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Home My WebLink AboutSW6220202_Stormwater Report_20221213 (2)underfoot ENGINEERING STORMWATER REPORT for MESSER PARCELS Prepared for: T&L COATS, LLC 165 SOMMERVILLE PARK ROAD RALEIGH, NC 27603 Underfoot Project #: C21020.00 I st Submittal: November 17, 2021 2nd Submittal: August 5, 2022 3rd Submittal: November 28, 2022 032674 1 F;;ciNe�:°`��;� 2022.11.28 Landon Lovelace, PE 1 149 Executive Circle, Suite C-1 Cary, NC 27511 NCBELS # C-3847 1 919.576.9733 Forward Thinking. Grounded Design. www.underfootengineering.com underfoot ENGINEERING 1149 Executive Circle - Suite C-1, Cary, NC 27511 919.576.9733 1 NCBELS C-3847 TABLE OF CONTENTS TABLEOF CONTENTS................................................................................................................. 1 1. INTRODUCTION AND BACKGROUND................................................................................. 3 1.1 PROJECT INFORMATION AND DATA.................................................................... 3 1.2 STORMWATER MANAGEMENT REQUIREMENTS.................................................... 4 1.3 PROJECT DESCRIPTION......................................................................................... 5 2. STORMWATER CALCULATIONS........................................................................................... 6 2.1 METHODOLOGY....................................................................................................6 2.2 CONCLUSIONS...................................................................................................... 7 APPENDIX A: MAPS................................................................................................................A FEMA FIRM PANEL.........................................................................................................A DRAINAGE AREA MAPS................................................................................................A SOILSMAP.....................................................................................................................A APPENDIX B: SCM CALCULATIONS....................................................................................... B SCMSIZING................................................................................................................... B SCMROUTING............................................................................................................... B O&M MANUAL.............................................................................................................. B APPENDIX C: CONVEYANCE CALCULATIONS......................................................................0 PIPESIZING....................................................................................................................0 GUTTERSPREAD............................................................................................................0 HGLANALYSIS...............................................................................................................0 SWALECALCS...............................................................................................................0 DISSIPATORS..................................................................................................................0 APPENDIX D: ENVIRONMENTAL EVALUATION....................................................................... D Forward Thinking. Grounded Design. www.underfootengineering.com underfoot ENGINEERING 1149 Executive Circle - Suite C-1, Cary, NC 27511 919.576.9733 1 NCBELS C-3847 1.INTRODUCTION AND BACKGROUND 1.1 PROJECT INFORMATION AND DATA Messer Parcels is a 12.25 acre property on which a fourty-two (42) single family unit development is being proposed. The Harnett County parcel identification number(s) (PIN(s)) for the site is 0690-85-7606, 0690-85-5523, 0690-85-4624, and 0690-85-3459. The property is located in Coats, NC at NC Highway 27 directly across from E. Stewart Street. The site is mostly wooded and consists of old residential/farming structures, an existing wellhouse, small gravel driveways, and existing sanitary sewer strucuures and mains. The total area of land disturbance on site for the project is 10.95 Acres. The terrain is rolling, all sloping towards the northwest corner of the site. The property is located within the Town of Coats in Harnett County, zoned R-6 for all existing parcels within the site, with the exception of parcel 0690-85-3459 which is zoned C-3, which must be rezoned concurrently with plan approval. The site is in the Cape Fear Watershed / Upper Black River Sub Basin (HUC 030300060101). There are no FEMA mapped flood plain per FIRM Panel 372006800J, effective date October 3, 2006. There is no buffered stream on the property, however there are wetlands on site (0.884 ac) per the preliminary environmental delineation prepared by Sage Ecological Solutions, INC on June 25, 2021. A copy of that preliminary sketch is included in Appendix D and the consultant has reached out to the necessary agencies for concurrence. Forward Thinking. Grounded Design. www.underfootengineering.com underfoot ENGINEERING FIGURE 1: AERIAL VIEW OF THE SITE 1149 Executive Circle - Suite C-1, Cary, NC 27511 919.576.9733 1 NCBELS C-3847 1.2 STORMWATER MANAGEMENT REQUIREMENTS This project is subject to the regulations set forth in the North Carolina Department of Environmental Quality (NCDEQ) Post Construction Stormwater Program. As a high -density project, the proposed development will be required to meet Chapter A-1 of the NCDEQ Stormwater Design Manual treatment requirements. Additionally, the project shall meet the Erosion Control requirements as set forth by NCDEQ. The purpose of this report is to demonstrate the site's proposed compliance with all stormwater regulations and to provide supporting documentation to that effect. The Stormwater Runoff Control requirements of the Stormwater Program state that the Minimum Design Criteria (MDC) for infiltration systems is that they shall control and treat the difference in stormwater runoff rate leaving the project site between the pre- and post -development conditions for the 1-year, 24-hour storm. The design volume shall be drawn down 72 hours or less. Additionally, any structural stormwater system must treat the run-off to remove 85% total suspended solids (TSS). Calculations were run to identify the peak flows for the design storm under the existing conditions, as well as after the proposed build out for the point Forward Thinking. Grounded Design. www.underfootengineering.com _1149 Executive Circle -Suite C-1, Cary, NC 27511 underfoot _ 919.576.9733 1 NCBELS C-3847 ENGINEERING of Interest. An on -site wet pond will be used to mitigate the increase in run-off associated with the proposed development. The following section outlines how all stormwater requirements are being met. For construction phase erosion and sedimentation control requirements, the site shall use a series of measures in order to meet all applicable NCDEQ requirements to prevent erosion and off -site sedimentation. Those requirements include the use of silt fencing, diversion berms/ditches, skimmer sediment basins, and other measures as required. The erosion control calculations can be found on the construction plans. 1.3 PROJECT DESCRIPTION The proposed development includes the necessary roadway, utility, and stormwater infrastructure to create forty-two (42) single family homes. After construction, the project will consist of impervious area for roadways, driveways, sidewalks, and roofs as well as managed pervious areas (lawns and landscaping). The project site work will be done in compliance with Town of Coats, NCDEQ, NCDOT, Harnett County, and Harnet Regional Water requirements as well as other regulatory agency requirements. Forward Thinking. Grounded Design. www.underfootengineering.com underfoot ENGINEERING 2.1 METHODOLOGY 1149 Executive Circle - Suite C-1, Cary, NC 27511 919.576.9733 1 NCBELS C-3847 2. STORMWATER CALCULATIONS This stormwater study was conducted using the natural drainage features and existing impervious areas as depicted by an existing field survey provided by Robinson & Plante, PC, as well as the proposed impervious areas based on the site design. Drainage areas were based on field survey and GIS data and proposed development within those drainage areas. The scope of work included the following analyses: Hydrology: Formulation of the 1-year peak flow for the pre -development and post -development drainage areas were generated with HydroCAD. The SCS Method was used to develop peak flows for the Type II, 24-hour storm events in the Town of Coats area. This method requires three basic parameters: a weighted curve number (CN), Rainfall Depth (P), and drainage area in acres (A). The curve number values, and drainage areas were computed using information taken directly from the field survey and GIS information and TR-55 Table of Curve Numbers. The rainfall depth was determined from the NOAA Atlas 14 rainfall data for Coats, NC. Hydraulics: Computer simulated reservoir routing of the 1-year, 2-year, 25-year, and 100-year design storms utilized stage -storage and stage -discharge functions was completed in HydraFlow. Stage -storage functions were derived from the proposed grading of the proposed SCM. A non -linear regression relation for surface area versus elevation was derived for the SCM. This relation estimates the incremental volume of the basin to the stage or elevation of the basin. Stage -discharge functions were developed to size the proposed outlet structure for the SCM. The resulting pre -development and post - development flows out of the proposed SCM and for untreated areas are then analyzed to ensure that there is no increase in flow for all required design storms. Forward Thinking. Grounded Design. www.underfootengineering.com _1149 Executive Circle -Suite C-1, Cary, NC 27511 underfoot _ 919.576.9733 1 NCBELS C-3847 ENGINEERING The HydraFlow modeling results are provided as appendices to this report. Piped conveyance systems were analyzed in StormCAD using the rational method. Gutter spread was calculated for the 4"/hour storm, with a maximum allowable gutter spread of 7.5'. Pipes were sized for the 10-year storm and all Hydraulic Grade Lines for the 10- year storm are within the pipe. Drainage Swales were analyzed using a spreadsheet tool and the results are provided as appendices to this report. 2.2 CONCLUSIONS The final SCM design is based on the Simple Method for the First 1" volume calculation and NCDENR's SCM Manual account for the attenuation required to ensure that the site meets the pre -post requirement for peak flow. Based on the routing study, the proposed basin has sufficient volume to safely pass the 100-year storm without overtopping the dam. The outlet was designed to discharge the runoff resulting from the first 1" of rainfall over 2 to 5 days to meet water quality guidelines. There is no proposed increase in peak runoff, for the site as a whole and at each study point, for any of the design storms. Per the SCM Manual, a wet detention basin removes 85% TSS, which meets the required 85% TSS removal. Please refer to Appendices for all supporting calculations and documentation. Forward Thinking. Grounded Design. www.underfootengineering.com W44� 14 qV underfoot ENGINEERING APPENDIX A: MAPS FEMA FIRM PANEL DRAINAGE AREA MAPS SOILS MAP 1 149 Executive Circle, Suite C-1 Cary, NC 27511 NCBELS # C-3847 1 919.576.9733 Forward Thinking. Grounded Design. www.underfootengineering.com 2080000 FEET 620000 FEET [c}.•WArde]YoI 35'26'30"N [cb'Si14:1HY►1 35'25'30"N [GNVI�.'YHY►1 35'24'30"N 35'24'0"N 600000 FEET 78'43'30"W 78'43'0"W 78'42'30"W 78'42'0"W 78'41'30"W 78'41'0"W 78'40'30"W Cf, 161, •r is: �'. f C f. ST r� t, r ' a J ••,;-�WendyLn Y'� f dr ea! CO r 4 M a r }} fit _A e. ti - 40 � avD,4 Al2 •r..,. ado � .� � ` s � �•' � • q r 04t Ln A� a Alt yors - f Ron m � .y'f - - •.ter S`\as Na, es Rd G't • •: � y Wet cpy 4' fQ r - Wild Winds Dr.. L. S �s r o 1 :° r Ilk Easd a ' Bwies O � e r ` • � � �# �� t°�V� creek � op Oi N m� a ~:� •t � ` �" `p7 r, { EL • triolet Ln � d I R. 0 CD Id 40. Im. 0 r f � 9 3 f n � � Sys c ri P°a Runr i �� 1�!' �•. t k Bir h Acres Ln).. 9 ` Roc: Branch Eta R 9 Birch ' w a S) Memory Ln, # Ve Ln CAl <CaCRe Ln 4J� l �� C i'nsO��e ZONE E t4s ,• +' � _ - 1'89.9- y - m s 3-+ y w /Trw '= • :.,,sryy At � ,� � � ,X 4es tot 1664 Pa , to on�Cir 1 `6�g East Bwies c`P 3 •-- �r as f �s 1 C�yt m i � ,Y ."1, � 1 Creek 4° tew n Town R � , • r 9J• + 7� � Cin ,:' .'' �4 r: a d 401. �' oc r! •. 44ji . r •i 158-2 rf •, `' Jam' _ ' � ,• . may tJw �, J OLH � 2100000 FEET 78'40'0"W 620000 FEET NE AE Willis pp e Rq r 55 IlkN U s o U� ��,�1 ., •,. '" � 1�EZ0 3 •� �!D AREAS '; r •~. � . }s r 4 rall ? i�Dr T� �d f N c •y kz _'• O c n �y�•� V�[ i-� hr 0 fn N'•� .z� �•Y'. 5 R!� O r I� �. �. A � '�'• E Williams St 9• C a E D oley S,t W Doole'/St d N PY r 35'27'0"N 1011K:301Y► 35'26'0"N 35°25'0"N 35'24'30"N 35'24'0"N 600000 FEET 78'43'30"W 78'43'0"W 78°42'30"W 78°42'0"W 78°41'30"W 78'41'0"W 78'40'30"W 78°40'0"W 2080000 FEET 2100000 FEET FEMA SCCrPER.�T'i I6 7ECHNICALPARTNE1 This digital Flood Insurance Rate Map (FIRM) was produced through a unique cooperative partnership between the State of North Carolina and the Federal Emergency Management Agency (FEMA). The State of North Carolina has implemented a long term approach to floodplain management to decrease the costs associated with flooding. This is demonstrated by the State's commitment to map flood hazard areas at the local level. As a part of this effort, the State of North Carolina has joined in a Cooperating Technical State agreement with FEMA to produce and maintain this digital FIRM. FLOOD HAZARD INFORMATION 27 4-bw a ' / .� •+cam #� r.r �a 1 r_. . . . . . SEE FIS REPORT FOR ZONE DESCRIPTIONS AND INDEX MAP THE INFORMATION DEPICTED ON THIS MAP AND SUPPORTING DOCUMENTATION ARE ALSO AVAILABLE IN DIGITAL FORMATAT HTTP://FRIS.NC.GOV/FRIS Without Base Flood Elevation (BFE) Zone A,V, A99 With BFE or Depth zone AE, AO, AH, VE, AR SPECIAL FLOOD Regulatory Floodway HAZARD AREAS �. 0.2%Annual Chance Flood Hazard, Areas of 1% Annual Chance Flood with Average Depth Less Than One Foot or With Drainage Areas of Less Than One Square Mile zone x Future Conditions 1%Annual Chance Flood Hazard zone x OTHER AREAS OF Area with Reduced Flood Risk due to Levee FLOOD HAZARD See Notes zone x OTHER Areas Determined to be Outside the AREAS 0.2%Annual Chance Floodplain zone ------------- Channel, Culvert, or Storm Sewer Accredited or Provisionally Accredited GENERAL Levee, Dike, or Floodwall STRUCTURES Non -accredited Levee, Dike, or Floodwall BM5510 X North Carolina Geodetic Survey bench mark BM5510 ® National Geodetic Survey bench mark BM5510<81 Contractor Est. NCFMP Survey bench mark 0�1•$-2— Cross Sections with 1% Annual Chance Water Surface Elevation (BFE) a - - - - - Coastal Transect --- --- Coastal Transect Baseline Profile Baseline Hydrographic Feature OTHER Limit of Study FEATURES Jurisdiction Boundary NOTES TO USERS For information and questions about this map, available products associated with this FIRM including historic versions of this FIRM, how to order products or the National Flood Insurance Program in general, please call the FEMA Map Information eXchange at 1-877-FEMA-MAP (1-877-336-2627) or visit the FEMA Map Service Center website at http://msc.fema.gov. An accompanying Flood Insurance Study report, Letter of Map Revision (LOMR) or Letter of Map Amendment (LOMA) revising portions of this panel, and digital versions of this FIRM may be available. Visit the North Carolina Floodplain Mapping Program website at http://www.ncfloodmaps.com or contact the FEMA Map Service Center. Communities annexing land on adjacent FIRM panels must obtain a current copy of the adjacent panel as well as the current FIRM Index. These may be ordered directly from the Map Service Center at the number listed above. For community and countywide map dates refer to the Flood Insurance Study report for this jurisdiction. To determine if flood insurance is available in the community, contact your Insurance agent or call the National Flood Insurance Program at 1-800-638-6620. Base map information shown on this FIRM was provided in digital format by the North Carolina Floodplain Mapping Program (NCFMP). The source of this information can be determined from the metadata available in the digital FLOOD database and in the Technical Support Data Notebook (TSDN). ACCREDITED LEVEE NOTES TO USERS: If an accredited levee note appears on this panel check with your local community to obtain more information, such as the estimated level of protection provided (which may exceed the 1-percent-annual-chance level) and Emergency Action Plan, on the levee system(s) shown as providing protection. To mitigate flood risk in residual risk areas, property owners and residents are encouraged to consider flood insurance and floodproofing or other protective measures. For more information on flood insurance, interested parties should visit the FEMA Website at http://www.fema.gov/business/nfip/index.shtm. PROVISIONALLY ACCREDITED LEVEE NOTES TO USERS: If a Provisionally Accredited Levee (PAL) note appears on this panel, check with your local community to obtain more information, such as the estimated level of protection provided (which may exceed the 1-percent-annual-chance level) and Emergency Action Plan, on the levee system(s) shown as providing protection. To maintain accreditation, the levee owner or community is required to submit the data and documentation necessary to comply with Section 65.10 of the NFIP regulations. If the community or owner does not provide the necessary data and documentation or if the data and documentation provided indicates the levee system does not comply with Section 65.10 requirements, FEMA will revise the flood hazard and risk information for this area to reflect de -accreditation of the levee system. To mitigate flood risk in residual risk areas, property owners and residents are encouraged to consider flood insurance and floodproofing or other protective measures. For more information on flood insurance, interested parties should visit the FEMA Website at http://www.fema.gov/business/nfip/index.shtm. LIMIT OF MODERATE WAVE ACTION NOTES TO USERS: For some coastal flooding zones the AE Zone category has been divided by a Limit of Moderate Wave Action (LiMWA). The LiMWA represents the approximate landward limit of the 1.5-foot breaking wave. The effects of wave hazards between the VE Zone and the LiMWA (or between the shoreline and the LiMWA for areas where VE Zones are not identified) will be similar to, but less severe than those in the VE Zone. Limit of Moderate Wave Action (LiMWA) COASTAL BARRIER RESOURCES SYSTEM (CBRS) NOTE This map may include approximate boundaries of the CBRS for informational purposes only. Flood insurance is not available within CBRS areas for structures that are newly built or substantially improved on or after the date(s) indicated on the map. For more information see http://www.fws.gov/habitatconservation/coastal barrier.html, the FIS Report, or call the U.S. Fish and Wildlife Service Customer Service Center at 1-800-344-WILD. CBRS Area : ; Otherwise Protected Area SCALE Map Projection: North Carolina State Plane Projection Feet (Zone 3200) Datum: NAD 1983 (Horizontal), NAVD 1988 (Vertical) 1 inch = 1,000 feet 1:12,000 0 500 1,000 2,000 Feet Meters 0 150 300 600 PANEL LO CATO R / CHATHAM COUNTY i WAKECOUNTY 1 0626 �� `�_ 0645 0655 0665 0675 � `0604 0624 � 0684 _ 0644065406640674'� JOHNSTON COUNTY LEE COUNTY 9682,/ 0602 0622 0642 0662 0682 �1602 / \, 9680 0600 0620 0640 0660 1600 �, 1620 F6,70 0589 0599 1509 1519 9548 9568 9588 0508 0528 0548 0568 1528 / 0588 0598 15081518 0587 0597 1527 1537 9546 9566 9586 0506 0526 0546 0566 1506 �, 1546 9536 % 05860596 1526 536 9535 9545 9555 ) 9564 9584 0504 0524 0544-- '0564' "10584 1504 1 1524 -----_ 9534 9544 9554 --- 1 95,53 9583 9593 0503 -- 0513 0523 0533 '` -.9562 f 9582 CUMBERLAND COUNTY �� SAMPSON COUNTY HOKECOUNTY NORTH CAROLINA FLOODPLAIN MAPPING PROGRAM NATIONAL FLOOD INSURANCE PROGRAM cc FLOOD INSURANCE RATE MAP NORTH CAROLINA a�eLft 0 y. L PANEL 0680 x a+vo sti�4 FEMA a �Ck? Aj, cc Panel Contains: :~ G COMMUNITY CID PANEL SUFFIX COATS, TOWN OF 370558 0680 J HARNETT COUNTY 370328 0680 J ir 0 0 U. 0 ir W MAP NUMBER 3720068000J MAP REVISED 10/03/06 O U w w LU w O N O N O N O N O w O O X E POST DA 1 UNDETAINED AREA = 2.65 ACRES CN = 67 TOC = 5 MIN. JIM 14J A n G`9 A An �— N—d714 Z BI 1010 (T/EJ — - E >3.3.83' (J/E) 14 I S -� ' 1 �300 Lu 16 I • F ; I CONCENTic14 f 50, TM 00 j STM 115 116 I 6pN 31. :OH - I 0 0° S 300 09/ �kOA'0 WIDENING LIMITS OF DISTURBANCE PLAN REVISIONS # I DATE I REVISION I BY KNOW WHAT'S BELOW ALWAYS CALL 811 BEFORE YOU DIG It's fast. It's free. It's the law. MESSER PARCELS 187, 203 & 249 EAST STEWART STREET COATS, NC PROJECT #: C21020 DRAWN BY: ZA REVIEWED BY: ILL 1 ST SUBMITTAL: 2021.1 1.17 SCALE: AS NOTED PRELIMINARY NOT FOR CONSTRUCTION PREPARED FOR: T&L COATS, LLC 165 SOMMERVILLE PARK ROAD RALEIGH, NC IaI a1111INaDII YA "I"WAIIIIIIII11m F4 h9W underfoot ENGINEERING 1 149 EXECUTIVE CIRCLE CARY, NC 27511 P:919.576.9733 NCBELS # C-3847 SEALED: SHEET: POST - DA MAP O U w w LU w O N O N O N O N O w O O X o � S . W NoB r i Bb i .tiG{ • NoB .. t_ 44, S tewart'St� � FaiB Opt r . r pw �bie Dr. StatelHW� 09 x _ I.-- - DoA r• N. I - ', _ t a o0 Gasp u� wok [bc e�Do�l t�f�o� Oc�o •. t M s MAP LEGEND Area of Interest (AOI) 0 Area of Interest (AOI) Soils 0 Soil Map Unit Polygons ,N Soil Map Unit Lines Soil Map Unit Points Special Point Features Blowout Borrow Pit Clay Spot Closed Depression Gravel Pit �i Gravelly Spot 0 Landfill A. Lava Flow Marsh or swamp Mine or Quarry Miscellaneous Water Perennial Water Rock Outcrop Saline Spot Sandy Spot Severely Eroded Spot Sinkhole Slide or Slip o Sodic Spot Soil Map —Harnett County, North Carolina (Messer Parcels) MAP INFORMATION Spoil Area The soil surveys that comprise your AOI were mapped at 1:24,000. Stony Spot Very Stony Spot Warning: Soil Map may not be valid at this scale. Wet Spot Enlargement of maps beyond the scale of mapping can cause misunderstanding of the detail of mapping and accuracy of soil 4� Other line placement. The maps do not show the small areas of Special Line Features contrasting soils that could have been shown at a more detailed scale. Water Features Streams and Canals Please rely on the bar scale on each map sheet for map measurements. Transportation Rails Source of Map: Natural Resources Conservation Service Web Soil Survey URL: . 0 Interstate Highways Coordinate System: Web Mercator (EPSG:3857) US Routes Maps from the Web Soil Survey are based on the Web Mercator Major Roads projection, which preserves direction and shape but distorts distance and area. A projection that preserves area, such as the Local Roads Albers equal-area conic projection, should be used if more accurate calculations of distance or area are required. Background Aerial Photography This product is generated from the USDA-NRCS certified data as of the version date(s) listed below. Soil Survey Area: Harnett County, North Carolina Survey Area Data: Version 18, Sep 1, 2021 Soil map units are labeled (as space allows) for map scales 1:50,000 or larger. Date(s) aerial images were photographed: Oct 22, 2018—Oct 25, 2018 The orthophoto or other base map on which the soil lines were compiled and digitized probably differs from the background imagery displayed on these maps. As a result, some minor shifting of map unit boundaries may be evident. usoA Natural Resources Web Soil Survey 11/17/2021 Conservation Service National Cooperative Soil Survey Page 2 of 3 Soil Map —Harnett County, North Carolina Messer Parcels Map Unit Legend Map Unit Symbol Map Unit Name Acres in AOI Percent of AOI Bb Bibb soils, frequently flooded 17.3 11.3% DoA Dothan loamy sand, 0 to 2 percent slopes 19.8 12.9% FaB Fuquay loamy sand, 0 to 6 percent slopes 3.4 2.2% NoB Norfolk loamy sand, 2 to 6 percent slopes 66.4 43.1 % NuB Norfolk -Urban land complex, 0 to 6 percent slopes 15.4 10.0% W Water 0.4 0.2% WaB Wagram loamy sand, 0 to 6 percent slopes 1.9 1.3% WaC Wagram loamy sand, 6 to 10 percent slopes 29.3 19.0% Totals for Area of Interest 163.8 100.0% USDA Natural Resources Web Soil Survey 11/17/2021 Conservation Service National Cooperative Soil Survey Page 3 of 3 APPENDIX B: SCM CALCULATIONS underfoot ENGINEERING SCM SIZING SCM ROUTING O&M MANUAL 1 149 Executive Circle, Suite C-1 Cary, NC 27511 NCBELS # C-3847 1 919.576.9733 Forward Thinking. Grounded Design. www.underfootengineering.com C-3: WET DETENTION BASIN DESIGN PROJECT INFORMATION Project Name: WET POND 1 Project Location: Drainage Area 1 Project Number: C21020 Date: 1 1 /1 7/2021 Project Designer: EB Checked By: LL DRAINAGE AREA INFORMATION Drainage Area Name: DA1 Drainage Area (DA) = 423,247 SF 9.71641 Impervious Area (IA) = 158,229 SF Percent Impervious (I) = 37.38 Water Quality Design Storm = 1 INCHE(S) REQUIRED STORAGE VOLUME - SIMPLE METHOD Determine Rv Value = 0.05 + 0.009 (I) = 0.39 IN/IN Storage Volume Required = 13,631 CF Based on Simple Method REQUIRED SUFACE AREA SA/DA = 2.26 From SA/DA Table 2 in Stormwater Design Manual Min Req'd Surface Area = 9,565 SF (at Permanent Pool) WET POND ELEVATIONS Top of Dam Elevation = 271.00 FT Emergency Spillway Elevation = 269.75 FT Temporary Pool Elevation = 267.75 FT Permanent Pool Elevation = 266.50 FT Bottom of Pond Elevation = 261.00 FT Sediment Cleanout, Bottom Elevation = 260.50 FT PERMANENT POOL AREA AND BASIN VOLUMES Area of Permanent Pool = 16,886 SF Area of Bottom of Vegetated Shelf = 14,300 SF Volume of Main Pool (Excluding Forebay) = 53,262 CF Volume ofForebay = 10,119 CF Volume of Main Pool (Exluding Vegetated Shelf) = 46,715 CF Percentage of Forebay to Main Pool = 19.0 % PERMANENT POOL SURFACE AREA Is Permenant Pool Surface Area Sufficient (yes/no)? Yes Proposed Surface Area = 16,886 SF Required surface Area = 9,565 SF OK Elev. 266.50 AVERAGE DEPTH Depth of Pond = 6.00 ft Depth (disc. btwn. bot. of shelf & btm. of pond, excludes sediment) Average Depth = 4.20 ft Based on Equation 3 in Wet Pond MDC Use Average Depth of = 4.00 ft C-3: WET DETENTION BASIN DESIGN CONT'D 1.0 INCH VOLUME ELEVATION Required Temporary Pool Volume = 13,631 CF Permanent Pool Elevaton = 266.50 Temporary Pool Elevation = 267.75 Provided Temporary Pool Volume = 23,088 CF ORIFICE SIZING Q2Dan= 0.1336 CFS O5Dan= 0.0534 CFS Orifice Size = 2.00 IN Driving Head (H j = 0.22 FT OOrf = 0.066 CFS Drawdown Time = 4.08 DAYS less than 5 days (yes/no) ? Yes greater than 2 days (yes/no) ? Yes ANTIFLOTATION CALCULATIONS Outside Length = 5.00 FT Outside Width = 5.00 FT Inside Length = 4.00 FT Inside Width = 4.00 FT Bottom Thickness = 0.50 FT Top of Riser = 269.75 FT Invert of Riser = 266.50 FT Area = 25.0 SF Volume = 94 CF Weight= 5,850 LBS Factor of Safety = 1.25 WT Req'd of Anti -Flotation Device = 7,313 LBS Volume of Concrete Req'd = 83.5 CF Depth Provided = 2.00 FT Volume Provided = 91.8 CF WT of Anti -Flotation Device Provided = 8,037 LBS Contour Contour Area Incremental Volume Accumulated Volume, S Stage, Z sq ft cu ft cu ft ft 266.50 16,886 0 0 266.5 267.00 18,826 8,995 8,995 267.0 268.00 20,537 19,673 28,668 268.0 269.00 22,303 21,412 50,080 269.0 267.75 20,102 23,088 267.75 (Outside Dim. = 5-ft x 5-ft, Inside Dim. = 4-ft x 4-ft) (Water Displaced - Top of Riser to Bottom of Riser) (Weight Water Displaced) (Unit WT of Concrete = 150 pcf) Submerged Concrete Unit Weight 87.6 pcf (4-ft x 4-ft Box filled 4-ft deep with concrete) OK SCM 1 - FOREBAY/STORAGE TABLE CONTOUR ELEVATION (FT) AREA (SF) VOLUME (CF) VOLUME (CF) 261 859 0 0 262 1 167 1,013 1,013 263 1510 1,339 2,352 264 1885 1,698 4,049 265 2293 2,089 6,138 266 2730 2,512 8,650 266.5 3147 1,469 10,119 SCM 1 - MAIN POOL/STORAGE TABLE CONTOUR ELEVATION (FT) AREA (SF) VOLUME (CF) VOLUME (CF) 261 6457 0 0 262 7569 7,013 7,013 263 8690 8,130 15,143 264 9876 9,283 24,426 265 11128 10,502 34,928 266 12447 11,788 46,715 266.5 13739 6,547 53,262 EXISTING CONDITIONS Project Name: Messer Parcels Project Number: C21020 Date: 1 1 /17/2021 Designed By: ZA Checked By: LL DRAINAGE AREA = PRE DA LAND COVER HSG CN AREA (SF) CN*Area AREA(AC) Onsite Open Space (Fair) A 49 134489 6589961 3.09 Onsite Open Space (Fair) D 84 23682 1989288 0.54 Onsite Woods (Fair) A 36 268692 9672912 6.17 Onsite Woods (Fair) D 1 791 993081 78453321 2.28 Onsite Impervious A 1 981 74561 7306881 0.17 Onsite Impervious D 1 981 01 01 0.00 533627 26828181 12.25 WEIGHTED CURVE NUMBER = 50 POST DEVELOPMENT CONDITIONS Project Name: Messer Parcels Project Number: C21020 Date: 2022.07.20 Designed By: ZA Checked By: LL DRAINAGE AREA = Post DA1 to Wet Pond 1 LAND COVER HSG CN AREA (SF) CN*Area AREA(AC) Onsite Impervious - Roads/Sidewalk A 98 68910 6753180 1.58 Offsite Impervious - Roads/Sidewalk A 98 1 1 19 109662 0.03 Onsite Impervious - Roads/Sidewalk D 98 0 0 0.00 Onsite Impervious - Lots A 98 73362 7189476 1.68 Onsite Impervious - Lots D 98 14838 1454124 0.34 Open Space (fair) A 49 67982 3331118 1.56 Open Space (fair) D 84 26615 22356601 0.61 Open Space Lots (fair) I A 1 491 143010 70074901 3.28 Open Space Lots (fair) I D 1 841 27555 23146201 0.63 423391 30395330 WEIGHTED CURVE NUMBER = DRAINAGE AREA = Post DA1 Undetained 9.72 72 LAND COVER HSG CN AREA (SF) CN*Area AREA(AC) Onsite Impervious A 98 0 0 0.00 Onsite Impervious D 98 0 0 0.00 Onsite Open Space (fair) A 49 49921 2446129 1.15 Onsite Open Space (fair) D 841 26789 2250276 0.61 Onsite Woods (fair) A 36 0 0 0.00 Onsite Woods (fair) D 79 38507 3042053 0.88 115217 7738458 WEIGHTED CURVE NUMBER = 2.65 67 1 Watershed Model Schematic Hydraflow Hydrographs Extension forAutodesk® Civil 3D® byAutodesk, Inc. v2020 1 2 3 CD V5 Leaend Hvd. Origin Description 1 SCS Runoff PRE DA1 2 SCS Runoff POST DA1 TO WET POND 3 SCS Runoff POST DA1 UNDETAINED 4 Reservoir POST DA1 ROUT 5 Combine POST DA1 Project: X:\Civil\Projects\2021\C21020 - Messer Parcels - Coats\Technical\Calculations ndiF W.S�grMWdt-6v\ER6Bjing\2021. 1.17 Hydrograph Return Period Recap draflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. Hydrograph Inflow Peak Outflow (cfs) Hydrograph No. type hyd(s) Description (origin) 1-yr 2-yr 3-yr 5-yr 10-yr 25-yr 50-yr 100-yr 1 SCS Runoff ------ 0.144 1.029 ------- ------- 10.44 19.35 ------- 36.69 PRE DA1 2 SCS Runoff ------ 13.38 20.27 ------- ------- 41.95 56.67 ------- 82.07 POST DA1 TO WET POND 3 SCS Runoff ------ 1.953 3.356 ------- ------- 8.043 11.29 ------- 17.11 POST DA1 UNDETAINED 4 Reservoir 2 0.111 0.394 ------- ------- 1.289 5.448 ------- 44.36 POST DA1 ROUT 5 Combine 3,4 2.020 3.445 ------- ------- 8.921 12.61 ------- 61.29 POST DA1 Proj. file: 2021.11.17 Routing.gpw Wednesday, 07 / 20 / 2022 Hydrograph Summary Report HydraflowHydrographsExtension for Autodesk®Civil 3D®byAutodesk,Inc. v2022 Hyd. No. Hydrograph type (origin) Peak flow (cfs) Time interval (min) Time to Peak (min) Hyd. volume (cuft) Inflow hyd(s) Maximum elevation (ft) Total strge used (cuft) Hydrograph Description 1 SCS Runoff 0.144 2 778 4,093 ------ ------ ------ PRE DA1 2 SCS Runoff 13.38 2 718 27,125 ------ ------ ------ POST DA1 TO WET POND 3 SCS Runoff 1.953 2 722 5,901 ------ ------ ------ POST DA1 UNDETAINED 4 Reservoir 0.111 2 1442 23,615 2 267.70 22,667 POST DA1 ROUT 5 Combine 2.020 2 722 29,516 3,4 ------ ------ POST DA1 2021.11.17 Routing.gpw Return Period: 1 Year Wednesday, 07 / 20 / 2022 Hydrograph Report 3 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 1 PRE DA1 Hydrograph type = SCS Runoff Storm frequency = 1 yrs Time interval = 2 min Drainage area = 12.250 ac Basin Slope = 0.0 % Tc method = TR55 Total precip. = 3.02 in Storm duration = 24 hrs Q (cfs) 0.50 0.45 0.40 0.35 0.30 0.25 0.20 0.15 Peak discharge Time to peak Hyd. volume Curve number Hydraulic length Time of conc. (Tc) Distribution Shape factor PRE DA1 Hyd. No. 1 -- 1 Year Wednesday, 07 / 20 / 2022 = 0.144 cfs = 778 min = 4,093 cuft = 50 = 0 ft = 14.60 min = Type II = 484 1 1 �1 .1 �:1 .11 1 :�1 •.1 1:1 11 1 ��1 .1 Q (cfs) 0.50 0.45 0.40 0.35 0.30 0.25 0.20 0.15 4 TR55 Tc Worksheet Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 1 PRE DA1 Description A B C Totals Sheet Flow Manning's n-value = 0.400 0.011 0.011 Flow length (ft) = 75.0 0.0 0.0 Two-year 24-hr precip. (in) = 3.65 0.00 0.00 Land slope (%) = 6.05 0.00 0.00 Travel Time (min) = 10.26 + 0.00 + 0.00 = 10.26 Shallow Concentrated Flow Flow length (ft) = 729.00 0.00 0.00 Watercourse slope (%) = 4.90 0.00 0.00 Surface description = Unpaved Paved Paved Average velocity (ft/s) =3.57 0.00 0.00 Travel Time (min) = 3.40 + 0.00 + 0.00 = 3.40 Channel Flow X sectional flow area (sqft) = 4.00 0.00 0.00 Wetted perimeter (ft) = 6.00 0.00 0.00 Channel slope (%) = 1.60 0.00 0.00 Manning's n-value = 0.015 0.015 0.015 Velocity (ft/s) =9.58 0.00 0.00 Flow length (ft) ({0})528.0 0.0 0.0 Travel Time (min) = 0.92 + 0.00 + 0.00 = 0.92 Total Travel Time, Tc.............................................................................. 14.60 min Hydrograph Report 5 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 2 POST DA1 TO WET POND Hydrograph type = SCS Runoff Storm frequency = 1 yrs Time interval = 2 min Drainage area = 9.720 ac Basin Slope = 0.0 % Tc method = User Total precip. = 3.02 in Storm duration = 24 hrs Q (cfs) 14.00 12.00 10.00 1M M. Me 4.00 2.00 M Peak discharge Time to peak Hyd. volume Curve number Hydraulic length Time of conc. (Tc) Distribution Shape factor POST DA1 TO WET POND Hyd. No. 2 -- 1 Year Wednesday, 07 / 20 / 2022 = 13.38 cfs = 718 min = 27,125 cuft = 72 = 0 ft = 5.00 min = Type II = 484 Q (cfs) 14.00 12.00 10.00 : E@ 4.00 w of 0.00 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 2 Time (min) Hydrograph Report 0 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 3 POST DA1 UNDETAINED Hydrograph type = SCS Runoff Storm frequency = 1 yrs Time interval = 2 min Drainage area = 2.650 ac Basin Slope = 0.0 % Tc method = TR55 Total precip. = 3.02 in Storm duration = 24 hrs Q (cfs) 2.00 1.00 M Peak discharge Time to peak Hyd. volume Curve number Hydraulic length Time of conc. (Tc) Distribution Shape factor POST DA1 UNDETAINED Hyd. No. 3 -- 1 Year 120 240 360 480 600 720 840 960 Hyd No. 3 Wednesday, 07 / 20 / 2022 = 1.953 cfs = 722 min = 5,901 cuft = 67 = 0 ft = 10.60 min = Type II = 484 Q (cfs) 2.00 1.00 0.00 1080 1200 1320 1440 1560 Time (min) 7 TR55 Tc Worksheet Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 3 POST DA1 UNDETAINED Description A B C Totals Sheet Flow Manning's n-value = 0.240 0.011 0.011 Flow length (ft) = 75.0 0.0 0.0 Two-year 24-hr precip. (in) = 3.66 0.00 0.00 Land slope (%) = 8.00 0.00 0.00 Travel Time (min) = 6.09 + 0.00 + 0.00 = 6.09 Shallow Concentrated Flow Flow length (ft) = 582.00 0.00 0.00 Watercourse slope (%) = 2.75 0.00 0.00 Surface description = Unpaved Paved Paved Average velocity (ft/s) =2.68 0.00 0.00 Travel Time (min) = 3.63 + 0.00 + 0.00 = 3.63 Channel Flow X sectional flow area (sqft) = 4.00 0.00 0.00 Wetted perimeter (ft) = 6.00 0.00 0.00 Channel slope (%) = 1.60 0.00 0.00 Manning's n-value = 0.015 0.015 0.015 Velocity (ft/s) =9.58 0.00 0.00 Flow length (ft) ({0})528.0 0.0 0.0 Travel Time (min) = 0.92 + 0.00 + 0.00 = 0.92 Total Travel Time, Tc.............................................................................. 10.60 min Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Wednesday, 07 / 20 / 2022 Hyd. No. 4 POST DA1 ROUT Hydrograph type = Reservoir Peak discharge = 0.111 cfs Storm frequency = 1 yrs Time to peak = 1442 min Time interval = 2 min Hyd. volume = 23,615 cuft Inflow hyd. No. = 2 - POST DA1 TO WET PONCMax. Elevation = 267.70 ft Reservoir name = WET POND Max. Storage = 22,667 cuft Storage Indication method used. Q (cfs) 14.00 12.00 10.00 MIX N. We 4.00 2.00 POST DA1 ROUT Hyd. No. 4 -- 1 Year Q (cfs) 14.00 12.00 10.00 H. Us@ 4.00 2.00 0.00 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time (min) Hyd No. 4 — Hyd No. 2 Total storage used = 22,667 cult Pond Report 0 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Pond No. 1 - WET POND Pond Data Contours -User-defined contour areas. Conic method used for volume calculation. Begining Elevation = 266.50 ft Stage / Storage Table Stage (ft) Elevation (ft) 0.00 266.50 0.50 267.00 1.50 268.00 2.50 269.00 3.50 270.00 4.50 271.00 Contour area (sqft) 16,886 18,826 20,537 22,303 24,127 26,007 Incr. Storage (cuft) 0 8,923 19,673 21,412 23,207 25,059 Total storage (cuft) 0 8,923 28,596 50,008 73,215 98,273 Wednesday, 07 / 20 / 2022 Culvert / Orifice Structures [A] Rise (in) = 24.00 Span (in) = 24.00 No. Barrels = 1 Invert El. (ft) = 261.00 Length (ft) = 50.00 Slope (%) = 1.00 N-Value = .013 Orifice Coeff. = 0.60 Multi -Stage = n/a [B] [C] [PrFRSr] 2.00 4.00 0.00 2.00 8.00 0.00 1 1 0 266.50 267.75 0.00 0.00 0.00 0.00 0.00 0.00 n/a .013 .013 n/a 0.60 0.60 0.60 Yes Yes No Weir Structures [A] [B] Crest Len (ft) = 16.00 30.00 Crest El. (ft) = 269.25 269.75 Weir Coeff. = 3.33 2.60 Weir Type = 1 Broad Multi -Stage = Yes No Exfil.(in/hr) = 0.000 (by Wet area) TW Elev. (ft) = 0.00 [C] [D] 0.00 0.00 0.00 0.00 3.33 3.33 --- --- No No Note: Culvert/Orifice outflows are analyzed under inlet (ic) and outlet (oc) control. Weir risers checked for orifice conditions (ic) and submergence (s). Stage / Storage / Discharge Table Stage Storage Elevation Clv A Clv B Clv C PrfRsr Wr A Wr B Wr C Wr D Exfil User Total ft cuft ft cfs cfs cfs cfs cfs cfs cfs cfs cfs cfs cfs 0.00 0 266.50 0.00 0.00 0.00 --- 0.00 0.00 --- --- --- --- 0.000 0.05 892 266.55 32.08 is 0.00 is 0.00 --- 0.00 0.00 --- --- --- --- 0.004 0.10 1,785 266.60 32.08 is 0.01 is 0.00 --- 0.00 0.00 --- --- --- --- 0.015 0.15 2,677 266.65 32.08 is 0.03 is 0.00 --- 0.00 0.00 --- --- --- --- 0.027 0.20 3,569 266.70 32.08 is 0.04 is 0.00 --- 0.00 0.00 --- --- --- --- 0.036 0.25 4,461 266.75 32.08 is 0.04 is 0.00 --- 0.00 0.00 --- --- --- --- 0.043 0.30 5,354 266.80 32.08 is 0.05 is 0.00 --- 0.00 0.00 --- --- --- --- 0.049 0.35 6,246 266.85 32.08 is 0.05 is 0.00 --- 0.00 0.00 --- --- --- --- 0.054 0.40 7,138 266.90 32.08 is 0.06 is 0.00 --- 0.00 0.00 --- --- --- --- 0.059 0.45 8,030 266.95 32.08 is 0.06 is 0.00 --- 0.00 0.00 --- --- --- --- 0.064 0.50 8,923 267.00 32.08 is 0.07 is 0.00 --- 0.00 0.00 --- --- --- --- 0.068 0.60 10,890 267.10 32.08 is 0.08 is 0.00 --- 0.00 0.00 --- --- --- --- 0.075 0.70 12,857 267.20 32.08 is 0.08 is 0.00 --- 0.00 0.00 --- --- --- --- 0.082 0.80 14,825 267.30 32.08 is 0.09 is 0.00 --- 0.00 0.00 --- --- --- --- 0.089 0.90 16,792 267.40 32.08 is 0.09 is 0.00 --- 0.00 0.00 --- --- --- --- 0.095 1.00 18,759 267.50 32.08 is 0.10 is 0.00 --- 0.00 0.00 --- --- --- --- 0.101 1.10 20,727 267.60 32.08 is 0.11 is 0.00 --- 0.00 0.00 --- --- --- --- 0.106 1.20 22,694 267.70 32.08 is 0.11 is 0.00 --- 0.00 0.00 --- --- --- --- 0.111 1.30 24,661 267.80 32.08 is 0.12 is 0.03 is --- 0.00 0.00 --- --- --- --- 0.141 1.40 26,629 267.90 32.08 is 0.12 is 0.13 is --- 0.00 0.00 --- --- --- --- 0.252 1.50 28,596 268.00 32.08 is 0.13 is 0.28 is --- 0.00 0.00 --- --- --- --- 0.409 1.60 30,737 268.10 32.08 is 0.13 is 0.46 is --- 0.00 0.00 --- --- --- --- 0.588 1.70 32,878 268.20 32.08 is 0.13 is 0.57 is --- 0.00 0.00 --- --- --- --- 0.703 1.80 35,020 268.30 32.08 is 0.14 is 0.66 is --- 0.00 0.00 --- --- --- --- 0.800 1.90 37,161 268.40 32.08 is 0.14 is 0.74 is --- 0.00 0.00 --- --- --- --- 0.885 2.00 39,302 268.50 32.08 is 0.15 is 0.82 is --- 0.00 0.00 --- --- --- --- 0.963 2.10 41,443 268.60 32.08 is 0.15 is 0.88 is --- 0.00 0.00 --- --- --- --- 1.034 2.20 43,584 268.70 32.08 is 0.15 is 0.95 is --- 0.00 0.00 --- --- --- --- 1.100 2.30 45,725 268.80 32.08 is 0.16 is 1.01 is --- 0.00 0.00 --- --- --- --- 1.162 2.40 47,867 268.90 32.08 is 0.16 is 1.06 is --- 0.00 0.00 --- --- --- --- 1.221 2.50 50,008 269.00 32.08 is 0.16 is 1.11 is --- 0.00 0.00 --- --- --- --- 1.277 2.60 52,329 269.10 32.08 is 0.17 is 1.16 is --- 0.00 0.00 --- --- --- --- 1.331 2.70 54,649 269.20 32.08 is 0.17 is 1.21 is --- 0.00 0.00 --- --- --- --- 1.382 2.80 56,970 269.30 32.08 is 0.17 is 1.26 is --- 0.60 0.00 --- --- --- --- 2.028 2.90 59,291 269.40 32.08 is 0.18 is 1.30 is --- 3.10 0.00 --- --- --- --- 4.576 3.00 61,611 269.50 32.08 is 0.18 is 1.35 is --- 6.66 0.00 --- --- --- --- 8.187 3.10 63,932 269.60 32.08 is 0.18 is 1.39 is --- 11.03 0.00 --- --- --- --- 12.60 Continues on next page... 10 WET POND Stage / Storage / Discharge Table Stage Storage Elevation Clv A ft cuft ft cfs 3.20 66,253 269.70 32.08 is 3.30 68,573 269.80 32.08 is 3.40 70,894 269.90 32.08 is 3.50 73,215 270.00 36.31 is 3.60 75,720 270.10 41.21 is 3.70 78,226 270.20 42.08 is 3.80 80,732 270.30 42.67 is 3.90 83,238 270.40 43.14 is 4.00 85,744 270.50 43.55 is 4.10 88,250 270.60 43.91 is 4.20 90,756 270.70 44.25 is 4.30 93,261 270.80 44.57 is 4.40 95,767 270.90 44.87 is 4.50 98,273 271.00 45.16 is ...End Clv B Clv C PrfRsr Wr A Wr B Wr C cfs cfs cfs cfs cfs cfs 0.19 is 1.43 is --- 16.09 0.00 --- 0.19 is 1.47 is --- 21.74 0.87 --- 0.19 is 1.51 is --- 27.92 4.53 --- 0.16 is 1.54 is --- 34.61 9.75 --- 0.09 is 0.88 is --- 40.24 s 16.15 --- 0.07 is 0.73 is --- 41.28 s 23.55 --- 0.06 is 0.62 is --- 41.98 s 31.82 --- 0.05 is 0.55 is --- 42.54 s 40.88 --- 0.05 is 0.49 is --- 43.01 s 50.67 --- 0.04 is 0.44 is --- 43.43 s 61.13 --- 0.04 is 0.40 is --- 43.81 s 72.23 --- 0.04 is 0.37 is --- 44.15 s 83.93 --- 0.03 is 0.34 is --- 44.49 s 96.20 --- 0.03 is 0.31 is --- 44.81 s 109.01 --- Wr D Exfil User Total cfs cfs cfs cfs --- --- --- 17.70 --- --- --- 24.27 --- --- --- 34.16 --- --- --- 46.06 --- --- --- 57.36 --- --- --- 65.63 --- --- --- 74.48 --- --- --- 84.02 --- --- --- 94.21 --- --- --- 105.04 --- --- --- 116.48 --- --- --- 128.48 --- --- --- 141.06 --- --- --- 154.16 Hydrograph Report 11 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Wednesday, 07 / 20 / 2022 Hyd. No. 5 POST DA1 Hydrograph type = Combine Peak discharge = 2.020 cfs Storm frequency = 1 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 29,516 cuft Inflow hyds. = 3, 4 Contrib. drain. area = 2.650 ac Q (cfs) 3.00 2.00 1.00 M POST DA1 Hyd. No. 5 -- 1 Year 600 1200 1800 2400 3000 3600 4200 4800 5400 Hyd No. 5 — Hyd No. 3 Hyd No. 4 Q (cfs) 3.00 2.00 1.00 0.00 6000 Time (min) Hydrograph Summary Report 12 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. Hydrograph type (origin) Peak flow (cfs) Time interval (min) Time to Peak (min) Hyd. volume (cuft) Inflow hyd(s) Maximum elevation (ft) Total strge used (cuft) Hydrograph Description 1 SCS Runoff 1.029 2 728 10,220 ------ ------ ------ PRE DA1 2 SCS Runoff 20.27 2 718 40,582 ------ ------ ------ POST DA1 TO WET POND 3 SCS Runoff 3.356 2 722 9,339 ------ ------ ------ POST DA1 UNDETAINED 4 Reservoir 0.394 2 1076 35,959 2 267.99 28,411 POST DA1 ROUT 5 Combine 3.445 2 722 45,298 3,4 ------ ------ POST DA1 2021.11.17 Routing.gpw Return Period: 2 Year Wednesday, 07 / 20 / 2022 Hydrograph Report 13 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 1 PRE DA1 Hydrograph type = SCS Runoff Storm frequency = 2 yrs Time interval = 2 min Drainage area = 12.250 ac Basin Slope = 0.0 % Tc method = TR55 Total precip. = 3.66 in Storm duration = 24 hrs Q (cfs) 2.00 1.00 M Peak discharge Time to peak Hyd. volume Curve number Hydraulic length Time of conc. (Tc) Distribution Shape factor PRE DA1 Hyd. No. 1 -- 2 Year 120 240 360 480 600 720 840 960 Hyd No. 1 Wednesday, 07 / 20 / 2022 = 1.029 cfs = 728 min = 10,220 cuft = 50 = 0 ft = 14.60 min = Type II = 484 Q (cfs) 2.00 1.00 0.00 1080 1200 1320 1440 1560 Time (min) Hydrograph Report 14 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 2 POST DA1 TO WET POND Hydrograph type = SCS Runoff Storm frequency = 2 yrs Time interval = 2 min Drainage area = 9.720 ac Basin Slope = 0.0 % Tc method = User Total precip. = 3.66 in Storm duration = 24 hrs Q (cfs) 21.00 18.00 15.00 12.00 M el 3.00 Peak discharge Time to peak Hyd. volume Curve number Hydraulic length Time of conc. (Tc) Distribution Shape factor POST DA1 TO WET POND Hyd. No. 2 -- 2 Year Vi Wednesday, 07 / 20 / 2022 = 20.27 cfs = 718 min = 40,582 cuft = 72 = 0 ft = 5.00 min = Type II = 484 Q (cfs) 21.00 18.00 15.00 12.00 • 01 3.00 0.00 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 — Hyd No. 2 Time (min) Hydrograph Report 15 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 3 POST DA1 UNDETAINED Hydrograph type = SCS Runoff Storm frequency = 2 yrs Time interval = 2 min Drainage area = 2.650 ac Basin Slope = 0.0 % Tc method = TR55 Total precip. = 3.66 in Storm duration = 24 hrs Peak discharge Time to peak Hyd. volume Curve number Hydraulic length Time of conc. (Tc) Distribution Shape factor POST DA1 UNDETAINED Wednesday, 07 / 20 / 2022 = 3.356 cfs = 722 min = 9,339 cuft = 67 = 0 ft = 10.60 min = Type II = 484 Q (cfs) Hyd. No. 3 -- 2 Year Q (cfs) 4.00 4.00 3.00 3.00 2.00 2.00 1.00 1.00 0.00 - 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 — Hyd No. 3 Time (min) 16 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Wednesday, 07 / 20 / 2022 Hyd. No. 4 POST DA1 ROUT Hydrograph type = Reservoir Peak discharge = 0.394 cfs Storm frequency = 2 yrs Time to peak = 1076 min Time interval = 2 min Hyd. volume = 35,959 cuft Inflow hyd. No. = 2 - POST DA1 TO WET PONCMax. Elevation = 267.99 ft Reservoir name = WET POND Max. Storage = 28,411 cuft Storage Indication method used. POST DA1 ROUT Q (cfs) Hyd. No. 4 -- 2 Year Q (cfs) 21.00 21.00 18.00 18.00 15.00 15.00 12.00 12.00 9.00 9.00 6.00 6.00 3.00 3.00 0.00 - 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time (min) — Hyd No. 4 — Hyd No. 2 Total storage used = 28,411 cult 17 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Wednesday, 07 / 20 / 2022 Hyd. No. 5 POST DA1 Hydrograph type = Combine Peak discharge = 3.445 cfs Storm frequency = 2 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 45,298 cuft Inflow hyds. = 3, 4 Contrib. drain. area = 2.650 ac POST DA1 Q (cfs) Hyd. No. 5 -- 2 Year Q (cfs) 4.00 4.00 3.00 3.00 2.00 2.00 1.00 1.00 0.00 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time (min) — Hyd No. 5 — Hyd No. 3 Hyd No. 4 Hydrograph Summary Report 18 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. Hydrograph type (origin) Peak flow (cfs) Time interval (min) Time to Peak (min) Hyd. volume (cuft) Inflow hyd(s) Maximum elevation (ft) Total strge used (cuft) Hydrograph Description 1 SCS Runoff 10.44 2 724 38,551 ------ ------ ------ PRE DA1 2 SCS Runoff 41.95 2 718 84,608 ------ ------ ------ POST DA1 TO WET POND 3 SCS Runoff 8.043 2 722 21,132 ------ ------ ------ POST DA1 UNDETAINED 4 Reservoir 1.289 2 864 79,270 2 269.02 50,520 POST DA1 ROUT 5 Combine 8.921 2 722 100,402 3,4 ------ ------ POST DA1 2021.11.17 Routing.gpw Return Period: 10 Year Wednesday, 07 / 20 / 2022 Hydrograph Report 19 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 1 PRE DA1 Hydrograph type = SCS Runoff Storm frequency = 10 yrs Time interval = 2 min Drainage area = 12.250 ac Basin Slope = 0.0 % Tc method = TR55 Total precip. = 5.46 in Storm duration = 24 hrs Q (cfs) 12.00 10.00 M M 4.00 2.00 M Peak discharge Time to peak Hyd. volume Curve number Hydraulic length Time of conc. (Tc) Distribution Shape factor PRE DA1 Hyd. No. 1 -- 10 Year Wednesday, 07 / 20 / 2022 = 10.44 cfs = 724 min = 38,551 cuft = 50 = 0 ft = 14.60 min = Type II = 484 Q (cfs) 12.00 10.00 M . �� 4.00 2.00 0.00 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 1 Time (min) Hydrograph Report 20 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 2 POST DA1 TO WET POND Hydrograph type = SCS Runoff Storm frequency = 10 yrs Time interval = 2 min Drainage area = 9.720 ac Basin Slope = 0.0 % Tc method = User Total precip. = 5.46 in Storm duration = 24 hrs Q (cfs) 50.00 40.00 30.00 20.00 10.00 Peak discharge Time to peak Hyd. volume Curve number Hydraulic length Time of conc. (Tc) Distribution Shape factor POST DA1 TO WET POND Hyd. No. 2 -- 10 Year 0.00 - 0 120 240 — Hyd No. 2 Wednesday, 07 / 20 / 2022 = 41.95 cfs = 718 min = 84,608 cuft = 72 = 0 ft = 5.00 min = Type II = 484 Q (cfs) 50.00 40.00 30.00 20.00 10.00 r.TiT.I 360 480 600 720 840 960 1080 1200 1320 1440 1560 Time (min) Hydrograph Report 21 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 3 POST DA1 UNDETAINED Hydrograph type = SCS Runoff Storm frequency = 10 yrs Time interval = 2 min Drainage area = 2.650 ac Basin Slope = 0.0 % Tc method = TR55 Total precip. = 5.46 in Storm duration = 24 hrs Q (cfs) 10.00 N. Me . UX 4.00 2.00 M Peak discharge Time to peak Hyd. volume Curve number Hydraulic length Time of conc. (Tc) Distribution Shape factor POST DA1 UNDETAINED Hyd. No. 3 -- 10 Year 120 240 360 480 600 720 840 Hyd No. 3 Wednesday, 07 / 20 / 2022 = 8.043 cfs = 722 min = 21,132 cuft = 67 = 0 ft = 10.60 min = Type II = 484 Q (cfs) 10.00 N. Me 4.00 w of 0.00 960 1080 1200 1320 1440 1560 Time (min) 22 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Wednesday, 07 / 20 / 2022 Hyd. No. 4 POST DA1 ROUT Hydrograph type = Reservoir Peak discharge = 1.289 cfs Storm frequency = 10 yrs Time to peak = 864 min Time interval = 2 min Hyd. volume = 79,270 cuft Inflow hyd. No. = 2 - POST DA1 TO WET PONCMax. Elevation = 269.02 ft Reservoir name = WET POND Max. Storage = 50,520 cuft Storage Indication method used. POST DA1 ROUT Q (cfs) Hyd. No. 4 -- 10 Year Q (cfs) 50.00 50.00 40.00 40.00 30.00 30.00 20.00 20.00 10.00 10.00 0.00 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time (min) — Hyd No. 4 Hyd No. 2 Total storage used = 50,520 cult 23 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Wednesday, 07 / 20 / 2022 Hyd. No. 5 POST DA1 Hydrograph type = Combine Peak discharge = 8.921 cfs Storm frequency = 10 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 100,402 cuft Inflow hyds. = 3, 4 Contrib. drain. area = 2.650 ac Q (cfs) 10.00 N. Me . UX 4.00 2.00 M POST DA1 Hyd. No. 5 -- 10 Year 360 720 1080 1440 1800 2160 2520 2880 Hyd No. 5 — Hyd No. 3 Hyd No. 4 Q (cfs) 10.00 H. Me 4.00 w of 0.00 3240 3600 Time (min) Hydrograph Summary Report 24 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. Hydrograph type (origin) Peak flow (cfs) Time interval (min) Time to Peak (min) Hyd. volume (cuft) Inflow hyd(s) Maximum elevation (ft) Total strge used (cuft) Hydrograph Description 1 SCS Runoff 19.35 2 724 62,146 ------ ------ ------ PRE DA1 2 SCS Runoff 56.67 2 716 114,633 ------ ------ ------ POST DA1 TO WET POND 3 SCS Runoff 11.29 2 720 29,440 ------ ------ ------ POST DA1 UNDETAINED 4 Reservoir 5.448 2 746 109,010 2 269.42 59,851 POST DA1 ROUT 5 Combine 12.61 2 722 138,450 3,4 ------ ------ POST DA1 2021.11.17 Routing.gpw Return Period: 25 Year Wednesday, 07 / 20 / 2022 Hydrograph Report 25 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 1 PRE DA1 Hydrograph type = SCS Runoff Storm frequency = 25 yrs Time interval = 2 min Drainage area = 12.250 ac Basin Slope = 0.0 % Tc method = TR55 Total precip. = 6.57 in Storm duration = 24 hrs Q (cfs) 21.00 18.00 15.00 12.00 M el 3.00 Peak discharge Time to peak Hyd. volume Curve number Hydraulic length Time of conc. (Tc) Distribution Shape factor PRE DA1 Hyd. No. 1 -- 25 Year Wednesday, 07 / 20 / 2022 = 19.35 cfs = 724 min = 62,146 cuft = 50 = 0 ft = 14.60 min = Type II = 484 Q (cfs) 21.00 18.00 15.00 12.00 • 01 3.00 0.00 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 — Hyd No. 1 Time (min) Hydrograph Report 26 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 2 POST DA1 TO WET POND Hydrograph type = SCS Runoff Storm frequency = 25 yrs Time interval = 2 min Drainage area = 9.720 ac Basin Slope = 0.0 % Tc method = User Total precip. = 6.57 in Storm duration = 24 hrs Q (cfs) 60.00 50.00 40.00 30.00 20.00 10.00 GT.T.1 Peak discharge Time to peak Hyd. volume Curve number Hydraulic length Time of conc. (Tc) Distribution Shape factor POST DA1 TO WET POND Hyd. No. 2 -- 25 Year Wednesday, 07 / 20 / 2022 = 56.67 cfs = 716 min = 114,633 cuft = 72 = 0 ft = 5.00 min = Type II = 484 Q (cfs) 60.00 50.00 40.00 30.00 20.00 10.00 r.TiT.I 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 — Hyd No. 2 Time (min) Hydrograph Report 27 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 3 POST DA1 UNDETAINED Hydrograph type = SCS Runoff Storm frequency = 25 yrs Time interval = 2 min Drainage area = 2.650 ac Basin Slope = 0.0 % Tc method = TR55 Total precip. = 6.57 in Storm duration = 24 hrs Q (cfs) 12.00 10.00 M M 4.00 2.00 M Peak discharge Time to peak Hyd. volume Curve number Hydraulic length Time of conc. (Tc) Distribution Shape factor POST DA1 UNDETAINED Hyd. No. 3 -- 25 Year Wednesday, 07 / 20 / 2022 = 11.29 cfs = 720 min = 29,440 cuft = 67 = 0 ft = 10.60 min = Type II = 484 Q (cfs) 12.00 10.00 M . �� 4.00 2.00 0.00 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 3 Time (min) 28 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Wednesday, 07 / 20 / 2022 Hyd. No. 4 POST DA1 ROUT Hydrograph type = Reservoir Peak discharge = 5.448 cfs Storm frequency = 25 yrs Time to peak = 746 min Time interval = 2 min Hyd. volume = 109,010 cuft Inflow hyd. No. = 2 - POST DA1 TO WET PONCMax. Elevation = 269.42 ft Reservoir name = WET POND Max. Storage = 59,851 cuft Storage Indication method used. POST DA1 ROUT Q (cfs) Hyd. No. 4 -- 25 Year Q (cfs) 60.00 60.00 50.00 50.00 40.00 40.00 30.00 30.00 20.00 20.00 10.00 10.00 0.00 0.00 0 600 1200 1800 2400 3000 3600 4200 4800 5400 6000 Time (min) — Hyd No. 4 Hyd No. 2 Total storage used = 59,851 cult 29 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Wednesday, 07 / 20 / 2022 Hyd. No. 5 POST DA1 Hydrograph type = Combine Peak discharge = 12.61 cfs Storm frequency = 25 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 138,450 cuft Inflow hyds. = 3, 4 Contrib. drain. area = 2.650 ac POST DA1 Q (cfs) Hyd. No. 5 -- 25 Year Q (cfs) 14.00 14.00 12.00 12.00 10.00 10.00 8.00 8.00 6.00 6.00 4.00 4.00 2.00 2.00 0.00 0.00 0 240 480 720 960 1200 1440 1680 1920 2160 Time (min) Hyd No. 5 - Hyd No. 3 Hyd No. 4 Hydrograph Summary Report 30 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. Hydrograph type (origin) Peak flow (cfs) Time interval (min) Time to Peak (min) Hyd. volume (cuft) Inflow hyd(s) Maximum elevation (ft) Total strge used (cuft) Hydrograph Description 1 SCS Runoff 36.69 2 724 108,829 ------ ------ ------ PRE DA1 2 SCS Runoff 82.07 2 716 167,538 ------ ------ ------ POST DA1 TO WET POND 3 SCS Runoff 17.11 2 720 44,365 ------ ------ ------ POST DA1 UNDETAINED 4 Reservoir 44.36 2 722 161,674 2 269.99 72,883 POST DA1 ROUT 5 Combine 61.29 2 722 206,039 3,4 ------ ------ POST DA1 2021.11.17 Routing.gpw Return Period: 100 Year Wednesday, 07 / 20 / 2022 Hydrograph Report 31 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 1 PRE DA1 Hydrograph type = SCS Runoff Storm frequency = 100 yrs Time interval = 2 min Drainage area = 12.250 ac Basin Slope = 0.0 % Tc method = TR55 Total precip. = 8.42 in Storm duration = 24 hrs Q (cfs) 40.00 30.00 20.00 10.00 0 120 240 Peak discharge Time to peak Hyd. volume Curve number Hydraulic length Time of conc. (Tc) Distribution Shape factor PRE DA1 Hyd. No. 1 -- 100 Year Wednesday, 07 / 20 / 2022 = 36.69 cfs = 724 min = 108,829 cuft = 50 = 0 ft = 14.60 min = Type II = 484 Q (cfs) 40.00 30.00 20.00 10.00 riTaTil 360 480 600 720 840 960 1080 1200 1320 1440 1560 Time (min) Hydrograph Report 32 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 2 POST DA1 TO WET POND Hydrograph type = SCS Runoff Storm frequency = 100 yrs Time interval = 2 min Drainage area = 9.720 ac Basin Slope = 0.0 % Tc method = User Total precip. = 8.42 in Storm duration = 24 hrs Q (cfs) 90.00 80.00 70.00 60.00 50.00 40.00 30.00 20.00 Wednesday, 07 / 20 / 2022 Peak discharge = 82.07 cfs Time to peak = 716 min Hyd. volume = 167,538 cuft Curve number = 72 Hydraulic length = 0 ft Time of conc. (Tc) = 5.00 min Distribution = Type II Shape factor = 484 Q (cfs) 90.00 80.00 70.00 60.00 50.00 40.00 30.00 20.00 10.00 10.00 0.00 0.00 0 120 240 360 480 600 720 840 960 1080 1200 1320 1440 — Hyd No. 2 Time (min) Hydrograph Report 33 Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Hyd. No. 3 POST DA1 UNDETAINED Hydrograph type = SCS Runoff Storm frequency = 100 yrs Time interval = 2 min Drainage area = 2.650 ac Basin Slope = 0.0 % Tc method = TR55 Total precip. = 8.42 in Storm duration = 24 hrs Q (cfs) 18.00 15.00 12.00 •M am 3.00 Peak discharge Time to peak Hyd. volume Curve number Hydraulic length Time of conc. (Tc) Distribution Shape factor POST DA1 UNDETAINED Hyd. No. 3 -- 100 Year 0.00 - 0 Wednesday, 07 / 20 / 2022 = 17.11 cfs = 720 min = 44,365 cuft = 67 = 0 ft = 10.60 min = Type II = 484 Q (cfs) 18.00 15.00 12.00 M M 3.00 r.TiT.I 120 240 360 480 600 720 840 960 1080 1200 1320 1440 1560 Hyd No. 3 Time (min) 34 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Wednesday, 07 / 20 / 2022 Hyd. No. 4 POST DA1 ROUT Hydrograph type = Reservoir Peak discharge = 44.36 cfs Storm frequency = 100 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 161,674 cuft Inflow hyd. No. = 2 - POST DA1 TO WET PONCMax. Elevation = 269.99 ft Reservoir name = WET POND Max. Storage = 72,883 cuft Storage Indication method used. Q (cfs) 90.00 80.00 70.00 60.00 50.00 40.00 30.00 20.00 • 240 POST DA1 ROUT • No. - 100 Year 480 720 Hyd No. 2 960 1200 1440 1680 Total storage used = 72,883 cuft Q (cfs) 90.00 80.00 70.00 60.00 50.00 40.00 30.00 20.00 1920 Time (min) 35 Hydrograph Report Hydraflow Hydrographs Extension for Autodesk® Civil 3D® by Autodesk, Inc. v2022 Wednesday, 07 / 20 / 2022 Hyd. No. 5 POST DA1 Hydrograph type = Combine Peak discharge = 61.29 cfs Storm frequency = 100 yrs Time to peak = 722 min Time interval = 2 min Hyd. volume = 206,039 cuft Inflow hyds. = 3, 4 Contrib. drain. area = 2.650 ac POST DA1 Q (cfs) Hyd. No. 5 -- 100 Year Q (cfs) 70.00 70.00 60.00 60.00 50.00 50.00 40.00 40.00 30.00 30.00 20.00 20.00 10.00 10.00 0.00 0.00 0 240 480 720 960 1200 1440 1680 1920 Time (min) — Hyd No. 5 Hyd No. 3 Hyd No. 4 Hydraflow Rainfall Report 36 Hydraflow Hydrographs Extension for Autodesk0 Civil 3DO by Autodesk, Inc. v2022 Return Period Intensity -Duration -Frequency Equation Coefficients (FHA) (Yrs) B D E (N/A) 1 0.0000 0.0000 0.0000 -------- 2 69.8703 13.1000 0.8658 -------- 3 0.0000 0.0000 0.0000 -------- 5 79.2597 14.6000 0.8369 -------- 10 88.2351 15.5000 0.8279 -------- 25 102.6072 16.5000 0.8217 -------- 50 114.8193 17.2000 0.8199 -------- 100 127.1596 17.8000 0.8186 -------- File name: SampleFHA.idf Intensity = B / (Tc + D)^E Wednesday, 07 / 20 / 2022 Return Period Intensity Values (in/hr) (Yrs) 6 min 10 16 20 26 30 36 40 46 60 66 60 1 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 2 5.69 4.61 3.89 3.38 2.99 2.69 2.44 2.24 2.07 1.93 1.81 1.70 3 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 5 6.57 5.43 4.65 4.08 3.65 3.30 3.02 2.79 2.59 2.42 2.27 2.15 10 7.24 6.04 5.21 4.59 4.12 3.74 3.43 3.17 2.95 2.77 2.60 2.46 25 8.25 6.95 6.03 5.34 4.80 4.38 4.02 3.73 3.48 3.26 3.07 2.91 50 9.04 7.65 6.66 5.92 5.34 4.87 4.49 4.16 3.88 3.65 3.44 3.25 100 9.83 8.36 7.30 6.50 5.87 5.36 4.94 4.59 4.29 4.03 3.80 3.60 Tc = time in minutes. Values may exceed 60. ivil\Projects\2021 \C21020 - Messer Parcels - Coats\Technical\Calculations and Re orts\Stormwater\Routin \Coats. c Storm Rainfall Precipitation Table (in) Distribution 1-yr 2-yr 3-yr 6-yr 10-yr 26-yr 60-yr 100-yr SCS 24-hour 3.02 3.66 0.00 3.30 5.46 6.57 6.80 8.42 SCS 6-Hr 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Huff-1 st 0.00 0.00 0.00 2.75 0.00 5.38 6.50 0.00 Huff-2nd 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Huff-3rd 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Huff-4th 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Huff-Indy 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Custom 0.00 0.00 0.00 2.80 0.00 5.25 6.00 7.10 Q, (cfs) Q2 (cfs) Q10 (cfs) Q25 (cfs) Q100 (cfs) PRE POST PRE POST PRE POST PRE POST PRE POST Total Site (POI 1) 0.144 *0.11 1.03 3.45 10.44 8.92 19.35 12.61 36.69 61.29 Notes: *Q1 post development flow pertains only to flows routed through the wet pond and do not include undetained post development flow. Attenuation is provided in a wet pond and meets the overall pre -post requirement for the entire site for the 1-year, 24-hour storm as required. Rainfall Depths based on NOAA Atlas 14, Vol.2 I, = 3.02 in. 12 = 3.66 in. 110 = 5.46 in. 125 = 6.57 in. 1100 = 8.42 in. OPERATION AND MAINTENANCE mm!wwo 1.-411111� !LNI" N4&mw- underfoot ENGINEERING MANUAL FOR WET POND for MESSER PARCELS Prepared for: T&L Coats, LLC 165 Sommerville Park Road Raleigh, NC 27603 Underfoot Project #: C21020.00 1ST Submittal: November 17, 2021 Landon Lovelace, PE 1 149 Executive Circle, Suite C Cary, NC 27511 NCBELS # C-3847 1 919.576.9733 Forward Thinking. Grounded Design. www.underfootengineering.com underfoot ENGINEERING 1149 Executive Circle - Suite C, Cary, NC 27511 919.576.9733 1 NCBELS C-3847 TABLE OF CONTENTS TABLEOF CONTENTS................................................................................................................. 1 1. OPERATION......................................................................................................................... 2 2. MAINTENANCE....................................................................................................................7 3. MAINTENANCE RECORD-KEEPING................................................................................... 11 3.1 Contact Information............................................................................................1 1 3.2 SCM Inspection & Maintenance Log.................................................................12 Forward Thinking. Grounded Design. www.underfootengineering.com VEGETATED SIDE SLOPES — RECOMMENDED SLOPE 3 H 1 V PLANTED VATH NON -CLUMPING TURF GRASS TREES ANO VrO00Y SHELVES NOT ALLO'NED OUTLET STRUCTURE PLACE INLETS AND OUTLETS TO AVOID S� DESIGN FOR EROSION PROTECTION EMERGENCY SPILLWAY PROVIDED FOR MAJOR STORMS AND DESIGNED FOR EROSION PROTECTION _1149 Executive Circle -Suite C, Cary, NC 27511 underfoot _ 919.576.9733 1 NCBELS C-3847 ENGINEERING 1. OPERATIONS A Wet Pond is designed to have a permanent pool of water. It detains and treats stormwater flows by increasing the depth of water on top of a pool of water and then slowly releasing the stored water over time. A concrete structure called a riser is present and has various holes and/orweirs cut into the sides of the structure to release the various flows over time. Below are various views of this stormwater control measure. Note that your pond may vary from these figures. Figure 1: Wet Pond Example: Plan View i FOUNTAIN [OPTIONAL FEATURE[ VERIFY EROSION AND RE -SUSPENSION ' OF SEDIMENT WILL NOT OCCUR; \ DO NOT PLACE NEAR OUTLET JL J AWN POOL SURFACE AREA AND VOLUME SIZED USING EfTHER )al HYRDALAIC RETENTION TOME METHOD. or Ib) THE SADA ANO AVERAGE DEPTH METHOD / ':EGETATED SHELF M NINIU4M VAOTH 6 FT MAXIMUM SLOPE 6 H :1 V r 11 \ 1 / III I/ 1 TRANSITION FROM FOREBAY TO J MAP[ POOL SWILL FLOW AT A NON-EROSPIE VELOCITY !1 SCM MAINTENANCE AND ACCESS EASEMENT \ \ \ FOREBAY \ 15 TO ZO PERCENT \ OF MAIN POOL VOLUME \ INLET STRUCTURE PLACE INLETS AND OUTLETS TO AVOID SHORT-CIRCUTNG AND DESIGN FOR EROSION PROTECTION Forward Thinking. Grounded Design. www.underfootengineering.com 2 underfoot ENGINEERING 1149 Executive Circle - Suite C, Cary, NC 27511 919.576.9733 1 NCBELS C-3847 Figure 2: Wet Pond Example: Cross -Section View 1 FOREBAY AWN POOL SURFACE AREA AND VOLUME (a)15 TO 20 PERCENT OF MAIN POOL VOLUME SURFACE AREA AND VOLUME SIZED USING EITHER (b) ENTRANCE SHALL BE DEEPER THAN EXIT (a) HYDRAULIC RETENTION TRUE METHOD OR (c) WATER FLOWING OVER FOREBAY DATA (b) THE SAIDA AND AVERAGE DEPTH MIETHOO SHALL FLOP! AT NON -EROSIVE VELOCITY (C) IF DEPTH < 30 INCHES. CLEAN OUT FOREBAY EMBANKMENT MIN WIDTH 10 FT FOR TEMPORARY POOL EMERGENCY SPILLWAY MAINTENANCE DESIGN TO DRAW ACCESS DOvm BETWEEN TWO AND FNE DAYS Q MMN: r TEMPORARY POOL ------------- ------41-------------- -------- -- AIN POOL ,jam o i////%// //j%//%%//%//j%// j ////// VEGETATED SIDE SLOPES SEDIMENT STORAGE MAIN POOL DEPTH VEGETATED SHELF RECOMMENDED SLOPE: 3 H : 1 V MINIMUM SEDIMENT AVG. DEPTH: 3• TO 8' MINIMUM WIDTH. 6 FT PLANTED WITH NON CLUMPING STORAGE DEPTH OF 6- 'OPTION TO EXCLUOE MAXIMUM SLOPE 6 H 1 V TURF GRASS TREES AND SUBMERGED PORTION VEGETAT1pN. MINIMUM OF 3 MOODY SHELVES NOT OF VEG SHELF FROM DIVERSE SPECIES OF ALLOWED CALCULATIONS HERBACEOUS. NATIVE SPECIES. MIN.50 PLANTS PER 200 SF OF SHELF Forward Thinking. Grounded Design. www.underfootengineering.com 3 underfoot ENGINEERING 1149 Executive Circle - Suite C, Cary, NC 27511 919.576.9733 1 NCBELS C-3847 Figure 3: Wet Pond Example: Cross -Section View 2 VEGETATED SHELF "INIMUPAWIDTH 6FT 14AXIMUM SLOPE 6 H 1 V OUTLET STRUCTURE MUST BE SIZED TO VEGETATED SIDE SLOPES (a) DRAWDaAN TEMPORARY RECOMIIENDEO SLOPE: 3 H 1 V POOL IN TWO TO FIVE DAYS TRASH RACK FRONT AND BACK EMBAMOMENT SLOPE (0) DISCHARGE RUNOFF FROM REQUIRED REQUIRED TO BE VEGETATED 1-YR. 24-HR STORM TO MINIMQE HYDROLOGIC IMPACTS rLei EMBANKMENT MINIMUM WIDTH 10 FT FOR MAINTENANCE ACCESS TEMPORARY POOL PROPOSED GRADE MAIN POOL OUTLET PIPE - - - - - - - - - - - - - - - - --- EXISTING GRADE i DEWATERND METHOD WET PONDS SHALL HAVE A METHOD TO DRAW DOWN STANDING WATER TO FACILITATE MAINTENANCE AND 14SPECTION MIN 6• SEDIMENT (E G SKIMMER OR PUMP) STORAGE Figure 4: Wet Pond Example: Outlet Structure TRASH RACK (REQUIRED) WEIR (OR OTHER METHOD) \ TO ESTABLISH TEMPORARY POOL RISER CREST ORIFICE OUTLET TO ESTABLISH NORMAL POOL MUST DRAW DOWN TEMPORARY POOL IN TWO TO FIVE DAYS DEWATERING METHOD WET PONDS SHALL HAVE METHOD TO DRAW DOWN STANDING WATER TO FACILITATE MAINTENANCE AND INSPECTION (E G . SKIMMER OR PUMP) OUTLET PIPE _1 I I I I •� .. .. . , Lam. :. •� .00 . ANTI -SEEP MEASURES ARE RECOMMENDED Forward Thinking. Grounded Design. www.underfootengineering.com 4 underfoot ENGINEERING Figure 5: Plan view of Messer Parcels Wet Pond 1149 Executive Circle - Suite C, Cary, NC 27511 919.576.9733 1 NCBELS C-3847 Forward Thinking. Grounded Design. www.underfootengineering.com 5 underfoot ENGINEERING 1149 Executive Circle - Suite C, Cary, NC 27511 919.576.9733 1 NCBELS C-3847 Figure 6: Profile View of Arringdon Lot 3 Wet Pond SCM #1 -WET POND CROSS SECTION .-nrfow IS I» yvl" ] AlG 11] Note: When the pond bottom is below the invert of the pond drain, pump dewatering may be required to drain the pond for maintenance. An experienced contractor shall use a pump and silt -bag to dewater the pond. Forward Thinking. Grounded Design. www.underfootengineering.com 6 underfoot ENGINEERING 1149 Executive Circle - Suite C, Cary, NC 27511 919.576.9733 1 NCBELS C-3847 2. MAINTENANCE Important maintenance procedures for this Stormwater Control Measure (SCM) include: • It is recommended that this facility be inspected/monitored monthly and after any rain event that produces at least 1" of rainfall during a 24-hour period. • No portion of the SCM should be fertilized after the first initial fertilization that is required to establish the plants on the vegetated shelf. • Stable groundcover should be maintained in the drainage area to reduce the sediment load to the SCM. • If the SCM must be drained for an emergency or to perform maintenance, the flushing of sediment through the emergency drain should be minimized as much as possible. • The dedicated access easement needs to be maintained so that a clear pathway to and around the SCM is present. No obstructions should be present within this pathway. The SCM shall be inspected annually. If functional issues arise during the year, a qualified SCM inspector should be contacted to provide a supplemental assessment and recommendation for remediation of any functional deficiencies. Forward Thinking. Grounded Design. www.underfootengineering.com 7 underfoot ENGINEERING 1149 Executive Circle - Suite C, Cary, NC 27511 919.576.9733 1 NCBELS C-3847 The entire BMP Trash/debris is present. Remove the trash/debris. The perimeter of the wet pond Areas of bare soil and/or erosive gullies have formed Vegetation is too short or too long. The inlet device: pipe or swale The pipe is clogged. The pipe is cracked or otherwise damaged. Erosion is occurring in the swale. The forebay Sediment has accumulated to a depth qreater than the oriqinal design depth for sediment storage. Erosion has occurred Weeds are present Regrade the soil if necessary to remove the qully. and then plant a ground cover and water until it is established. Provide lime and a one-time fertilizer application. Maintain vegetation at a height of approximately six inches. Unclog the pipe. Dispose of the sediment off -site. Replace the pipe. Regrade the swale if necessary to smooth it over and provide erosion control devices such as reinforced turf matting or riprap to avoid future problems with erosion. Search for the source of the sediment and remedy the problem if possible. Remove the sediment and dispose of it in a location where it will not cause impacts to streams or the BMP. Provide additional erosion protection such as reinforced turf matting or riprap if needed to prevent future erosion problems. Remove the weeds. preferably by hand. If pesticide is used. wipe it on the plants rather than spraying. Forward Thinking. Grounded Design. www.underfootengineering.com _1149 Executive Circle -Suite C, Cary, NC 27511 underfoot _ 919.576.9733 1 NCBELS C-3847 ENGINEERING The vegetated shelf Best professional practices Prune according to best show that pruning is needed to professional practices maintain optimal plant health. Plants are dead, diseased or Determine the source of the dying. problem: soils. hydrology. disease. etc. Remedy the problem and replace plants. Provide a one-time fertilizer application to establish the ground cover if a soil test indicates it is necessary. Weeds are present. Remove the weeds. preferably by hand. If pesticide is used. wipe it on the plants rather than spraying. The main treatment area Sediment has accumulated to a Search for the source of the depth greater than the original sediment and remedy the design sediment storage depth. problem if possible. Remove the sediment and dispose of it in a location where it will not cause impacts to streams or the BMP. Algal growth covers over 50% Consult a professional to of the area. remove and control the algal growth. Cattails. phragmites or other Remove the plants by wiping invasive plants cover 50% of them with pesticide (do not the basin surface. spray). The embankment Shrubs have started to grow on Remove shrubs immediately. the embankment. Evidence of muskrat or beaver Use traps to remove muskrats activity is present. and consult a professional to remove beavers. A tree has started to grow on Consult a dam safety specialist the embankment. to remove the tree. An annual inspection by an Make all needed repairs. appropriate professional shows that the embankment needs repair. Forward Thinking. Grounded Design. www.underfootengineering.com _1149 Executive Circle -Suite C, Cary, NC 27511 underfoot _ 919.576.9733 1 NCBELS C-3847 ENGINEERING The outlet device / The Clogging has occurred. Clean out the outlet device. receiving water Dispose of the sediment off - site. Floating wetland island (if applicable) The outlet device is damaged Weeds or volunteer trees are growing on the mat. The anchor cable is damaged disconnected or missing. Repair or replace the outlet device. Remove the weeds or trees. Restore the anchor cable to its design state. Forward Thinking. Grounded Design. www.underfootengineering.com IIs7 _1149 Executive Circle -Suite C, Cary, NC 27511 underfoot _ 919.576.9733 1 NCBELS C-3847 ENGINEERING 3. MAINTENANCE RECORD -KEEPING 3.1 Contact Information All inspection and maintenance record -keeping shall be maintained by the owner (or the owner's representative). An inspection log for the Stormwater Control Measure is attached. For this facility, the owner's representative contact information is: Name: Company: Mailing Address: Phone: E-mail: Forward Thinking. Grounded Design. www.underfootengineering.com 1 1 I_ underfoot ENGINEERING 3.2 SCM Inspection & Maintenance Log 1149 Executive Circle -Suite C, Cary, NC 27511 919.576.9733 1 NCBELS C-3847 System Location Date Inspection (quarterly, yearly, post -storm?) Presence of Debris/Trash (yes/no) Condition of Grass Sod (eroded, bare spots, healthy?) Standing Water (yes/no) Control Structure (clean or sediment) Maintenance Performed Maintenance Personnel Comments Forward Thinking. Grounded Design. www.underfootengineering.com underfoot ENGINEERING 1149 Executive Circle -Suite C, Cary, NC 27511 919.576.9733 1 NCBELS C-3847 System Location Date Inspection (quarterly, earl post- storm. yearly, P ?) Presence of Debris/Trash (yes/no) Condition of Grass Sod (eroded, bare spots, healthy?) Standing Water es no (y / ) Control Structure clean or sediment ( ) Maintenance Performed Maintenance Personnel Comments Forward Thinking. Grounded Design. www.underfootengineering.com APPENDIX C: CONVEYANCE underfoot ENGINEERING CALCULATIONS PIPE SIZING GUTTER SPREAD HGL ANALYSIS SWALE CALCS DISSIPATORS 1 149 Executive Circle, Suite C-1 Cary, NC 27511 NCBELS # C-3847 1 919.576.9733 Forward Thinking. Grounded Design. www.underfootengineering.com Upstream Node Downstream Node Upstream Inlet C Upstream Inlet Area (acres) Upstream Intensity* (in/h) Pipe Diameter (in) Material Pipe Length (ft) Capacity (Full Flow) (ft'/s) Total Pipe Flow (ft'/s) Total System Flow (ft'/s) Slope (ft/ft) Invert (Upstream) (ft) Invert (Downstream) Inlet* Elevation (Rim) (ft) Elevation (Invert) (ft) Structure Height (ft) Inlet Type Bypass Target Flow (Total Intercepted) Flow (TotalGutter Bypassed) Depth (in) GutterSpread (ft) STM 204 STM 203 0.58 0.301 7.22 15 HDPE 200 11.17 1.26 1.17 0.026 281.5 276.4 STM 204 286.6 281.5 5.1 Drop - Grate - NCDOT 840.15 STM 203 0.7 0.01 1.1 2.7 STM 203 STM 202 0.58 0.26 7.092 15 HDPE 150 10.54 1.07 2.09 0.023 276.3 272.9 STM 203 280.65 276.3 4.3 Drop - Grate - NCDOT 840.15 STM 202 0.56 0.05 1.4 4 STM 202 STM 201 0.58 0.19 7.008 15 HDPE 192 10.71 0.77 2.9 0.023 272.8 268.3 STM 202 277 272.8 4.2 Drop - Grate - NCDOT 840.15 STM 201 0.47 0.03 1.3 3.6 STM 201 STM 200 0.58 0.28 6.91 15 HDPE 127.4 15.81 1.12 3.89 0.051 267.5 261 STM 201 271.57 267.5 4.1 1 Drop - Grate - NCDOT 840.15 1 0.62 0.06 1.5 4.1 STM 145 STM 144 0.4 0.146 7.22 15 HDPE 200 13.28 0.42 0.41 0.036 285.5 278.3 STM 145 289.74 285.5 4.2 Drop - Grate - NCDOT 840.15 STM 144 0.24 0 1 2.2 STM 144 STM 143 0.4 0.298 7.066 15 HDPE 200 13.82 0.84 1.18 0.039 278.2 270.4 STM 144 282.5 278.2 4.3 Drop - Grate - NCDOT 840.15 STM 143 0.47 0.01 1.2 3 STM 143 STM 142 0.4 0.614 6.957 15 HDPE 102 4.1 1.71 2.97 0.003 270.3 269.95 STM 143 273.66 270.3 3.4 Drop - Grate - NCDOT 840.15 1 0 2.3 7.4 STM 142 STM 141 0.6 0.343 6.851 15 Class III RCP 26 6.94 1.41 4.74 0.012 269.85 269.55 STM 142 273.53 269.85 3.7 Combo - NCDOT 840.03 0.94 0 3.4 3.7 STM 141 STM 140 0.83 0.215 6.835 18 Class III RCP 55.2 6.48 1.22 5.95 0.004 269.3 269.09 STM 141 273.53 269.3 4.2 Combo - NCDOT 840.03 0.78 0 3.2 3 STM 140 STM 101 0.84 0.045 6.785 18 Class III RCP 105.4 7.16 0.26 6.17 0.005 268.99 268.5 STM 140 273.62 269 4.6 Combo - NCDOT 840.03 STM 141 0.15 0 0.9 1.8 STM 134 STM 133 0.66 0.189 7.22 15 Class III RCP 29.5 9.21 0.9 0.81 0.02 285.7 285.1 STM 134 289 285.7 3.3 Combo - NCDOT 840.03 STM 132 0.49 0.01 1.2 3 STM 133 STM 131 0.66 0.146 7.196 15 Class III RCP 200.2 13.62 0.69 1.47 0.044 285 276.1 STM 133 288.24 285 3.2 Combo - NCDOT 840.03 STM 131 0.39 0 1.1 2.6 STM 132 STM 131 0.66 0.355 7.22 15 Class III RCP 29.4 7.98 1.69 1.39 0.015 276.55 276.1 STM 132 279.88 276.55 3.3 Combo - NCDOT 840.03 STM 142 0.85 0.11 1.5 4.3 STM 131 STM 130 0.66 0.329 7.092 15 Class III RCP 75.9 14.36 1.54 4.07 0.049 276 272.25 STM 131 279.26 276 3.3 Combo - NCDOT 840.03 STM 130 0.79 0.09 1.5 4.1 STM 130 STM 102 0.6 0.094 7.064 18 Class III RCP 106.9 17.89 0.4 4.71 0.029 272 268.9 STM 130 275.51 272 3.5 Combo - NCDOT 840.03 STM 102 0.31 0 1.1 2.6 STM 121 STM 120 0.48 0.134 7.22 15 HDPE 225.1 14.3 0.46 0.46 0.042 281.5 272.1 STM 121 285.68 281.5 4.2 Drop - Grate - NCDOT 840.15 STM 120 0.26 0 1 2.1 STM 120 STM 103 0.48 0.356 7.061 15 Class III RCP 30.7 15.2 1.21 1.46 0.055 272 270.3 STM 120 276.66 272 4.7 Drop - Grate - NCDOT 840.15 0.64 0.05 1.4 3.8 STM 116 STM 115 0.3 0.15 7.22 15 Class III RCP 32.4 14.58 0.32 0.33 0.051 292.15 290.5 STM 116 296.15 292.15 4 Drop - Grate - NCDOT 840.15 0.18 0 1.2 2.8 STM 115 STM 112 0.95 0.025 7.195 15 Class III RCP 123.6 12.33 0.17 0.5 0.036 290.4 285.9 STM 115 294.54 290.4 4.1 Combo - NCDOT 840.03 0.1 0 0.7 1.4 STM 114 STM 112 0.4 0.826 7.22 15 Class III RCP 57.7 6.59 2.39 2.41 0.01 286.5 285.9 STM 114 287.34 286.5 0.8 Drop - Grate - NCDOT 840.15 1.33 0 2.6 8.8 STM 113 STM 112 0.66 0.26 7.22 15 Class III RCP 26.4 7.95 1.24 1.09 0.015 286.3 285.9 STM 113 289.64 286.3 3.3 Combo - NCDOT 840.03 STM 109 0.66 0.03 1.3 3.3 STM 112 STM 111 0.84 0.086 7.1 15 Class III RCP 31 17.21 0.51 4.43 0.071 285.8 283.6 STM 112 291.48 285.8 5.7 Combo - NCDOT 840.03 STM 111 0.29 0 1 2 STM 111 STM 110 0.84 0.038 7.09 15 Class III RCP 43.5 8.19 0.22 4.66 0.016 283.5 282.8 STM 111 288 283.5 4.5 Combo - NCDOT 840.03 STM 108 0.13 0 0.7 1.5 STM 110 STM 108 0.55 0.648 7.066 15 Class III RCP 59.5 8.37 2.52 7.19 0.017 282.7 281.7 STM 110 286.04 282.7 3.3 Combo - NCDOT 840.03 1.44 0 3.8 5.6 STM 109 STM 108 0.66 0.168 7.22 15 Class III RCP 32.9 6.16 0.8 0.82 0.009 281.8 281.5 STM 109 285.05 281.8 3.3 Combo - NCDOT 840.03 STM 107 0.45 0.02 1.3 3.5 STM 108 STM 106 0.66 0.274 7.037 15 Class III RCP 230.1 10.86 1.27 8.96 0.028 281.4 274.9 STM 108 285 281.4 3.6 Combo - NCDOT 840.03 STM 106 0.65 0.08 1.5 4.3 STM 107 STM 106 0.6 0.422 7.22 15 Class III RCP 26 6.94 1.83 1.42 0.012 275.2 274.9 STM 107 278.49 275.2 3.3 Combo - NCDOT 840.03 STM 104 0.87 0.17 1.7 5 STM 106 STM 105 0.6 0.277 6.95 18 Class III RCP 102.7 16.06 1.16 11.32 0.023 274.65 272.25 STM 106 278.49 274.65 3.8 Combo - NCDOT 840.03 STM 105 0.67 0.08 1.5 4.3 STM 105 STM 103 0.66 0.132 6.91 18 Class III RCP 50.5 18.7 0.6 13.35 0.032 272 270.4 STM 105 275.6 272 3.6 Combo - NCDOT 840.03 STM 103 0.42 0.01 1.2 3.2 STM 104 STM 105 0.66 0.267 7.22 15 Class III RCP 26.2 9.36 1.27 1.35 0.021 272.75 272.2 STM 104 276 272.75 3.3 Combo - NCDOT 840.03 STM 101 0.77 0.12 1.6 4.6 STM 103 STM 102 0.67 0.052 6.894 24 Class III RCP 71.6 31.63 0.24 15.11 0.02 269.9 268.5 STM 103 274.09 269.9 4.2 Combo - NCDOT 840.03 STM 102 0.15 0 0.8 1.7 STM 102 STM 101 0.55 0.279 6.867 24 Class III RCP 50.9 22.41 1.05 20.67 0.01 268.4 267.9 STM 102 272.56 268.4 4.2 Combo - NCDOT 840.03 0.61 0.01 1.1 2.7 STM 101 STM 100 0.68 0.399 6.698 24 Class III RCP 67.8 58.27 1.82 28.55 0.066 265.5 261 STM 101 271.9 265.5 6.4 Combo - NCDOT 840.03 1.21 0 3.6 4.8 Notes: 'Entire length of pipe is o-ring gasketed w/ joints double -wrapped in non -woven filter fabric. Upstream structure shall be constructed with watertight gaskets, and pipes fit into structure with watertight gaskets. Gutter spread computations shown in this table are based on the 4in/hr storm. Gutter spread bypass targets are only shown for on -grade structures which bypass to on -site targets. Structures in a sag do not have bypass targets. Pipe sizing is based on 10-year storm intensities showin herein. Intensities shown are based on a time of concentration (To) of 5 minutes. Total System Flow is calculated based on flow intercepted at structure. Bypassed flow captured from upstream structures is included and pipe sizes are calculated accordingly. Rim Elevations: NCDOT 840.03 rim elev is @ flow line, middle of frame. Back of curb elev is rim elev +0.50- NCDOT 840.15 rim elev is @ top of grate Label: STM 103 274 rlype: Catch Basin 274 273.5 273 272.5 272 271.5 271 270.5 270 269.5 269 268.5 268 267.5 267 266.5 266 265.5 265 264.5 264 263.5 263 262.5 262 261.5 261 Profile Report Profile: STM 103 TO STM 100 STM 103 TO STM 100 - Coats - 10yr -5 0 5 1015 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95100105110119 20129 30139 40149 50159 60169 7C179 8C185190195 Station (ft) it StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 104 TO STM 105 Label: s8T1W 104 TO STM 105 - Coats - 10yr Type: Catch Basin 276.000000000001 275.900000000001 275.800000000001 275.700000000001 275.600000000001 275.500000000001 275.400000000001 275.300000000001 275.200000000001 275.100000000001 275.000000000001 274.900000000001 274.800000000001 274.700000000001 2JA,.600000000001 2PA 500000000001 �tP0000000001 274.300000000001 2C:200000000001 0 274.1 a--+ 274 co 273.9 ' 273.8 273.7 _ 273.6 w 273.5 273.4 273.3 273.2 273.1 273 272.9 272.8 272.7 272.6 272.5 272.4 272.3 272.2 272.1 272 -2 -1 0 1 2 3 4 5 6 7 8 9 1011 12 13 14 15 16 17 18 19 20 2122 23 24 25 26 27 28 29 Station (ft) n StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 r\ 0 -1--j co W W C21020 StormCAD Model.stsw 11 /15/2021 Profile Report Profile: STM 106 TO STM 103 STM 106 TO STM 103 - Coats - 1Oyr Label: STM 106 Type: Catch Basin 278.6 278.4 278.2 278 277.8 277.6 277.4 277.2 277 276.8 276.E 276.4 276.2 276 275.8 275.E 275.4 275.2 275 274.8 274.6 274.4 274.2 274 273.8 273.6 273.4 273.2 273 272.8 272.6 272.4 272.2 272 271.8 271.6 271.4 271.2 271 270.8 270.6 270.4 270.2 270 269.8 03 asin -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 105 110 115 120 125 130 135 140 145 150 155 160 Station (ft) Bentley Systems, Inc. Haestad Methods Solution Center 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 StormCAD [10.03.03.44] Page 1 of 1 Profile Report Profile: STM 107 TO STM 106 Label: SSTIM7107 TO STM 106 - Coats -Ljt@Y6TM 106 Type: Catch Basin Type: Catch Basin 278.500000000001 278.400000000001 278.300000000001 278.200000000001 278.100000000001 278.000000000001 277.900000000001 277.800000000001 277.700000000001 277.600000000001 277.500000000001 277.400000000001 277.300000000001 277.200000000001 -0'2754100000000001 =7.000000000001 "-�.900000000001 F6.800000000001 .700000000001 276.6 +� 276.5 cc 276.4 276.3 276.2 276.1 W 276 275.9 275.8 275.7 275.6 275.5 275.4 275.3 275.2 275.1 275 274.9 274.8 274.7 274.6 119M VITA -2 -1 0 1 2 3 4 5 6 7 8 9 1011 12 13 14 15 16 17 18 19 20 2122 23 24 25 26 27 28 29 Station (ft) StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 109 TO STM 108 Label: S-&TlM 109 TO STM 108 - Coats-LIPYFsTM 108 Type: Catch Basin Tvne: Catch Basin 285.100000000001 285.000000000001 284.900000000001 284.800000000001 284.700000000001 284.600000000001 284.500000000001 284.400000000001 284.300000000001 284.200000000001 284.100000000001 284.000000000001 283.900000000001 ,,-2�3.800000000001 `-83.700000000001 �$-600000000001 283.500000000001 283.4 Q 283.3 a--+ 283.2 co 283.1 283 > ^ 1 282.9 _W 282.8 W 282.7 282.6 282.5 282.4 282.3 282.2 282.1 282 281.9 281.8 281.7 281.6 281.5 281.4 281.3 -2 -1 0 1 2 3 4 5 6 7 8 9 10 11 12 1314 15 16 17 1819 20 2122 23 24 25 26 27 28 29 30 3132 33 34 35 Station (ft) StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 110 TO STM 106 STM 110 TO STM 106 Label: STM 110 Type: Catch Basin 286.5 286 285.5 285 284.5 284 283.5 283 282.5 282 281.5 281 280.5 280 279.5 279 278.5 278 277.5 277 276.5 276 275.5 275 274.5 C21020 StormCAD Model.stsw 11 /15/2021 Coats - 10yr Label: P24 I ahPl• .qTM i nA Type: Conduit 106 Basin -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 Station (ft) Bentley Systems, Inc. Haestad Methods Solution Center 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 StormCAD [10.03.03.44] Page 1 of 1 W 291.6 291.4 291.2 291 290.8 290.6 290.4 290.2 290 289.T 289.6 289.4 289.2 289 288.8 288.6 288.4 288.2 288 287.8 287.6 287.4 287.2 287 286.8 286.6 286.4 286.2 286 285.8 Profile Report Profile: STM 113 TO STM 112 STM 113 TO STM 112 - Coats - 10yr Labe : STM 112 Type: Catch Basin -2 -1 0 1 2 3 4 5 6 7 8 9 10 111213 14 15 16 17 18 1920212223242526272829 Station (ft) StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 291.6 291.4 291.2 291 290.8 290.6 290.4 290.2 290 289.8 289.6 289.4 289.2 289 288.8 288.6 288.4 288.2 288 287.8 287.6 287.4 287.2 287 286.8 286.6 286.4 286.2 286 285.8 285.6 285.4 285.2 285 284.8 284.6 284.4 284.2 284 283.8 283.6 283.4 283.2 283 282.8 282.6 Profile Report Profile: STM 114 TO STM 110 STM 114 TO STM 110- Coats - 10yr Label: STM 112 Type: Catch Basin 110 Basin -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 105 110 115 120 125 130 135 Station (ft) StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 C21020 StormCAD Model.stsw 11 /15/2021 Profile Report Profile: STM 116 TO STM 112 STM 116 TO STM 112 - Coats - 10yr Label: STM 116 Type: Catch Basin 296.199999999999 I D : 334 295.999999999999 295.799999999999 295.599999999999 295.399999999999 295.199999999999 294.999999999999 294.799999999999 294.6 294.4 u [ 294.2 294 293.8 293.6 293.4 293.2 293 292.8 r\ 292.6 292.4 MA 292.2 292 291.8 291.6 O 29.4 291.2 291 a--+ 290. zso6. 290.4 /^, zs z90 _W 289.8 w 289. 289.4 289.2 289 288.8 288.6 288.4 288.2 288 287.8 287.6 287.4 ft- 287.2 287 286.8 286.6 286.4 286.2 286 285.8 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 105 110 115 120 125 130 135 140 145 150 155 160 Station (ft) Bentley Systems, Inc. Haestad Methods Solution Center 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 112 Basin StormCAD [10.03.03.44] Page 1 of 1 Profile Report Profile: STM 121 TO STM 103 STM 121 TO STM 103 - Coats - 10yr Label: P20 Type: Conduit 287.ab ID:133 28Tdpe 286 285.5 285 284.5 284 283.5 283 282.5 282 281.5 281 280.5 280 279.5 279 O 278.5 a--+ 278 e � 277.5 > 277 1 (D 276.5 276 w 275.5 L T 275 it 274.5 274 273.5 273 272.5 272 271.5 271 270.5 270 269.5 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 Station (ft) 1103 Basin i StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 131 TO STM 100 STM 131 TO STM 100 - Coats - 10yr ��\� �\�=-'!��I�liii■ICI■\��'�9li'�a�� ■mmklmmmmm ■M■MEMMMM \W\M� -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 Station (ft) StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 132 TO STM 131 Label: s-SATIN 132 TO STM 131 - Coats - 10yr Type: Catch Basin in. 179 279.900000000001 279.800000000001 279.700000000001 279.600000000001 279.500000000001 279.400000000001 279.300000000001 279.200000000001 279.100000000001 279.000000000001 278.900000000001 278.800000000001 278.700000000001 278.600000000001 00000000001 4�&.400000000001 �00000000001 7=.200000000001 O 278.1 _ 278 +-+ 277.9 (� 277.8 > 277.7 277.6 W 277.5 W 277.4 277.3 277.2 277.1 277 276.9 276.8 276.7 276.6 276.5 276.4 276.3 276.2 276.1 276 -2 -1 0 1 2 3 4 5 6 7 8 9 1011 12 13 14 15 16 17 18 19 20 2122 23 24 25 26 27 28 29 30 3132 Station (ft) in StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 133 TO STM 131 STM 133 TO $-Ehftd - Coats - 10yr Type: Conduit 9 291 Lai 911: Typ®:5 281 288. 288 287.5 287 286.5 286 285.5 285 284.5 0 284 4-0283.5 (0 283 > 282.5 0 282 w 281.5 281 280.5 280 279.5 279 278.5 278 277.5 277 276.5 276 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 9510010511011512012513013514014515015516016517017518018519019g0(205 Station (ft) A 131 i Basin StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 134 TO STM 133 Label: S§TIA 134 TO STM 133 - Coats - 10yr Type: Catch Basin 289.100000000001 289.000000000001 288.900000000001 288.800000000001 288.700000000001 288.600000000001 288.500000000001 288.400000000001 288.300000000001 288.200000000001 288.100000000001 288.000000000001 287.900000000001 287.800000000001 ;37.7,00000000001 4'"600000000001 P00000000001 00000000001 S=..300000000001 25200000000001 L 287.1 ♦--j 287 286.9 > 286.8 ^' 286.7 VJ 286.6 W 286.5 286.4 286.3 286.2 286.1 286 285.9 285.8 285.7 285.6 285.5 285.4 285.3 285.2 285.1 285 -2 -1 0 1 2 3 4 5 6 7 8 9 1011 12 13 14 15 16 17 18 19 20 2122 23 24 25 26 27 28 29 30 3132 Station (ft) Q sin StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 142 TO STM 100 STM 142 TO STM 100 - Coats - 1Oyr Label: STM 142 Label: STM 141 274 T 273.5 273 272.5 272 271.5 271 270.5 270 269.5 269 268.5 268 267.5 267 266.5 266 265.5 265 264.5 264 263.5 263 262.5 262 261.5 261 Label: STM 140 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 Station (ft) D StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 C 0 a=+ co 0 w C21020 StormCAD Model.stsw 11 /15/2021 Profile Report Profile: STM 144 TO STM 142 STM 144 TO STM 142 Label: STM 144 T8ype: 283 282.5 282 281.5 281 280.5 280 279.5 279 278.5 278 277.5 277 276.5 276 275.5 275 274.5 274 273.5 273 272.5 272 271.5 271 270.5 270 269.5 Label: P 10 Type: Conduit - Coats - 10yr 611=1i[1�00 11i[1I1ifD=FIZIM[0111iL1111i[o9=[:illlivie=[Y1i&GIGM1110ll1 W0Q E0e111WZV Station (ft) Bentley Systems, Inc. Haestad Methods Solution Center 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 142 Basin StormCAD [10.03.03.44] Page 1 of 1 1` 0 Q) w Profile Report Profile: STM 145 TO STM 144 TM 145 TO SlMrM4 - Coats - 1Oyr Label: STM 45 Type: Conduit Type: Catch Basin ID: 125 290. 29� 289.5 289 288.5 288 287.5 287 286.5 286 285.5 285 284.5 284 283.5 283 282.5 282 281.5 281 280.5 280 279.5 279 278.5 278 0 144 i Basin -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95100105110115120125130135140145150155160165170175180185190195_'0(R05 Station (ft) 0 StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 202 TO STM 200 STM 202 TO STM 200 - Coats - 1Oyr Label: STM 202 Type: Catch Basin Label: P02 ID: 156 Type: Conduit 277 276.5 276 275.5 275 274.5 274 273.5 n U t 273 272 5 e cBasin 272 271.5 271 270.5 270 O 269.5 a--+ 269 (u 268.5 268 267.5 w 267 266.5 266 265.5 265 264.5 264 263.5 STM 263 262.5 ut 262 261.5 53 261 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 Station (ft) 200 fall StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 w Profile Report Profile: STM 204 TO STM 202 STM 204 TO STM 202 - Coats - 10yr Label: STM 204 Type: Catch Basin 287 286.5 286 285.5 285 284.5 284 283.5 283 282.5 282 281.5 281 280.5 280 279.5 279 278.5 278 277.5 277 276.5 276 275.5 275 274.5 274 273.5 273 272.5 202 Basin -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 Station (ft) StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Label: STM 103 274 rlype: Catch Basin 274 273.5 273 272.5 272 271.5 271 270.5 270 269.5 269 268.5 268 267.5 267 266.5 266 265.5 265 264.5 264 263.5 263 262.5 262 261.5 261 Profile Report Profile: STM 103 TO STM 100 STM 103 TO STM 100 - Coats - 25yr -5 0 5 1015 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95100105110119 20129 30139 40149 50159 60169 7C179 8C185190195 Station (ft) it StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 104 TO STM 105 Label: s8T1W 104 TO STM 105 - Coats - 25yr Type: Catch Basin 276.000000000001 275.900000000001 275.800000000001 275.700000000001 275.600000000001 275.500000000001 275.400000000001 275.300000000001 275.200000000001 275.100000000001 275.000000000001 274.900000000001 274.800000000001 274.700000000001 2JA,.600000000001 2PA 500000000001 �tP0000000001 274.300000000001 2C:200000000001 0 274.1 a--+ 274 co 273.9 ' 273.8 273.7 _ 273.6 w 273.5 273.4 273.3 273.2 273.1 273 272.9 272.8 272.7 272.6 272.5 272.4 272.3 272.2 272.1 272 -2 -1 0 1 2 3 4 5 6 7 8 9 1011 12 13 14 15 16 17 18 19 20 2122 23 24 25 26 27 28 29 Station (ft) n StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 r\ 0 -1--j co W W C21020 StormCAD Model.stsw 11 /15/2021 Profile Report Profile: STM 106 TO STM 103 STM 106 TO STM 103 - Coats - 25yr Label: STM 106 Type: Catch Basin 278.6 278.4 278.2 278 277.8 277.6 277.4 277.2 277 276.8 276.E 276.4 276.2 276 275.8 275.E 275.4 275.2 275 274.8 274.6 274.4 274.2 274 273.8 273.6 273.4 273.2 273 272.8 272.6 272.4 272.2 272 271.8 271.6 271.4 271.2 271 270.8 270.6 270.4 270.2 270 269.8 03 asin -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 105 110 115 120 125 130 135 140 145 150 155 160 Station (ft) Bentley Systems, Inc. Haestad Methods Solution Center 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 StormCAD [10.03.03.44] Page 1 of 1 Profile Report Profile: STM 107 TO STM 106 Label: sSTIM7107 TO STM 106 - Coats -L� Yl$TM 106 Type: Catch Basin Type: Catch Basin 278.500000000001 278.400000000001 278.300000000001 278.200000000001 278.100000000001 278.000000000001 277.900000000001 277.800000000001 277.700000000001 277.600000000001 277.500000000001 277.400000000001 277.300000000001 277.200000000001 -0'2754100000000001 =7.000000000001 "-�.900000000001 F6.800000000001 .700000000001 276.6 +� 276.5 cc 276.4 276.3 276.2 276.1 W 276 275.9 275.8 275.7 275.6 275.5 275.4 275.3 275.2 275.1 275 274.9 274.8 274.7 274.6 119M VITA -2 -1 0 1 2 3 4 5 6 7 8 9 1011 12 13 14 15 16 17 18 19 20 2122 23 24 25 26 27 28 29 Station (ft) StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 109 TO STM 108 Label: S-&TlM 109 TO STM 108 - Coats -40STM 108 Type: Catch Basin Tvne: Catch Basin 285.100000000001 285.000000000001 284.900000000001 284.800000000001 284.700000000001 284.600000000001 284.500000000001 284.400000000001 284.300000000001 284.200000000001 284.100000000001 284.000000000001 283.900000000001 ,,-2�3.800000000001 `-83.700000000001 �$-600000000001 283.500000000001 283.4 Q 283.3 a--+ 283.2 co 283.1 283 > ^ 1 282.9 _W 282.8 W 282.7 282.6 282.5 282.4 282.3 282.2 282.1 282 281.9 281.8 281.7 281.6 281.5 281.4 281.3 -2 -1 0 1 2 3 4 5 6 7 8 9 10 11 12 1314 15 16 17 1819 20 2122 23 24 25 26 27 28 29 30 3132 33 34 35 Station (ft) StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 110 TO STM 106 STM 110 TO STM 106 Label: STM 110 Type: Catch Basin 286.5 286 285.5 285 284.5 284 283.5 283 282.5 282 281.5 281 280.5 280 279.5 279 278.5 278 277.5 277 276.5 276 275.5 275 274.5 C21020 StormCAD Model.stsw 11 /15/2021 Coats - 25yr Label: P24 I ahPl• .qTM i nA Type: Conduit 106 Basin -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 Station (ft) Bentley Systems, Inc. Haestad Methods Solution Center 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 StormCAD [10.03.03.44] Page 1 of 1 W 291.6 291.4 291.2 291 290.8 290.6 290.4 290.2 290 289.T 289.6 289.4 289.2 289 288.8 288.6 288.4 288.2 288 287.8 287.6 287.4 287.2 287 286.8 286.6 286.4 286.2 286 285.8 Profile Report Profile: STM 113 TO STM 112 STM 113 TO STM 112 - Coats - 25yr Labe : STM 112 Type: Catch Basin -2 -1 0 1 2 3 4 5 6 7 8 9 10 111213 14 15 16 17 18 1920212223242526272829 Station (ft) StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 291.6 291.4 291.2 291 290.8 290.6 290.4 290.2 290 289.8 289.6 289.4 289.2 289 288.8 288.6 288.4 288.2 288 287.8 287.6 287.4 287.2 287 286.8 286.6 286.4 286.2 286 285.8 285.6 285.4 285.2 285 284.8 284.6 284.4 284.2 284 283.8 283.6 283.4 283.2 283 282.8 282.6 Profile Report Profile: STM 114 TO STM 110 STM 114 TO STM 110 - Coats - 25yr Label: STM 112 Type: Catch Basin 110 Basin -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 105 110 115 120 125 130 135 Station (ft) StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 C21020 StormCAD Model.stsw 11 /15/2021 Profile Report Profile: STM 116 TO STM 112 STM 116 TO STM 112 - Coats - 25yr Label: STM 116 Type: Catch Basin 296.199999999999 I D : 334 295.999999999999 295.799999999999 295.599999999999 295.399999999999 295.199999999999 294.999999999999 294.799999999999 294.6 294.4 u [ 294.2 294 293.8 293.6 293.4 293.2 293 292.8 r\ 292.6 292.4 MA 292.2 292 291.8 291.6 O 29.4 291.2 291 a--+ 290. zso6. 290.4 /^, zs z90 _W 289.8 w 289. 289.4 289.2 289 288.8 288.6 288.4 288.2 288 287.8 287.6 287.4 287.2 287 286.8 286.6 286.4 286.2 286 285.8 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 105 110 115 120 125 130 135 140 145 150 155 160 Station (ft) Bentley Systems, Inc. Haestad Methods Solution Center 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 112 Basin StormCAD [10.03.03.44] Page 1 of 1 Profile Report Profile: STM 121 TO STM 103 STM 121 TO STM 103 - Coats - 25yr Label: P20 Type: Conduit 287.ab ID:133 28Tdpe 286 285.5 285 284.5 284 283.5 283 282.5 282 281.5 281 280.5 280 279.5 279 O 278.5 a--+ 278Label: � 277.5 sin > 277 1 ({J 276.5 w276 275.5 L I� . T N .5 275 h 274.5 274 273.5 273 272.5 272 271.5 271 270.5 270 269.5 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 Station (ft) 1103 Basin i StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 131 TO STM 100 STM 131 TO STM 100 - Coats - 25yr ��\� �� \I ■�"�=Lail■■\��'�9,�■�7 ■mmklmmmmm ■M■OMMMMM -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 Station (ft) StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 132 TO STM 131 Label: s�TIN 132 TO STM 131 - Coats - 25yr Type: Catch Basin in. 179 279.900000000001 279.800000000001 279.700000000001 279.600000000001 279.500000000001 279.400000000001 279.300000000001 279.200000000001 279.100000000001 279.000000000001 278.900000000001 278.800000000001 278.700000000001 278.600000000001 00000000001 4�&.400000000001 �00000000001 7=.200000000001 O 278.1 _ 278 +-+ 277.9 (� 277.8 > 277.7 277.6 W 277.5 W 277.4 277.3 277.2 277.1 277 276.9 276.8 276.7 276.6 276.5 276.4 276.3 276.2 276.1 276 -2 -1 0 1 2 3 4 5 6 7 8 9 1011 12 13 14 15 16 17 18 19 20 2122 23 24 25 26 27 28 29 30 3132 Station (ft) in StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 133 TO STM 131 STM 133 TO $-EhAiJk3d - Coats - 25yr Type: Conduit 9 291 Lai 911: Typ®:5 281 288. 288 287.5 287 286.5 286 285.5 285 C: 284.5 0 284 }, 283.5 (0 283 > 282.5 0 282 w 281.5 281 280.5ntrf 280 279.5 279 278.5 278 277.5 277 276.5 276 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 9510010511011512012513013514014515015516016517017518018519019g0(205 Station (ft) A 131 i Basin StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 134 TO STM 133 Label: S§TIA 134 TO STM 133 - Coats - 25yr Type: Catch Basin 289.100000000001 289.000000000001 288.900000000001 288.800000000001 288.700000000001 288.600000000001 288.500000000001 288.400000000001 288.300000000001 288.200000000001 288.100000000001 288.000000000001 287.900000000001 287.800000000001 ;37.7,00000000001 4'"600000000001 P00000000001 00000000001 S=..300000000001 25200000000001 L 287.1 ♦--j 287 286.9 > 286.8 ^' 286.7 VJ 286.6 W 286.5 286.4 286.3 286.2 286.1 286 285.9 285.8 285.7 285.6 285.5 285.4 285.3 285.2 285.1 285 -2 -1 0 1 2 3 4 5 6 7 8 9 1011 12 13 14 15 16 17 18 19 20 2122 23 24 25 26 27 28 29 30 3132 Station (ft) Q sin StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 142 TO STM 100 STM 142 TO STM 100 - Coats - 25yr Label: STM 142 Label: STM 141 274 T 273.5 273 272.5 272 271.5 271 270.5 270 269.5 269 268.5 268 267.5 267 266.5 266 265.5 265 264.5 264 263.5 263 262.5 262 261.5 261 Label: STM 140 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 Station (ft) D StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 C 0 a=+ co 0 w C21020 StormCAD Model.stsw 11 /15/2021 Profile Report Profile: STM 144 TO STM 142 STM 144 TO STM 142 Label: STM 144 T8ype: 283 282.5 282 281.5 281 280.5 280 279.5 279 278.5 278 277.5 277 276.5 276 275.5 275 274.5 274 273.5 273 272.5 272 271.5 271 270.5 270 269.5 Label: P 10 Type: Conduit - Coats - 25yr 611=1i[1�00 11i[1I1ifD=FIZIM[0111iL1111i[o9=[:illlivie=[Y1i&GIGM1110ll1 W0Q E0e111WZV Station (ft) Bentley Systems, Inc. Haestad Methods Solution Center 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 142 Basin StormCAD [10.03.03.44] Page 1 of 1 1` 0 Q) w Profile Report Profile: STM 145 TO STM 144 TM 145 TO SlMrM4 - Coats - 25yr Label: STM 45 Type: Conduit Type: Catch Basin ID: 125 290. 29� 289.5 289 288.5 288 287.5 287 286.5 286 285.5 285 284.5 284 283.5 283 282.5 282 281.5 281 280.5 280 279.5 279 278.5 278 0 144 i Basin -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95100105110115120125130135140145150155160165170175180185190195_'0(R05 Station (ft) 0 StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Profile Report Profile: STM 202 TO STM 200 STM 202 TO STM 200 - Coats - 25yr Label: STM 202 Type: Catch Basin Label: P02 ID: 156 Type: Conduit 277 276.5 276 275.5 275 274.5 274 273.5 273 n U t 272 5 e c basin 272 271.5 271 270.5 270 O 269.5 a--+ 269 (u 268.5 268 267.5 w 267 266.5 266 265.5 265 264.5 264 263.5 263 et�STM 262.5 Out 262 261.5 53 261 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 Station (ft) 200 fall StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 w Profile Report Profile: STM 204 TO STM 202 STM 204 TO STM 202 - Coats - 25yr Label: STM 204 Type: Catch Basin 287 286.5 286 285.5 285 284.5 284 283.5 283 282.5 282 281.5 281 280.5 280 279.5 279 278.5 278 277.5 277 276.5 276 275.5 275 274.5 274 273.5 273 272.5 202 Basin -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 Station (ft) StormCAD C21020 StormCAD Model.stsw Bentley Systems, Inc. Haestad Methods Solution Center [10.03.03.44] 11/15/2021 27 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 Page 1 of 1 Swale Summary PROPOSED PROJECT INFORMATION: Project: Messer Parcels Location: 187 E. Stewart. St. Coats, NC Project Number: C21020 Date: 1 1 /17/2021 Designed: ZA Checked: LL Outlet ID: Location Area (SF) C-Value Stress (psf) V10 (fps) Q10 (cfs) Channel Depth (ft) Width (ft) Slopes (X:1) Channel Slope (%) Lining Type Swale 1 1.75 0.60 1.15 3.98 6.97 1.50 2 3 3.7 Bermudagrass Swale 2 1.17 0.60 1.37 14.00 4.68 1.48 1 3 4.59 Bermudagrass Swale 3 1.68 0.60 0.71 2.92 4.90 1.60 1 3 1.9 Bermudagrass Swale 4 1.80 0.60 1.05 3.80 6.84 1.51 2 3 3.3 Bermudagrass Swale 5 1.50 0.60 0.53 2.45 3.67 1.50 1 4 1.7 Bermudagrass *Note: Bermudagrass classified as Class B Retardance, Good stand, tall (average 12"). Channel Design TRAPEZDIDAL/TRIANGULAR SHAPE Channel Location: Swale 1 Estimate 10-yr Peak Runoff: Rational C 0.60 Intensity (in/hr) 7.81 Drainage Area 0.74 ac Qio 3.49 cfs Additional Flow cfs Po Total, Qdesign 3.49 cfs Channel Information: Channel Bottom Width, b 2.0 ft/ft Side Slope (x:l) 3.0 Channel Slope, S 0.037 ft/ft Flow Depth, d 0.50 ft Selected Channel Lining: Selected Channel Lining Bermudagrass Maximum Permissible Velocity {Vmax} (fp 4 Permissible Shear Stress {tp} (psf) �-2 .10 Calculations: e 1.5 ft Side Slope Length, m 1.6 ft Top Width, T 5.0 ft Channel Area, A 1.75 sq ft Wetted Perimeter, PW 5.16 ft Hydraulic Radius, Rh 0.34 ft Mannings "n" 0.035 Calculated Flow Rate, Qcaic 6.97 cfs Calculated Velocity, Vaaia 3.98 fps Calculated Shear Stress, taaia 1.15 psf Q calc % Q design? yes V calc <_ V max? yes t calc <_ t p? yes Channel Design TRAPEZDIDAL/TRIANGULAR SHAPE Channel Location: Swale 2 Estimate 10-yr Peak Runoff: Rational C 0.60 Intensity (in/hr) 7.81 Drainage Area 0.49 ac Qio 2.30 cfs Additional Flow 0.00 cfs Po Total, Qdesign 2.30 cfs Channel Information: Channel Bottom Width, b 1.0 ft/ft Side Slope (x:l) 3.0 Channel Slope, S 0.046 ft/ft Flow Depth, d 0.48 ft Selected Channel Lining: Selected Channel Lining Bermudagrass Maximum Permissible Velocity {Vmax} (fp 4 Permissible Shear Stress {tp} (psf) �-2 .10 Calculations: e 1.4 ft Side Slope Length, m 1.5 ft Top Width, T 3.9 ft Channel Area, A 1.17 sq ft Wetted Perimeter, PW 4.04 ft Hydraulic Radius, Rh 0.29 ft Mannings "n" 0.035 Calculated Flow Rate, Qcaic 4.68 cfs Calculated Velocity, Vaaia 4.00 fps Calculated Shear Stress, taaia 1.37 psf Q calc % Q design? yes V calc £ V max? yes t calc £ t p? yes Channel Design TRAPEZDIDAL/TRIANGULAR SHAPE Channel Location: Swale 3 Estimate 10-yr Peak Runoff: Rational C 0.60 Intensity (in/hr) 7.81 Drainage Area 0.83 ac Qio 3.87 cfs Additional Flow 0.00 cfs Po Total, Qdesign 3.87 cfs Channel Information: Channel Bottom Width, b 1.0 ft/ft Side Slope (x:l) 3.0 Channel Slope, S 0.019 ft/ft Flow Depth, d 0.60 ft Selected Channel Lining: Selected Channel Lining Bermudagrass Maximum Permissible Velocity {Vmax} (fp 4 Permissible Shear Stress {tp} (psf) �-2 .10 Calculations: e 1.8 ft Side Slope Length, m 1.9 ft Top Width, T 4.6 ft Channel Area, A 1.68 sq ft Wetted Perimeter, PW 4.79 ft Hydraulic Radius, Rh 0.35 ft Mannings "n" 0.035 Calculated Flow Rate, Qcaic 4.90 cfs Calculated Velocity, Vaaia 2.92 fps Calculated Shear Stress, taaia 0.71 psf Q calc % Q design? yes V calc £ V max? yes t calc £ t p? yes Channel Design TRAPEZDIDAL/TRIANGULAR SHAPE Channel Location: Swale 4 Estimate 10-yr Peak Runoff: Rational C 0.60 Intensity (in/hr) 7.81 Drainage Area 1.44 ac Qio 6.76 cfs Additional Flow cfs Po Total, Qdesign 6.76 cfs Channel Information: Channel Bottom Width, b 2.0 ft/ft Side Slope (x:l) 3.0 Channel Slope, S 0.033 ft/ft Flow Depth, d 0.51 ft Selected Channel Lining: Selected Channel Lining Bermudagrass Maximum Permissible Velocity {Vmax} (fp 4 Permissible Shear Stress {tp} (psf) �-2 .10 Calculations: e 1.5 ft Side Slope Length, m 1.6 ft Top Width, T 5.1 ft Channel Area, A 1.80 sq ft Wetted Perimeter, PW 5.23 ft Hydraulic Radius, Rh 0.34 ft Mannings "n" 0.035 Calculated Flow Rate, Qcaic 6.84 cfs Calculated Velocity, Vaaia 3.80 fps Calculated Shear Stress, taaia 1.05 psf Q calc % Q design? yes V calc £ V max? yes t calc £ t p? yes Channel Design TRAPEZDIDAL/TRIANGULAR SHAPE Channel Location: Swale 5 Estimate 10-yr Peak Runoff: Rational C 0.60 Intensity (in/hr) 7.81 Drainage Area 0.31 ac Qio 1.45 cfs Additional Flow cfs Po Total, Qdesign 1.45 cfs Channel Information: Channel Bottom Width, b 1.0 ft/ft Side Slope (x:l) 4.0 Channel Slope, S 0.017 ft/ft Flow Depth, d 0.50 ft Selected Channel Lining: Selected Channel Lining Bermudagrass Maximum Permissible Velocity {Vmax} (fp 4 Permissible Shear Stress {tp} (psf) �-2 .10 Calculations: e 2.0 ft Side Slope Length, m 2.1 ft Top Width, T 5.0 ft Channel Area, A 1.50 sq ft Wetted Perimeter, PW 5.12 ft Hydraulic Radius, Rh 0.29 ft Mannings "n" 0.035 Calculated Flow Rate, Qcaic 3.67 cfs Calculated Velocity, Vaaia 2.45 fps Calculated Shear Stress, taaia 0.53 psf Q calc % Q design? yes V calc £ V max? yes t calc £ t p? yes Channel Design TRAPEZOIDAL/TRIANGULAR SHAPE T Channel Location: Swale 1 (Temporary EC Liner) Estimate 10-yr Peak Runoff: Rational C 0.60 Intensity (in/hr) 7.81 Drainage Area 0.74 ac Q i o 3.49 cfs Additional Flow cfs Q i o Total, Qdesign 3.49 cfs Channel Information: Channel Bottom Width, b 2.0 ft/ft Side Slope (x:l) 3.0 Channel Slope, S 0.037 ft/ft Flow Depth, d 0.50 ft Selected Channel Lining: Selected Channel Lining F NAG EroNet S75 Maximum Permissible Velocity {Vmax} (fpj 5.00 Permissible Shear Stress {tp} (psf) 1 1.55 Calculations: e 1.5 ft Side Slope Length, m 1.6 ft Top Width, T 5.0 ft Channel Area, A 1.75 sq ft Wetted Perimeter, Pw 5.16 ft Hydraulic Radius, Rh 0.34 ft Mannings "n" 0.055 Calculated Flow Rate, Qcalc 4.43 cfs Calculated Velocity, Vcalc 2.53 fps Calculated Shear Stress, tcalc 1.15 psf Q calc >_ Q design? yes V calc <_ V max? yes t calc <_ t p? yes If proprietary/grass li Channel Design TRAPEZOIDAL/TRIANGULAR SHAPE T Channel Location: Swale 2 (Temporary EC Liner) Estimate 10-yr Peak Runoff: Rational C 0.60 Intensity (in/hr) 7.81 Drainage Area 0.49 ac Q10 2.30 cfs Additional Flow 0.00 cfs QioTotal, Qdesign 2.30 cfs Channel Information: Channel Bottom Width, b 1.0 ft/ft Side Slope (x:l) 3.0 Channel Slope, S 0.046 ft/ft Flow Depth, d 0.48 ft Selected Channel Lining: Selected Channel Lining F NAG EroNet S75 Maximum Permissible Velocity {Vmax} (fpsl 5.00 Permissible Shear Stress {tp} (psf) 1 1.55 Calculations: e 1.4 ft Side Slope Length, m 1.5 ft Top Width, T 3.9 ft Channel Area, A 1.17 sq ft Wetted Perimeter, PW 4.04 ft Hydraulic Radius, Rh 0.29 ft Mannings "n" 0.055 Calculated Flow Rate, Qcalc 2.98 cfs Calculated Velocity, Vcalc 2.54 fps Calculated Shear Stress, tcalc 1.37 lost Q calc 1 Q design? yes V calc E V max? yes t caic E t p? yes If proprietary/grass lii Channel Design TRAPEZOIDAL/TRIANGULAR SHAPE T Channel Location: Swale 3 (Temporary EC Liner) Estimate 10-yr Peak Runoff: Rational C 0.60 Intensity (in/hr) 7.81 Drainage Area 0.83 ac Qio 3.87 cfs Additional Flow 0.00 cfs Q i o Total, Qdesign 3.87 cfs Channel Information: Channel Bottom Width, b 1.0 ft/ft Side Slope (x:l) 3.0 Channel Slope, S 0.019 ft/ft Flow Depth, d 0.60 ft Selected Channel Lining: Selected Channel Lining NAG EroNet C125 Maximum Permissible Velocity {Vmax} (fp 10.00 Permissible Shear Stress {tp} (psf) 1 2.25 Calculations: e 1.8 ft Side Slope Length, m 1.9 ft Top Width, T 4.6 ft Channel Area, A 1.68 sq ft Wetted Perimeter, Pw 4.79 ft Hydraulic Radius, Rh 0.35 ft Mannings "n" 0.022 Calculated Flow Rate, Qcalc 7.80 cfs Calculated Velocity, Vcalc 4.64 fps Calculated Shear Stress, tcalc 0.71 psf Q calc >_ Q design? yes V calc £ V max? yes t calc £ t p? yes If proprietary/grass li Channel Design TRAPEZOIDAL/TRIANGULAR SHAPE T Channel Location: Swale 4 (Temporary EC Liner) Estimate 10-yr Peak Runoff: Rational C 0.60 Intensity (in/hr) 7.81 Drainage Area 1.44 ac Qio 6.76 cfs Additional Flow cfs Q i o Total, Qdesign 6.76 cfs Channel Information: Channel Bottom Width, b 2.0 ft/ft Side Slope (x:l) 3.0 Channel Slope, S 0.033 ft/ft Flow Depth, d 0.51 ft Selected Channel Lining: Selected Channel Lining NAG EroNet C125 Maximum Permissible Velocity {Vmax} (fp 10.00 Permissible Shear Stress {tp} (psf) 1 2.25 Calculations: e 1.5 ft Side Slope Length, m 1.6 ft Top Width, T 5.1 ft Channel Area, A 1.80 sq ft Wetted Perimeter, Pw 5.23 ft Hydraulic Radius, Rh 0.34 ft Mannings "n" 0.022 Calculated Flow Rate, Qcalc 10.89 cfs Calculated Velocity, Vcalc 6.05 fps Calculated Shear Stress, tcalc 1.05 psf Q calc >_ Q design? yes V calc £ V max? yes t calc £ t p? yes If proprietary/grass li Channel Design TRAPEZOIDAL/TRIANGULAR SHAPE T Channel Location: Swale 5 (Temporary EC Liner) Estimate 10-yr Peak Runoff: Rational C 0.60 Intensity (in/hr) 7.81 Drainage Area 0.31 ac Q i o 1.45 cfs Additional Flow cfs Q i o Total, Qdesign 1.45 cfs Channel Information: Channel Bottom Width, b 1.0 ft/ft Side Slope (x:l) 4.0 Channel Slope, S 0.017 ft/ft Flow Depth, d 0.50 ft Selected Channel Lining: Selected Channel Lining F NAG EroNet S75 Maximum Permissible Velocity {Vmax} (fpj 5.00 Permissible Shear Stress {tp} (psf) 1 1.55 Calculations: e 2.0 ft Side Slope Length, m 2.1 ft Top Width, T 5.0 ft Channel Area, A 1.50 sq ft Wetted Perimeter, Pw 5.12 ft Hydraulic Radius, Rh 0.29 ft Mannings "n" 0.055 Calculated Flow Rate, Qcalc 2.34 cfs Calculated Velocity, Vcalc 1.56 fps Calculated Shear Stress, tcalc 0.53 psf Q calc >_ Q design? yes V calc £ V max? yes t calc £ t p? yes If proprietary/grass li —IJ underfoot ENGINEERING Riprap Outlet Protection Design Project: Messer Parcels Location: NC Highway 27 Coats, NC Project Number: C21020 Date: 7/15/2022 Designed: ZA Checked: ILL Outlet ID: STM FES-1 Pipe diameter= 24 inches Pipe slope= 1 % Roughness Coef.= 0.013 10-yrCapacity= 1.26 cfs Inlcudes 1.1 Factor of Safety 10-yr velocity= 0.40 ft/sec cone rrom grapn above = Is grade of apron 10% or more: N Y/N Zone used = 2 Length = 12.0 ft. Outlet pipe diameter= 24 in. Width at Outlet = 6.0 ft. Outlet flowrate= 1.3 cfs Width at end of Pad= 19.9 ft. Outlet velocity= 0.40 ft/sec Stone diameter = 8 in. Material = Class B Thickness = 12 in. Zone Material Diameter Thickness Length 1 Class A 4 6 4 x D(o) 2 Class B 8 12 6 x D(o) 3 Class 1 10 15 8 x D(o) 4 Class 1 10 15 8 x D(o) 5 Class 11 14 21 10 x D(o) 6 Class 11 14 21 10 x D(o) 7 Special study required Calculations based on NY DOT method - Pages 8.06.05 through 8.06.06 in NC Erosion Control Manual —IJ underfoot ENGINEERING Riprap Outlet Protection Design Project: Messer Parcels Location: NC Highway 27 Coats, NC Project Number: C21020 Date: 7/15/2022 Designed: ZA Checked: ILL Outlet ID: STM 100 Pipe diameter= 24 inches Pipe slope= 6.64 % Roughness Coef.= 0.013 10-yr flow= 30.06 cfs Inlcudes 1.1 Factor of Safety 10-yr velocity= 9.57 ft/sec cone rrom grapn above = Is grade of apron 10% or more: N Y/N Zone used = 2 Length = 12.0 ft. Outlet pipe diameter= 24 in. Width at Outlet = 6.0 ft. Outlet flowrate= 30.1 cfs Width at end of Pad= 19.9 ft. Outlet velocity= 9.57 ft/sec Stone diameter = 8 in. Material = Class B Thickness = 12 in. Zone Material Diameter Thickness Length 1 Class A 4 6 4 x D(o) 2 Class B 8 12 6 x D(o) 3 Class 1 10 15 8 x D(o) 4 Class 1 10 15 8 x D(o) 5 Class 11 14 21 10 x D(o) 6 Class 11 14 21 10 x D(o) 7 Special study required Calculations based on NY DOT method - Pages 8.06.05 through 8.06.06 in NC Erosion Control Manual —IJ underfoot ENGINEERING Riprap Outlet Protection Design Project: Messer Parcels Location: NC Highway 27 Coats, NC Project Number: C21020 Date: 7/15/2022 Designed: ZA Checked: ILL Outlet ID: STM 200 Pipe diameter= 15 inches Pipe slope= 5.1 % Roughness Coef.= 0.013 10-yr flow= 4.13 cfs Inlcudes 1.1 Factor of Safety 10-yr velocity= 3.36 ft/sec cone rrom grapn above = i Is grade of apron 10% or more: N Y/N Zone used = 1 Length = 5.0 ft. Outlet pipe diameter= 15 in. Width at Outlet = 3.8 ft. Outlet flowrate= 4.1 cfs Width at end of Pad= 9.5 ft. Outlet velocity= 3.36 ft/sec Stone diameter = 4 in. Material = Class A Thickness = 6 in. Zone Material Diameter Thickness Length 1 Class A 4 6 4 x D(o) 2 Class B 8 12 6 x D(o) 3 Class 1 10 15 8 x D(o) 4 Class 1 10 15 8 x D(o) 5 Class 11 14 21 10 x D(o) 6 Class 11 14 21 10 x D(o) 7 Special study required Calculations based on NY DOT method - Pages 8.06.05 through 8.06.06 in NC Erosion Control Manual APPENDIX D: ENVIRONMENTAL EVALUATION 1 149 Executive Circle, Suite C-1 Cary, NC 27511 NCBELS # C-3847 1 919.576.9733 underfoot Forward Thinking. Grounded Design. E N G I N E E R I N G www.underfootengineering.com surveyor for final site planning. \ \ \ ' 45 ♦ ♦ ...� . . 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