Center FlowMaster V8i (SELECTseries 1) [08.11.01.03] 27 Siemons Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 2 of 2 24 APPENDIX D 25 *INLET, *CONCRETE SIDEWALK CULVERT SIZING, PUBLIC STREET CAPACITIES (*TO BE PROVIDED AT FINAL DESIGN) Street Capacity Computes flow capacities for a given section of Road Major Storm Design contraints: Local: The depth of water over the crown shall not exceed 6 inches. Arterial and Major Arterial: Depth of water not to exceed 6 inches above the crown or 18 inches above gutter flowline. * Road width equals the width of pavement covered by water for one side of the road out from the edge of gutter pan. Driveover Curb & Gutter Design Point 7 8 15 16 19 OS3 OS4 OS5 OS6 Input *Width of road section from edge of gutter pan (ft.): 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 20.00 Road elevation at end of road width (ft.): 2.00 2.00 2.00 2.00 2.00 2.00 2.00 2.00 2.00 Flood water elevation (ft.): 2.50 2.50 2.50 2.50 2.50 2.50 2.50 2.50 2.50 Gutter slope (ft/ft): 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 Cross slope of road (ft/ft): 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 Cross slope behind back of walk (decimal): 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 Output Theoretical Capacity (cfs): 74.29 74.29 74.29 74.29 74.29 74.29 74.29 74.29 74.29 Theoretical Velocity (ft/s): 3.02 3.02 3.02 3.02 3.02 3.02 3.02 3.02 3.02 Reduction Factor: 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 Allowable Capacity (cfs): 59.43 59.43 59.43 59.43 59.43 59.43 59.43 59.43 59.43 Q100 5.21 5.90 14.07 9.14 3.12 5.97 4.36 8.15 5.72 Vertical Curb & Gutter Design Point 7 8 15 16 19 OS3 OS4 OS5 OS6 Input *Width of road section from edge of gutter pan (ft.): 15.00 15.00 15.00 15.00 15.00 15.00 15.00 15.00 15.00 Road elevation at end of road width (ft.): 0.41 0.41 0.41 0.41 0.41 0.41 0.41 0.41 0.41 Flood water elevation (ft.): 0.91 0.91 0.91 0.91 0.91 0.91 0.91 0.91 0.91 Gutter slope (ft/ft): 0.005 0.005 0.005 0.005 0.005 0.005 0.005 0.005 0.005 Cross slope of road (ft/ft): 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 Cross slope of sidewalk (ft/ft): 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 Sidewalk width (ft.): 4.50 4.50 4.50 4.50 4.50 4.50 4.50 4.50 4.50 Detachment width (ft.): 5.50 5.50 5.50 5.50 5.50 5.50 5.50 5.50 5.50 Cross slope of detachment (ft/ft): 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 Cross slope behind back of walk (ft/ft): 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 Output Check flood depth over gutter flowline (< 1.5 ft.) OK OK OK OK OK OK OK OK OK Theoretical Capacity (cfs): 40.08 40.08 40.08 40.08 40.08 40.08 40.08 40.08 40.08 Theoretical Velocity (ft/s): 2.11 2.11 2.11 2.11 2.11 2.11 2.11 2.11 2.11 Reduction Factor: 0.65 0.65 0.65 0.65 0.65 0.65 0.65 0.65 0.65 Allowable Capacity (cfs): 26.05 26.05 26.05 26.05 26.05 26.05 26.05 26.05 26.05 Q100 5.21 5.90 14.07 9.14 3.12 5.97 4.36 8.15 5.72 Crowne @ Old Town North 501-003 The Sear-Brown Group 10:10 PM 2/13/2017 Street Capacity Computes flow capacities for a given section of Road Minor Storm Design constraints: Local: No curb-topping. Flow may spread to crown of streeet. Collector: No curb-topping. Flow spread must leave at least one lane width free of water. Major Arteial: No curb-topping. Flow must leave at least 1/2 of roadway width free of water in each direction. Vertical Curb & Gutter Design Point 7 8 15 16 19 OS3 OS4 OS5 OS6 Input Flood water elevation (ft.): 0.50 0.50 0.50 0.50 0.50 0.50 0.50 0.50 0.50 Gutter flowline elevation (ft.): 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Cross slope of road (ft/ft): 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 Gutter slope (ft/ft): 0.005 0.005 0.005 0.005 0.005 0.005 0.005 0.005 0.005 Output Lateral spread of water from edge of gutter pan: 16.50 16.50 16.50 16.50 16.50 16.50 16.50 16.50 16.50 Theoretical Capacity (cfs): 9.57 9.57 9.57 9.57 9.57 9.57 9.57 9.57 9.57 Theoretical Velocity (ft/s): 2.69 2.69 2.69 2.69 2.69 2.69 2.69 2.69 2.69 Reduction Factor: 0.65 0.65 0.65 0.65 0.65 0.65 0.65 0.65 0.65 Allowable Capacity (cfs): 6.22 6.22 6.22 6.22 6.22 6.22 6.22 6.22 6.22 Q2 1.15 1.30 2.86 1.89 0.71 1.29 1.05 1.67 1.32 Driveover Curb & Gutter Design Point 7 8 15 16 19 OS3 OS4 OS5 OS6 Input Flood water elevation (ft.): 0.39 0.39 0.39 0.39 0.39 0.39 0.39 0.39 0.39 Gutter flowline elevation (ft.): 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Cross slope of road (ft/ft): 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 Gutter slope (ft/ft): 0.01 0.01 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Output Lateral spread of water from edge of gutter pan: 13.80 13.80 13.80 13.80 13.80 13.80 13.80 13.80 13.80 Theoretical Capacity (cfs): 7.11 10.05 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Theoretical Velocity (ft/s): 2.77 3.91 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Reduction Factor: 0.80 0.80 -0.10 -0.10 -0.10 -0.10 -0.10 -0.10 -0.10 Allowable Capacity (cfs): 5.69 8.04 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Q2 1.15 1.30 2.86 1.89 0.71 1.29 1.05 1.67 1.32 Crowne @ Old Town North 501-003 The Sear-Brown Group 10:09 PM 2/13/2017 26 APPENDIX E 27 SWALE SIZING (TO BE PROVIDED AT FINAL DESIGN) 28 APPENDIX F 29 EROSION CONTROL & RIPRAP SIZING & EROSION CONTROL ESCROW ESTIMATE (TO BE PROVIDED AT FINAL DESIGN) 30 APPENDIX G 31 PROPOSED & EXISTING DRAINAGE BASIN EXHIBITS, EROSION CONTROL PLAN, & EROSION CONTROL NOTES AND DETAILS SHEET MH 1,2 5.0 48.0 PA 0.4 1.2 0.7 5.67 0.64 0.80 9.56 0.58 4.46 0.00 4.46 7 7 5.0 -- 0.0 5.00 0.64 0.80 9.95 0.65 5.21 0.00 5.21 MH 7,8 5.0 30.0 PA 0.4 1.2 0.4 5.42 0.66 0.83 9.70 1.35 10.82 0.00 10.82 MH 7,8 5.4 153.0 PA 0.4 1.2 2.1 7.56 0.66 0.83 8.63 1.35 9.63 0.00 9.63 10 10 5.0 -- 0.0 5.00 0.94 1.00 9.95 1.12 11.11 0.00 11.11 11 10 5.0 197.0 PA 0.4 1.2 2.8 7.76 0.94 1.00 8.55 1.12 9.54 0.00 9.54 12 12 5.0 -- 0.0 5.00 0.74 0.93 9.95 0.74 6.81 0.00 6.81 13 12-13 5.0 133.0 PA 0.4 1.2 1.9 6.86 0.76 0.95 8.95 1.60 13.59 0.00 13.59 14 12-14 6.9 215.0 PA 0.4 1.2 3.0 9.87 0.81 1.00 7.76 2.26 17.52 0.00 17.52 Routing Flow Time (tL) Runoff ASPEN ENGINEERING 9:50 PM 2/13/2017 ASPEN ENGINEERING 9:49 PM 2/13/2017