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HomeMy WebLinkAboutSW6200903_2020.10.16 SIA Report_202010225614/9#6'4/#0#)'/'064'2146 for 9+0%*'56'4 57$&+8+5+10 Submittal to: Hoke County NCDOT NCDEMLR STORMWATER Prepared for: STAFFORD TURNER DEVELOPMENT, LLC. 246 VALLEYFIELD LANE SOUTHERN PINES, NC 28387 CONTACT: BOB STAFFORD PHONE: (910) 692-9800 Submittal Date: SEPTEMBER 14, 2020 Resubmittal Date: October 21, 2020 Prepared by: ,6JQOCU'PIKPGGTKPI+PE EKXKNGPIKPGGTKPI RNCPPKPI 143CharlotteAvenue,Suite104 Sanford,NorthCarolina27330 919Ͳ777Ͳ6010phone www.jthomasengineering.com LicenseNo.CͲ3389 JTE Project #: 20- DDS Project# 2019- 23 TABLE OF CONTENTS SECTION PAGE I. EXISTING CONDITIONS A. PROPERTY ..............................................................................………………….1 B. WATERSHED ...........................................................................………………….2 C. JURISDICTIONAL WATERS......................................................………………….2 D. FEMA FLOOPLAIN… ..............................................................………………….2 E. SOILS…...................................................................................………………….2 II.AGENCY STORMWATER REQUIREMENTS A. Hoke County …………..........................................................……………….….2 B.NCDEQ ..................................................................................…………………..3 III.PROPOSED IMPROVEMENTS A. PROJECT DESCRIPTION.........................................................…………………..3 B.LAND DISTURBANCE AND EROSION CONTROL…........……………………….3 C. IMPERVIOUS SURFACE ..................................................………………………..3 D. DRAINAGE AND STORMWATER MANAGEMENT… ..............………………….4 APPENDICES A. B. C. D. E. F. Computations Minor System Grass Conveyance Swales Erosion Control Maps Inlet Drainage Area Erosion Control Drainage Area Soil Survey Map FEMA FIRM Map USGS MAP SUPPLEMENT-EZ OPERATION & MAINTENANCE AGREEMENT BMP SUPPLEMENT FORMS I. EXISTING CONDITIONS A. PROPERTY The proposed project site is on one 30.71 AC parcel(PIN# 4948-40-30- 1004) in Hoke County. The property is currently undeveloped farm land with no impervious surfaces. The following is a summary of the adjacent properties: To the north, undeveloped (zoning R-20) To the south, undeveloped (zoning R-20) To the west, undeveloped (zoning R-20) To the east, single family and undeveloped (zoning R-20) See Figure 1 below for an aerial view of the property for the proposed Winchester Subdivision project (Site). Figure 1: Aerial view of pre-developed site Site Stormwater Impact Analysis – Winchester Subdivision Page 1 | 4 SITE B. WATERSHED The site is located in the Gully Branch Watershed and Cape Fear River Basin. The NCDEQ Stream Index for Gully Branch is 18-31-20.7 and Stream Classification for Gully Branch is ‘B’. C. JURISDICTIONAL WATERS There are no jurisdictional streams located on the site. There are no impacts proposed with this project to jurisdictional streams or wetlands. D. FEMA FLOODPLAIN There are no FEMA mapped floodplains located on the site per FIRM Panel 3710948400K, effective date Jan. 5, 2007. See Appendix D for FEMA FIRM maps. E. SOILS Refer to Appendix C for the NRCS map showing anticipated on-site soils. II. AGENCY STORMWATER REQUIREMENTS A. Hoke County Section 3.7 ‘Storm Drainage Not in Public Streets” of the Hoke County Subdivision Ordinance details the requirements for managing stormwater from new construction sites. Section 3.3 ‘Streets” of the Hoke County Subdivision Ordinance details the requirements for managing stormwater from new construction sites per NCDOT requirements. Stormwater Impact Analysis – Winchester Subdivision Page 2 | 4 B. NCDEQ Hoke County is a ‘tipped’ county and new projects located within the county must meet NCDEQ Post Construction Stormwater Phase 2 regulations. Site requirements for stormwater control are different if the proposed development is ‘high density’ (greater than 24% impervious) or ‘low density’ (less than 24% impervious). III. PROPOSED IMPROVEMENTS A. PROJECT DESCRIPTION The proposed project will create thirty-three (33) single family lots (min 20,000 sf). The proposed project will add additional roads the Hoke County road system. The design follows the Preliminary Plat that was recently approved by Hoke County. As part of this project, public water will be extended to serve the new lots. B. LAND DISTURBANCE AND EROSION CONTROL The proposed disturbed area for the proposed project is 29.1 AC +/-. A NCDEQ Land Disturbance (Erosion Control) Permit will be obtained prior to beginning work. C. IMPERVIOUS SURFACE The proposed total amount of impervious surfaces for this project is 4.66 AC. This includes pavement and curb & gutters in the public R/W and driveways and rooftops on each lot. The resulting percent impervious (or built-upon) of 15.2% of the total property area. A maximum amount of 3,500 SF of impervious area is allocated to each lot. Thus, this development is classified as ‘low density’ under NCDEQ Phase II regulations. Stormwater Impact Analysis – Winchester Subdivision Page 3 | 4 D. DRAINAGE AND STORMWATER MANAGEMENT i.Roadway Drainage – Minor System The proposed roadway will have curb and gutter. Catch basins in the gutter line will provide the roadway drainage. Catch basins were spaced based on gutter spread not exceeding one-half lane width during a 4 in/hr storm (NCDOT guidelines). The minor pipe system is sized based on 10-year storm flow and cross-pipes are sized based on 25-year storm flow not exceeding the hydraulic capacity of each pipe segment (as open channel flow, that is, non- pressure flow). ii.Grass Conveyance Swales As stated in Section III. C. above, proposed impervious is less than 24% and, therefore is classified as ‘Low Density’ per NCDEQ regulations. Per NCDEQ guidance, Grass swales are proposed to receive runoff collected by the catch basins in the road system to help treat the runoff before being discharged to the jurisdictional waters. These swales have a longitudinal slope of 0.1% to 0.5% that discharge into an existing drainage swale to the south. There are four (4) proposed grass swales, each with a length greater than 100 LF. iii.Methodology and computations Refer to Appendix A for storm drainage and stormwater management computations. Hydrologic computations were based on the Rational Method for storm drainage and SCS method for stormwater management. Rainfall intensity was determined based on data of the closest rainfall gauge listed on the NOAA website. Drainage areas were delineated based on a combination of field and LIDAR topography. Stormwater Impact Analysis – Winchester Subdivision Page 4 | 4 APPENDIX A WINCHESTER SUBDIVISIONDRAINAGE/GUTTER SPEAD CALCULATIONSInlet ID Inlet IDUpstream Inlet Runoff Coeficient Drainage Area (acres)Inlet Rainfall Intensity* (in/h)Pipe Diameter (in)Pipe Material Pipe Length (ft)Pipe Capacity (Full Flow) (ft³/s)Total Pipe Flow (ft³/s) (1)Total System Flow (ft³/s)Pipe Slope (ft/ft) Pipe Invert (Upstream) (ft) Pipe Invert (Downstream) (ft)Inlet IDElevation (Top) (ft) (3)Inlet Elevation (Invert) (ft)Inlet TypeGutter I=4 in/hr (ft³/s) (2)Gutter Flow (Total Intercepted) (ft³/s)Gutter Flow (Total Bypassed) (ft³/s)Gutter Spread (ft) (4)NotesFES 405 (5) CB 402 0.3017.925.9930 Class III RCP 60.0044.4032.2032.20 0.0107198.84198.20FES 405 (5) 200.00 198.84----DI 407 (6) CB 403 0.330.765.6115 Class III RCP 28.004.941.411.410.0054197.55197.40DI 407 (6) 200.55 197.55NCDOT 840.22-DI 406 CB 404 0.330.435.6115 Class III RCP 22.004.940.800.800.0068197.55197.40DI 406 200.55 197.69NCDOT 840.22CB 404 CB 403 0.350.485.6115 Class III RCP 28.004.940.941.740.0054197.55197.40CB 404 201.55 197.55NCDOT 840.03 (DOUBLE) 0.671.66-3.50 SAG - 0.5" GRATE DEPRESSIONCB 403 CB 401 0.350.765.5018 Class III RCP 90.9010.731.464.610.0088197.40196.60CB 403 201.55 197.40NCDOT 840.03 (DOUBLE) 1.061.46-3.50 SAG - 0.5" GRATE DEPRESSIONCB 402 CB 401 0.700.007.9730 Class III RCP167.00 43.530.0032.20 0.0096198.20196.60CB 402 203.59 198.20NCDOT 840.03----CB 401 JB 401A 0.350.107.9730 Class III RCP 12.0035.540.2837.09 0.0075196.60196.51CB 401 202.63 196.60NCDOT 840.030.140.300.043.00JB 401A FES 400---30 Class III RCP302.00 35.540.0069.29 0.0070196.51194.39JB 401A 202.63 196.51NCDOT 840.03#VALUE! 0.300.043.00CB 301 JB 301A 0.351.497.9718 Class III RCP 12.006.334.164.160.0050196.00195.94CB 301 199.00 196.00NCDOT 840.032.092.68-4.92 SAG - 0.5" GRATE DEPRESSIONJB 301A FES 300---18 Class III RCP148.006.330.004.160.0050195.94195.20JB 301A 199.00 195.94NCDOT 840.03#VALUE! 2.68-4.92 SAG - 0.5" GRATE DEPRESSIONCB 208 CB 203 0.330.907.9724 Class IV RCP 96.0021.912.3718.31 0.0080195.87195.10CB 208 199.67 195.87NCDOT 840.031.191.050.156.00FES 207 (5) CB 208 0.309.265.7424 Class III RCP122.00 17.3215.9515.95 0.0050197.00196.39FES 207 (5) -197.00NCDOT 840.22----CB 206 CB 205 0.350.425.6215 Class III RCP 28.004.950.830.830.0050196.39196.25CB 206 199.51 196.39NCDOT 840.030.591.010.155.70CB 205 DI 2040.350.655.6215 Class III RCP 48.004.951.282.100.0052196.25196.00CB 205 199.51 196.25NCDOT 840.030.911.350.265.83 1.0" GRATE DEPRESSIONDI 204 CB 203A 0.350.407.9715 Class III RCP 20.004.941.123.220.0500196.07195.07DI 204 199.00 196.07NCDOT 840.22----CB 203A CB 203 0.350.697.9715 Class IV RCP 15.005.721.925.150.0067195.07194.97CB 203A 198.90 195.07NCDOT 840.031.011.01-2.50SAGCB 203 CB 201 0.350.107.9724 Class IV RCP 28.0020.640.2823.74 0.0071194.97194.77CB 203 199.00 194.97NCDOT 840.030.700.660.045.95CB 202 CB 201 0.350.817.9715 Class IV RCP 18.004.942.262.260.0067194.89194.77CB 202 198.90 194.89NCDOT 840.031.271.60-3.50SAGCB 201 JB 201A 0.350.637.9730 Class III RCP 12.0031.411.7625.49 0.0050194.77194.71CB 201 199.00 194.77NCDOT 840.030.880.990.145.80JB 201A FES 200---30 Class III RCP208.00 31.410.0025.49 0.0050194.71193.67JB 201A 199.00 194.71NCDOT 840.03#VALUE! 0.990.145.80FES 101 (5) FES 100 0.3010.485.8624 Class IV RCP 72.0020.3518.4218.42 0.0069197.50197.00FES 101 (5) -197.50NCDOT 840.03-FLUME 1 OUTLET 0.850.087.97- Concrete Flume 10.0017.320.540.540.0150200.45200.30FLUME 1-200.45Concrete Flume0.270.54-1.40SAGFLUME 1 OUTLET 0.850.087.97- Concrete Flume 10.0017.320.540.540.0150200.45200.30FLUME 1-200.45Concrete Flume0.270.54-1.40SAGNotes 1 Storm System Sizing based on 10-yr Storm2 Gutter Spread Calculations based on Storm Intensity of 4 in/hr3 CB (Catch Basin) Top Elevation is Grate at EOP4 Gutter Spread Width is measured from Edge of Pavement5 Cross Pipe Sizing based on 25-yr Storm6 Inlet area calculated if alternate grading pattern on lots STRUCTURES 200-202 STRUCTURES 200-206 STRUCTURES 200-207 STRUCTURES 301-300FES300 STRUCTURES 405-400 STRUCTURES 406-400 STRUCTURES 407-400 Outlet Protection #100 New York Method 8.06.5 Manual  Q= 15.56 cfs La= 8 FT 24 in W= 6 FT 5.83 ft/s d= 12 IN 1 Class A Outlet Protection #200 New York Method 8.06.5 Manual  Q= 36.01 cfs La= 18 FT 36 ft W= 9 FT 5.31 ft/s d= 18 IN 2 Class B Outlet Protection #300 New York Method 8.06.5 Manual  Q= 5.34 cfs La= 6 FT 18 in W= 4.5 FT 3.52 ft/s d= 12 IN 1 Class A Outlet Protection #400 New York Method 8.06.5 Manual  Q= 32.94 cfs La= 15 FT 30 in W= 7.5 FT 6.71 ft/s d= 18 IN 2 Class B Pipe Diameter Velocity= Zone= Stone Diameter= Pipe Diameter Velocity= Zone= Stone Diameter= Pipe Diameter Velocity= Pipe Diameter Velocity= Zone= Stone Diameter= Zone= Stone Diameter= U.S. Department of Agriculture FL-ENG-21B Natural Resources Conservation Service 04/04 TR 55 Worksheet 3: Time of Concentration (Tc) or Travel Time (Tt) Project: Designed By: Date: Location: Checked By: Date: Circle one: Present Developed Circle one: Tc Tt through subarea NOTES: Space for as many as two segments per flow type can be used for each worksheet. Include a map, schematic, or description of flow segments. Sheet Flow (Applicable to Tc only) Segment ID 1. Surface description (Table 3-1) ................................................ 2. Manning’s roughness coeff., n (Table 3-1) .............................. 3. Flow length, L (total L < 100 ft) .............................................. ft 4. Two-year 24-hour rainfall, P2.................................................. in 5. Land slope, s ....................................................................... ft/ft 6. Tt = 0.007 (nL) 0.8 Compute Tt .......................... hr + = P2 0.5 s0.4 Shallow Concetrated Flow Segment ID 7. Surface description (paved or unpaved) ................................... 8. Flow length, L ......................................................................... ft 9. Watercourse slope, s ........................................................... ft/ft 10. Average velocity, V (Figure 3-1) .......................................... ft/s 11. Tt = L Compute Tt ......................... hr + = 3600 V Channel Flow Segment ID 12. Cross sectional flow area, a ............................................... ft2 13. Wetted perimeter, Pw ......................................................... ft 14. Hydraulic radius, r = a Compute r .................................. ft Pw 15. Channel Slope, s ............................................................ ft/ft 16. Manning’s Roughness Coeff., n ............................................ 17. V = 1.49 r 2/3 s1/2 Compute V ...................... ft/s n 18. Flow length, L ...................................................................... ft 19. Tt = L Compute Tt .................................... hr + = 3600 V 20. Watershed or subarea Tc or Tt (add Tt in steps 6, 11, and 19 ................................................................. hr 0.27= 16.2 mins Winchester Subdivison MTB Hoke County, NC JRT Check ✔ Check ✔DA #101 1 FIELDS 0.03 100 0.1 0.050 0.14 0.14 2 UNPAVED 1,410 0.050 3.8 0.10 0.10 6.0 9.0 0.7 0.005 0.03 2.7 209 0.02 0.02 0.27 06/04  U.S. Department of Agriculture FL-ENG-21B Natural Resources Conservation Service 04/04 TR 55 Worksheet 3: Time of Concentration (Tc) or Travel Time (Tt) Project: Designed By: Date: Location: Checked By: Date: Circle one: Present Developed Circle one: Tc Tt through subarea NOTES: Space for as many as two segments per flow type can be used for each worksheet. Include a map, schematic, or description of flow segments. Sheet Flow (Applicable to Tc only) Segment ID 1. Surface description (Table 3-1) ................................................ 2. Manning’s roughness coeff., n (Table 3-1) .............................. 3. Flow length, L (total L < 100 ft) .............................................. ft 4. Two-year 24-hour rainfall, P2.................................................. in 5. Land slope, s ....................................................................... ft/ft 6. Tt = 0.007 (nL) 0.8 Compute Tt .......................... hr + = P2 0.5 s0.4 Shallow Concetrated Flow Segment ID 7. Surface description (paved or unpaved) ................................... 8. Flow length, L ......................................................................... ft 9. Watercourse slope, s ........................................................... ft/ft 10. Average velocity, V (Figure 3-1) .......................................... ft/s 11. Tt = L Compute Tt ......................... hr + = 3600 V Channel Flow Segment ID 12. Cross sectional flow area, a ............................................... ft2 13. Wetted perimeter, Pw ......................................................... ft 14. Hydraulic radius, r = a Compute r .................................. ft Pw 15. Channel Slope, s ............................................................ ft/ft 16. Manning’s Roughness Coeff., n ............................................ 17. V = 1.49 r 2/3 s1/2 Compute V ...................... ft/s n 18. Flow length, L ...................................................................... ft 19. Tt = L Compute Tt .................................... hr + = 3600 V 20. Watershed or subarea Tc or Tt (add Tt in steps 6, 11, and 19 ................................................................. hr 0.29= 17.4 mins Winchester Subdivision MTB Hoke County, NC JRT Check ✔ Check ✔DA #207 1 WOODS,FIELDS 0.03 100 0.1 0.050 0.14 0.14 2 UNPAVED 1,142 0.050 3.8 0.08 0.08 3.0 12.0 0.3 0.005 0.03 1.4 295 0.06 0.06 0.29 06/04  U.S. Department of Agriculture FL-ENG-21B Natural Resources Conservation Service 04/04 TR 55 Worksheet 3: Time of Concentration (Tc) or Travel Time (Tt) Project: Designed By: Date: Location: Checked By: Date: Circle one: Present Developed Circle one: Tc Tt through subarea NOTES: Space for as many as two segments per flow type can be used for each worksheet. Include a map, schematic, or description of flow segments. Sheet Flow (Applicable to Tc only)Segment ID 1. Surface description (Table 3-1) ................................................ 2. Manning’s roughness coeff., n (Table 3-1) .............................. 3. Flow length, L (total L < 100 ft) .............................................. ft 4. Two-year 24-hour rainfall, P2.................................................. in 5. Land slope, s ....................................................................... ft/ft 6. Tt = 0.007 (nL) 0.8 Compute Tt .......................... hr + = P2 0.5 s0.4 Shallow Concetrated Flow Segment ID 7. Surface description (paved or unpaved) ................................... 8. Flow length, L ......................................................................... ft 9. Watercourse slope, s ........................................................... ft/ft 10. Average velocity, V (Figure 3-1) .......................................... ft/s 11. Tt = L Compute Tt ......................... hr + = 3600 V Channel Flow Segment ID 12. Cross sectional flow area, a ............................................... ft2 13. Wetted perimeter, Pw ......................................................... ft 14. Hydraulic radius, r = a Compute r .................................. ft Pw 15. Channel Slope, s ............................................................ ft/ft 16. Manning’s Roughness Coeff., n ............................................ 17. V = 1.49 r 2/3 s1/2 Compute V ...................... ft/s n 18. Flow length, L ...................................................................... ft 19. Tt = L Compute Tt .................................... hr + = 3600 V 20. Watershed or subarea Tc or Tt (add Tt in steps 6, 11, and 19 ................................................................. hr 0.25= 15.0 mins Winchester Subdivision MTB Hoke County, NC JRT Check ✔ Check ✔DA #405 1 FIELDS 0.03 100 0.1 0.050 0.14 0.14 2 UNPAVED 1,137 0.050 3.8 0.08 0.08 1 8.5 12.1 0.7 0.005 0.02 3.8 321 0.02 0.02 0.25 06/04  Permanent Channel #1 => DA #PD 1 Calculate Flow - Rational Method 25-Yr Storm Q25 = CIA C=0.33 I=5.86 in/hr CALC Tc Q25 + FES 100+= 39.07 A=11.60 ac FLUME 1 &2 Channel Slope=0.50 Includes PC #2 Channel Depth=2.00 Channel Bottom Width=2.00 Side Slopes=4.00 Velocity=3.60 Soil Type @ sandy loam Slopes=0-10% Channel Lining Shear Calculation T=yds y=62.4 lbs dwater=1.34 ft T=0.41808 lbs/ft2 s=0.005 ft/ft Temporary=NAG S75BN Permanent=Fescue Permanent Channel #2 => DA #PD 2 Calculate Flow - Rational Method 25-Yr Storm Q25 = CIA C=0.30 I=5.86 in/hr CALC Tc Q25 = 18.42 A=10.48 ac Channel Slope=0.50 Channel Depth=1.00 Channel Bottom Width=2.00 Side Slopes=3.00 Velocity=3.32 Soil Type @ sandy loam Slopes=0-10% Channel Lining Shear Calculation T=yds y=62.4 lbs dwater=0.97 ft T=0.30264 lbs/ft2 s=0.005 ft/ft Temporary=NAG S75BN Permanent=Fescue Permanent Channel #3 => DA #PD 3 Calculate Flow - Rational Method 25-Yr Storm Q25 = CIA C=0.33 I=8.90 in/hr Q25 + FES 200= 51.57 A=5.22 ac Channel Slope=0.10 Channel Depth=2.00 Channel Bottom Width=6.00 Side Slopes=4.00 Velocity=2.29 Soil Type @ sandy loam Slopes=0-10% Channel Lining Shear Calculation T=yds y=62.4 lbs dwater=1.74 ft T=0.108576 lbs/ft2 s=0.001 ft/ft Temporary=NAG S75BN Permanent=Fescue Permanent Channel #4 => DA #PD 4 Calculate Flow - Rational Method 25-Yr Storm Q25 = CIA C=0.33 I=8.90 in/hr Q25 + FES 300= 8.07 A=0.93 ac Channel Slope=0.10 Channel Depth=3.00 Channel Bottom Width=6.00 Side Slopes=4.00 Velocity=1.36 Soil Type @ sandy loam Slopes=0-10% Channel Lining Shear Calculation T=yds y=62.4 lbs dwater=0.68 ft T=0.42432 lbs/ft2 s=0.01 ft/ft Temporary=NAG S75BN Permanent=Fescue Permanent Channel #5 => DA #PD 5 Calculate Flow - Rational Method 25-Yr Storm Q25 = CIA C=0.33 I=8.89 in/hr Q25 + FES 200= 57.39 A=8.27 ac Channel Slope=0.60 Channel Depth=3.00 Channel Bottom Width=3.00 Side Slopes=4.00 Velocity=4.33 Soil Type @ sandy loam Slopes=0-10% Channel Lining Shear Calculation T=yds y=62.4 lbs dwater=1.82 ft T=0.681408 lbs/ft2 s=0.006 ft/ft Temporary=NAG S75BN Permanent=Fescue Permanent Channel #6 => DA #PD 6 Calculate Flow - Rational Method 25-Yr Storm Q25 = CIA C=0.33 I=4.78 in/hr CALC TC Q25 = 33.61 A=17.92 ac Channel Slope=0.50 Channel Depth=1.50 Channel Bottom Width=2.00 Side Slopes=4.00 Velocity=3.92 Soil Type @ sandy loam Slopes=0-10% Channel Lining Shear Calculation T=yds y=62.4 lbs dwater=1.22 ft T=0.38064 lbs/ft2 s=0.005 ft/ft Temporary=NAG S75BN Permanent=Fescue Sediment Basin # 1 Calculate Flow ‐ Rational Method 10‐Yr Storm 25‐Yr Storm  Q10 = CIA C= 0.30 Q25 = CIA C= 0.30 I*= 5.20 I*= 5.80 Q10 = 39.78 A= 25.50 Q25 = 44.37 A= 25.50 2‐Yr Storm  Q2 = CIA C= 0.30 I*= 3.98 *Intensity per Tc Q2 = 30.45 A= 25.50 Calculate Required Surface Area SA=Q10 x 325 sf/cfs Q10 = 39.78 SA= 12928.50 ft2 Side Slopes = 3.00 :1 Pond Depth= 4.00 ft Basin Dims  (Per SA) Top = 70.00 x 210.00 = 14700 ft2 Bottom = 46 x 186 = 8556 ft2 Volume Required  VR=Ax1800 cf/ac A= 25.50 ac VR=45900.00 ft3 Volume Proposed  VP=((Top Area + Bottom Area)/2)xD Top= 14700.00 sf Bottom= 8556.00 sf VP=46512.00 ft3 D= 4.00 ft Skimmer Sizing  Calculate Dewater Time  Qd=V/Td V= 46512.00 ft3 Td= 5 3‐5 days typ Qd=9302.40 cfs Calculate Orifice Diameter D=sqrt((Qd/(2310sqrt(h))) Qd= 9302.40 h= 0.33 D= 2.65 Use 6 2.65 " Orifice Principle Spillway Sizing  L=Q2/(cH1.5)L= ? ft H= 1.50 ft c= 3.10 L= 5.35 ft Riser Sizing  C=pi X D C= 5.35 ft pi= 3.14 D= 20.43 in D= ? ft Material= CMP Use  24.00 "CMP Riser Barrel Sizing  Q2= CA X sqrt(2gh)C= 0.60 A= ? sf A= 2.70 Q2= 30.45 cfs h= 5.50 ft A=pi X r2 g= 32.20 ft/s A= 22.24 in  Material= CMP Use  18.00 "CMP Barrel Size Riser/Barrel Base  Calculate Bouyance Force on Riser  Cross‐sectional area  " Skimmer w/ A=(pi x r2) x 2 r= 0.85 A= 4.55 sf Riser Volume  V=A x L A= 4.55 L= 4.00 V= 18.21 Bouyance Force FB=qV q= 62.40 lbs V= 18.21 ft3 FB= 1136.00 lbs/cf Concrete Base Sizing (Concrete = 120 lbs/cf) ‐ (weight of water = 62.4 lbs/cf) == 57.6 lbs/cf Base Volume 19.72 cf Base Dims = 4.44 ft    x 4.44 ft     x 1.00 ft Weir Sizing  Per AutoCad Hydraflow Software  L= 35.00 ft D= 1.80 ft dwater=0.50 ft Q25= 44.37 cfs Velocity= 2.31 ft/s Weir Lining  Shear Calculation  T=yds y= 62.4 lbs dwater=0.5 ft T= 0.312 lbs/ft2 s= 0.01 ft/ft Required Liner= Class A Rip Rap Proposed Liner= Class A Rip Rap Barrel Outlet Protection  New York Method 8.06.5 Manual  18.00 " 9 ft 9.6 ft/s 4.5 ft 2 Class B Stone d= 18 in Diameter of Barrel = Velocity= Zone= Stone Diameter= W= La= Skimmer Basin # 2 Calculate Flow ‐ Rational Method 10‐Yr Storm 25‐Yr Storm  Q10 = CIA C= 0.5 Q25 = CIA C= 0.5 I= 7.98 I= 8.89 Q10 = 21.945 A= 5.5 Q25 = 24.4475 A= 5.5 Calculate Required Surface Area SA=Q10 x 325 sf/cfs Q10 = 24.4475 cfs SA= 7945.438 Side Slopes = 3:1 Pond Depth= 3ft Basin Dims  Top = 64 x 128 = 8192 sf Bottom = 46 x 110 = 5060 sf Volume Required  VR=Ax1800 cf/ac A= 5.5 VR=9900 Volume Proposed  VP=((Top Area + Bottom Area)/2)xD Top= 8192 Bottom= 5060 VP=19878 D= 3 OK Weir Sizing  Per AutoCad Hydraflow Software  L= 15 ft D= 2 ft dwater=0.64 ft Q25= 24.4475 cfs Velocity= 2.45 ft/s Weir Lining  Shear Calculation  T=yds y= 62.4 lbs dwater=0.64 ft T= 0.39936 lbs/ft2 s= 0.01 ft/ft Use Class A Rip Rap Skimmer Sizing  Calculate Dewater Time  Qd=V/Td V= 9900 Td= 3 2‐5 days typ Qd= 3300 Calculate Orifice Diameter D=sqrt((Qd/(2310sqrt(h))) Qd= 3300 h= 1.75 D= 1.374708 Use 4  " Skimmer w 1.4 Orifice Skimmer Outlet Protection #7 New York Method 8.06.5 Manual  4.00 " 1.32 Use 7.5 ft 2.36 ft/s 1 Use 3.0 ft 1 Class A Diameter of Barrel = La= Velocity= W= Zone= Stone Diameter= Temporary Diversion/Berm #1  => DA #TD1 Calculate Flow ‐ Rational Method 25‐Yr Storm  Q25 = CIA C= 0.40 I*= 5.37 in/hr Q25 = 48.76 A= 22.70 ac Channel Slope=0.50 Channel Depth=2.50 *Intensity per Tc Side Slopes=3.00 Velocity=4.42 Soil Type @ clay Slopes=0‐10% Channel Lining Shear Calculation  T=yds y= 62.4 lbs dwater=1.9 ft T= 0.5928 lbs/ft2 s= 0.005 ft/ft Temporary= NAG S75BN Permanent= NAG S75BN Temporary Diversion/Berm #2  => DA #TD2 Calculate Flow ‐ Rational Method 25‐Yr Storm  Q25 = CIA C= 0.40 I= 8.89 in/hr Q25 = 4.27 A= 1.20 ac Channel Slope=0.50 Channel Depth=1.50 Side Slopes=3.00 Velocity=2.42 Soil Type @ clay Slopes=0‐10% Channel Lining Shear Calculation  T=yds y= 62.4 lbs dwater=0.75 ft T= 0.234 lbs/ft2 s= 0.005 ft/ft Temporary= NAG S75BN Permanent= NAG S75BN Temporary Diversion/Berm #3  => DA #TD3 Calculate Flow ‐ Rational Method 25‐Yr Storm  Q25 = CIA C= 0.40 I= 8.89 in/hr Q25 = 7.47 A= 2.10 ac Channel Slope=0.60 Channel Depth=1.50 Side Slopes=3.00 Velocity=2.78 Soil Type @ clay Slopes=0‐10% Channel Lining Shear Calculation  T=yds y= 62.4 lbs dwater=0.93 ft T= 0.29016 lbs/ft2 s= 0.005 ft/ft Temporary= NAG S75BN Permanent= NAG S75BN Temporary Diversion/Berm #4  => DA #TD4 Calculate Flow ‐ Rational Method 25‐Yr Storm  Q25 = CIA C= 0.40 I= 8.89 in/hr Q25 = 8.89 A= 2.50 ac Channel Slope=0.60 Channel Depth=1.50 Side Slopes=3.00 Velocity=3.11 Soil Type @ clay Slopes=0‐10% Channel Lining Shear Calculation  T=yds y= 62.4 lbs dwater=0.96 ft T= 0.359424 lbs/ft2 s= 0.006 ft/ft Temporary= NAG S75BN Permanent= NAG S75BN Temporary Diversion/Berm #5  => DA #TD5 (CLEANWATER) Calculate Flow ‐ Rational Method 25‐Yr Storm  Q25 = CIA C= 0.40 I= 6.05 in/hr Q25 = 56.31 A= 23.27 ac Channel Slope=0.50 *Intensity per Tc Channel Depth=2.50 Side Slopes=3.00 Velocity=4.49 Soil Type @ clay Slopes=0‐10% Channel Lining Shear Calculation  T=yds y= 62.4 lbs dwater=2ft T= 0.624 lbs/ft2 s= 0.005 ft/ft Temporary= NAG S75BN Permanent= NAG S75BN Temporary Diversion/Berm #6  => DA #TD6 (CLEANWATER) Calculate Flow ‐ Rational Method 25‐Yr Storm  Q25 = CIA C= 0.40 I= 6.51 in/hr Q25 = 20.57 A= 7.90 ac Channel Slope=0.50 *Intensity per Tc Channel Depth=2.00 Side Slopes=3.00 Velocity=3.57 Soil Type @ clay Slopes=0‐10% Channel Lining Shear Calculation  T=yds y= 62.4 lbs dwater=1.37 ft T= 0.42744 lbs/ft2 s= 0.005 ft/ft Temporary= NAG S75BN Permanent= NAG S75BN U.S. Department of Agriculture FL-ENG-21B Natural Resources Conservation Service 04/04 TR 55 Worksheet 3: Time of Concentration (Tc) or Travel Time (Tt) Project: Designed By: Date: Location: Checked By: Date: Circle one: Present Developed Circle one: Tc Tt through subarea NOTES: Space for as many as two segments per flow type can be used for each worksheet. Include a map, schematic, or description of flow segments. Sheet Flow (Applicable to Tc only) Segment ID 1. Surface description (Table 3-1) ................................................ 2. Manning’s roughness coeff., n (Table 3-1) .............................. 3. Flow length, L (total L < 100 ft) .............................................. ft 4. Two-year 24-hour rainfall, P2.................................................. in 5. Land slope, s ....................................................................... ft/ft 6. Tt = 0.007 (nL) 0.8 Compute Tt .......................... hr + = P2 0.5 s0.4 Shallow Concetrated Flow Segment ID 7. Surface description (paved or unpaved) ................................... 8. Flow length, L ......................................................................... ft 9. Watercourse slope, s ........................................................... ft/ft 10. Average velocity, V (Figure 3-1) .......................................... ft/s 11. Tt = L Compute Tt ......................... hr + = 3600 V Channel Flow Segment ID 12. Cross sectional flow area, a ............................................... ft2 13. Wetted perimeter, Pw ......................................................... ft 14. Hydraulic radius, r = a Compute r .................................. ft Pw 15. Channel Slope, s ............................................................ ft/ft 16. Manning’s Roughness Coeff., n ............................................ 17. V = 1.49 r 2/3 s1/2 Compute V ...................... ft/s n 18. Flow length, L ...................................................................... ft 19. Tt = L Compute Tt .................................... hr + = 3600 V 20. Watershed or subarea Tc or Tt (add Tt in steps 6, 11, and 19 ................................................................. hr 0.28= 16.8 mins Winchester Subdivision MTB Hoke County, NC JRT Check ✔ Check ✔DA SB #1 1 FIELDS 0.03 100 0.1 0.050 0.14 0.14 2 UNPAVED 1,868 0.050 3.8 0.14 0.14 2.7 0.28 06/04  U.S. Department of Agriculture FL-ENG-21B Natural Resources Conservation Service 04/04 TR 55 Worksheet 3: Time of Concentration (Tc) or Travel Time (Tt) Project: Designed By: Date: Location: Checked By: Date: Circle one: Present Developed Circle one: Tc Tt through subarea NOTES: Space for as many as two segments per flow type can be used for each worksheet. Include a map, schematic, or description of flow segments. Sheet Flow (Applicable to Tc only) Segment ID 1. Surface description (Table 3-1) ................................................ 2. Manning’s roughness coeff., n (Table 3-1) .............................. 3. Flow length, L (total L < 100 ft) .............................................. ft 4. Two-year 24-hour rainfall, P2.................................................. in 5. Land slope, s ....................................................................... ft/ft 6. Tt = 0.007 (nL) 0.8 Compute Tt .......................... hr + = P2 0.5 s0.4 Shallow Concetrated Flow Segment ID 7. Surface description (paved or unpaved) ................................... 8. Flow length, L ......................................................................... ft 9. Watercourse slope, s ........................................................... ft/ft 10. Average velocity, V (Figure 3-1) .......................................... ft/s 11. Tt = L Compute Tt ......................... hr + = 3600 V Channel Flow Segment ID 12. Cross sectional flow area, a ............................................... ft2 13. Wetted perimeter, Pw ......................................................... ft 14. Hydraulic radius, r = a Compute r .................................. ft Pw 15. Channel Slope, s ............................................................ ft/ft 16. Manning’s Roughness Coeff., n ............................................ 17. V = 1.49 r 2/3 s1/2 Compute V ...................... ft/s n 18. Flow length, L ...................................................................... ft 19. Tt = L Compute Tt .................................... hr + = 3600 V 20. Watershed or subarea Tc or Tt (add Tt in steps 6, 11, and 19 ................................................................. hr 0.24= 14.4 mins Winchester Subdivision MTB Hoke County, NC JRT Check ✔ Check ✔DA TD #5 1 FIELDS 0.03 100 0.1 0.050 0.14 0.14 2 UNPAVED 1,335 0.050 3.8 0.10 0.10 2.7 0.24 06/04  U.S. Department of Agriculture FL-ENG-21B Natural Resources Conservation Service 04/04 TR 55 Worksheet 3: Time of Concentration (Tc) or Travel Time (Tt) Project: Designed By: Date: Location: Checked By: Date: Circle one: Present Developed Circle one: Tc Tt through subarea NOTES: Space for as many as two segments per flow type can be used for each worksheet. Include a map, schematic, or description of flow segments. Sheet Flow (Applicable to Tc only) Segment ID 1. Surface description (Table 3-1) ................................................ 2. Manning’s roughness coeff., n (Table 3-1) .............................. 3. Flow length, L (total L < 100 ft) .............................................. ft 4. Two-year 24-hour rainfall, P2.................................................. in 5. Land slope, s ....................................................................... ft/ft 6. Tt = 0.007 (nL) 0.8 Compute Tt .......................... hr + = P2 0.5 s0.4 Shallow Concetrated Flow Segment ID 7. Surface description (paved or unpaved) ................................... 8. Flow length, L ......................................................................... ft 9. Watercourse slope, s ........................................................... ft/ft 10. Average velocity, V (Figure 3-1) .......................................... ft/s 11. Tt = L Compute Tt ......................... hr + = 3600 V Channel Flow Segment ID 12. Cross sectional flow area, a ............................................... ft2 13. Wetted perimeter, Pw ......................................................... ft 14. Hydraulic radius, r = a Compute r .................................. ft Pw 15. Channel Slope, s ............................................................ ft/ft 16. Manning’s Roughness Coeff., n ............................................ 17. V = 1.49 r 2/3 s1/2 Compute V ...................... ft/s n 18. Flow length, L ...................................................................... ft 19. Tt = L Compute Tt .................................... hr + = 3600 V 20. Watershed or subarea Tc or Tt (add Tt in steps 6, 11, and 19 ................................................................. hr 0.21= 12.6 mins Winchester Subdivision MTB Hoke County, NC JRT Check ✔ Check ✔DA TD#6 1 FIELDS 0.03 100 0.1 0.050 0.14 0.14 2 UNPAVED 879 0.050 3.8 0.06 0.06 2.7 0.21 06/04  APPENDIX B INV.= 1 9 6 . 3'INV.=1 9 5 . 5 9'CTCT TGRAYSTONE LANEHAYL O F T C O U R T CRAFTSMAN COURT NEWCASTLE COURTX 199.7X 199.7X 201 .0X 199.4X 199.6 X 201.0X 200.5X 2 0 0 . 1 0 E P X 19 9 .85EPX 2 0 0 . 2 8 E P X 199.66EPX 201.70EPX 2 0 0 . 4 0 EP 20 1 . 0 0 X EP X 203.33EP202.50 XEPX 202 .50EP199.00 XEP199.52 XEPX 199.52EP202.00 X EP X 202.0EP199.27 XEPX 199.59EPX 2 01 . 43EP X 201 . 5 1 EP X 200.45EPX 2 0 0 . 4 5 EP X 2 0 0 . 3 0 EP X 200.30EPX 198 .5 FES 10 1 FES 10 0 FES 2 0 0 CB 201CB 202CB 203ADI 204CB 20 6 FES 20 7CB 301CB 401FES 300 FES 400 CB 403 CB 404 CB 208X 19 9 . 5 X 199.5X 199.5X 199.5X 199.5X 199 .5X 194.0DA 203A0.69 ACDA 2020.81 ACX 2 0 1 . 0 X 2 0 1 . 0 DA 20.08 ACFLUME 2 FLUME 1 DA 10.08 ACDA PD 10.48 ACDA PD 2 & 10110.48 ACDA 2040.40 ACDA 2050.65 ACDA 2060.42 ACDA 2079.26 ACDA 2080.90 ACDA 4040.48 ACDA 405 & PD 617.92 ACDA 4010.10 ACDA 3011.49 ACDA 2010.63 AC200200X 201.0X 2 0 2 . 0 X 201.8 X 201 .8DA PD 35.22 ACDA PD 40.93 ACDA PD 58.27 ACCB 402FES 405 X 200.26TOS200.01 XTOSX 199.0X 200.0X 201.0H.P.X 199 .0X 202.0X 194.0X 191.8ROCKFISH ROAD - SR 1403TC FLOW LINE (TYP)TC=16.2 MINTC FLOW LINE (TYP)TC=17.4 MINTC FLOW LINE (TYP)TC=15.0 MINSWEET WILLIAM WAY - SR 1774X 20 1 . 0 0 EP201.1 XEPX 2 0 1 . 0 0 EP 203.00 XEPX 203.00EP2 0 0 200 205 19819819819 8 1 9 9 199 201 201 202 202 203 203 204 204 197 19719819 8 199DI 406 DI 407 DA 4060.43 ACDA 4070.96 ACX 203.0X 203.5X 202.5X 201.5X 201.0X 201.0X 202.0CB 203CB 20 5DA 2030.10 ACX 201.0X 201.0200200 200200200195 195195195200 X 203.5X 20 1 . 0X 199.5X 199 .5200200200200 2 0 0 200200200200X 20 1 . 0 DA 4030.76 ACJB 401AJB 201AJB 301AFile: C:\Users\DDS2\Desktop\Drafting and Design\2019\2019-23 Winchester Subdivsion\2020.04.22 - Winchester Subdivision CDs.dwg Print Date: 10/16/2020 STORMWATER INLET DRAINAGE AREA MAPDA1Drawn by:Designed by:Reviewed by:Date:Scale:Sheet:Project Number:ofREVISIONS NORTH1"=120'2PROFESSIONAL ENGINEER'S SEAL WINCHESTER SUBDIVISION MTBJRTJRTJULY 24, 2020ROCKFISH ROAD HOKE COUNTY, NORTH CAROLINA 143 Charlotte Avenue, Suite 104Sanford, North Carolina 27330(919) 777-6010 phonewww.jthomasengineering.comlicense no. C-3389AGENCY REVIEW ONLYJ Thomas Engineering, Inc.civil engineering &planningJTE #:DDS#: 2019-231200120240SCALE: 1" = 120'60 INV.=1 9 6 . 3' INV.= 1 9 5 . 5 9'CT TGRAYSTONE LANEHAYL O F T C O U R T CRAFTSMAN COURT NEWCASTLE COURTDA EC SB #125.6 ACDA EC SB #25.5 ACDA EC TD#67.9 ACDA EC TD#523.27 ACDA EC TD #42.5 ACDA EC TD #32.1 ACDA ECTD #21.2 ACDA EC TD #122.7 ACROCKFISH ROAD - SR 1403TC FLOW LINE (TYP)TC=14.4 MINTC FLOW LINE (TYP)TC=16.8 MINTC FLOW LINE (TYP)TC=12.6 MINSWEET WILLIAM WAY - SR 17742 0 0 200 205 19819819819 8 1 9 9 199 201 201 202 202 203 203 204 204 197 197198199File: C:\Users\DDS2\Desktop\Drafting and Design\2019\2019-23 Winchester Subdivsion\2020.04.22 - Winchester Subdivision CDs.dwg Print Date: 10/16/2020 EROSION CONTROL DRAINAGE AREA MAPDA2Drawn by:Designed by:Reviewed by:Date:Scale:Sheet:Project Number:ofREVISIONS NORTH1"=120'2PROFESSIONAL ENGINEER'S SEAL WINCHESTER SUBDIVISION MTBJRTJRTJULY 24, 2020ROCKFISH ROAD HOKE COUNTY, NORTH CAROLINA 143 Charlotte Avenue, Suite 104Sanford, North Carolina 27330(919) 777-6010 phonewww.jthomasengineering.comlicense no. C-3389AGENCY REVIEW ONLYJ Thomas Engineering, Inc.civil engineering &planningJTE #:DDS#: 2019-231200120240SCALE: 1" = 120'60 APPENDIX D Soil Map—Hoke County, North Carolina Natural Resources Conservation Service Web Soil Survey National Cooperative Soil Survey 7/15/2020 Page 1 of 33871200387130038714003871500387160038717003871800387190038720003872100387220038712003871300387140038715003871600387170038718003871900387200038721003872200676600676700676800676900677000677100677200677300677400677500677600677700677800677900678000678100 676600 676700 676800 676900 677000 677100 677200 677300 677400 677500 677600 677700 677800 677900 678000 678100 34° 58' 37'' N 79° 3' 58'' W34° 58' 37'' N79° 2' 54'' W34° 58' 2'' N 79° 3' 58'' W34° 58' 2'' N 79° 2' 54'' WN Map projection: Web Mercator Corner coordinates: WGS84 Edge tics: UTM Zone 17N WGS84 0 350 700 1400 2100 Feet 0 100 200 400 600 Meters Map Scale: 1:7,490 if printed on A landscape (11" x 8.5") sheet. Soil Map may not be valid at this scale. MAP LEGEND MAP INFORMATION Area of Interest (AOI) Area of Interest (AOI) Soils Soil Map Unit Polygons Soil Map Unit Lines Soil Map Unit Points Special Point Features Blowout Borrow Pit Clay Spot Closed Depression Gravel Pit Gravelly Spot Landfill 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 Sodic Spot Spoil Area Stony Spot Very Stony Spot Wet Spot Other Special Line Features Water Features Streams and Canals Transportation Rails Interstate Highways US Routes Major Roads Local Roads Background Aerial Photography The soil surveys that comprise your AOI were mapped at 1:24,000. Warning: Soil Map may not be valid at this scale. Enlargement of maps beyond the scale of mapping can cause misunderstanding of the detail of mapping and accuracy of soil line placement. The maps do not show the small areas of contrasting soils that could have been shown at a more detailed scale. Please rely on the bar scale on each map sheet for map measurements. Source of Map: Natural Resources Conservation Service Web Soil Survey URL: Coordinate System: Web Mercator (EPSG:3857) Maps from the Web Soil Survey are based on the Web Mercator projection, which preserves direction and shape but distorts distance and area. A projection that preserves area, such as the Albers equal-area conic projection, should be used if more accurate calculations of distance or area are required. This product is generated from the USDA-NRCS certified data as of the version date(s) listed below. Soil Survey Area: Hoke County, North Carolina Survey Area Data: Version 17, Jun 4, 2020 Soil map units are labeled (as space allows) for map scales 1:50,000 or larger. Date(s) aerial images were photographed: Jul 1, 2018—Jul 31, 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. Soil Map—Hoke County, North Carolina Natural Resources Conservation Service Web Soil Survey National Cooperative Soil Survey 7/15/2020 Page 2 of 3 Map Unit Legend Map Unit Symbol Map Unit Name Acres in AOI Percent of AOI BaB Blaney loamy sand, 2 to 8 percent slopes 8.9 3.3% BaD Blaney loamy sand, 8 to 15 percent slopes 9.4 3.5% CaB Candor sand, 1 to 8 percent slopes 29.7 11.0% GoA Goldsboro loamy sand, 0 to 2 percent slopes, Southern Coastal Plain 16.9 6.2% LaB Lakeland sand, 1 to 8 percent slopes 15.3 5.6% NoA Norfolk loamy sand, 0 to 2 percent slopes 64.9 23.9% NoB Norfolk loamy sand, 2 to 6 percent slopes 7.9 2.9% Ra Rains sandy loam, 0 to 2 percent slopes 6.9 2.6% WaB Wagram loamy sand, 0 to 6 percent slopes 110.7 40.9% Wo Woodington loamy sand 0.4 0.1% Totals for Area of Interest 270.9 100.0% Soil Map—Hoke County, North Carolina Natural Resources Conservation Service Web Soil Survey National Cooperative Soil Survey 7/15/2020 Page 3 of 3 APPENDIX E FLOOD HAZARD INFORMATION SPECIAL FLOODHAZARD AREAS OTHER AREAS OFFLOOD HAZARD OTHERAREAS GENERALSTRUCTURES Without Base Flood Elevation (BFE) With BFE or Depth Regulatory Floodway Areas Determined to be Outside the 0.2% Annual Chance Floodplain Non-accredited Levee, Dike, or Floodwall Zone A,V, A99 Zone AE, AO, AH, VE, AR Zone X HTTP://FRIS.NC.GOV/FRIS THE INFORMATION DEPICTED ON THIS MAP AND SUPPORTINGDOCUMENTATION ARE ALSO AVAILABLE IN DIGITAL FORMAT AT NORTH CAROLINA FLOODPLAIN MAPPING PROGRAM FLOOD INSURANCE RATE MAPNORTH CAROLINA PANEL MAP NUMBER MAP REVISED SEE FIS REPORT FOR ZONE DESCRIPTIONS AND INDEX MAP Cross Sections with 1% Annual ChanceWater Surface Elevation (BFE) Coastal Transect OTHERFEATURES Profile Baseline Hydrographic Feature Limit of Study Limit of Moderate Wave Action (LiMWA) Jurisdiction Boundary Accredited or Provisionally AccreditedLevee, Dike, or Floodwall Coastal Transect Baseline SCALE 1 inch = 500 feet Map Projection: North Carolina State Plane Projection Feet (Zone 3200) Datum: NAD 1983 (Horizontal), NAVD 1988 (Vertical) PANEL LOCATOR LOGO LOGO 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. 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 Channel, Culvert, or Storm Sewer 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 MileFuture Conditions 1% Annual Chance Flood HazardArea with Reduced Flood Risk due to LeveeSee Notes Zone X Zone X Zone X 94841:6,000 %,012 18.2 !(8 1980000 FEET 440000 FEET 1980000 FEET 450000 FEET 1990000 FEET 450000 FEET 1990000 FEET 440000 FEET 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. NATIONAL FLOOD INSURANCE PROGRAM))))))))))))ZONE AE ZONE AE ZONE AE ZONE AE ZONE AE Stonewall StC r a b a p p l e L n Braddy RdTrave n C t Vera Bee DrEastfield Dr J a r m o n Ct S av an n ah DrJackson LnAlforodo StCotoneastern Ct Windy Pines Ct Bonney Ln Elnoray DrSwift Creek RdAftonLn Gilabend Dr Sherman Dr Smith St Boahn St DeepCreekLnSyrena DrWhite Pine DrYo v e l DrN C - 1 4 0 6 Grenedine DrTobagoPlRollingPine s Ct Bagdad RdFadingTrailLnSandy Bottom L n BillWrightRd Marcelle DrT o r tol a Dr ETwelveOaksRdFa l l ing T ree Rd Eunice Dr Overton Rd Merganser Pl N Copper Ck Dr YarmouthDrMix Trail Ln Mu m f o r d R d Laura LnHighviewDr Kings Rd H ic kmanCtTyner D r Etheland Dr Doda Dr Jody Ln Briar Hill Rd L a k e rid g e D rGr ana daRdBelle Boyd DrMallerneeRd GurneyLnPrive Rd KingLakeRdWayne LnCorse g a n R d Cayman DrE L a k e R id g e R d KernstownRd Co r de li a CtCleoPlBrushy Hill R dMa p l e H i l l L n StewartsCreekD rMa r s h C t W Twelve Oaks RdMyraRdAmber Ln K in g R dRoc k fi s h R d i143 i096 i124 i083 i035 i022 i065 i049 CITY OFFAYETTEVILLE370077 HOKE COUNTYUNINCORPORATED AREAS370397 CUMBERLAND COUNTYUNINCORPORATED AREAS370076 152.8 153.5 157.1170.6125.3166.2 160.8 157.5170.6145.0160.2 170.5 144.8 143.3 133.0 129.9 139.1 137.6 i086 i094 i106 i016i119i154i054i141 i047GullyBranch GullyBranch GullyBranch StewartsCreek StewartsCreek Stewarts Creek StewartsCreek 79°2'30"W 79°2'30"W 79°3'0"W 79°3'0"W 79°3'30"W 79°3'30"W 79°4'0"W 79°4'0"W 34°59'0"N 34°59'0"N 34°58'30"N 34°58'30"N 34°58'0"N 34°58'0"N MOORE COUNTY SCOTLAND COUNTY ROBESON COUNTY HARNETT COUNTY 8480 9400 9421 9431 9441 9451 9460 8464 8484 8466 8486 9406 9427 9437 9447 9457 9467 9477 9502 9522 9542 9552 8580 9500 9520 9541 9551 956095409550 8479 8488 9408 9428 9448 946884688478 9426 9436 9446 9456 9466 9476 9404 9425 9435 9445 9455 9465 9475 9485 9424 9434 9444 9454 9464 9474 9484 8482 9402 9422 9442 9463 9473 9483 9462 9472 9482 9420 9430 9440 9450 8399 9308 9328 9348 I 0 500 1,000250Feet 0 150 30075 Meters BM5510 D North Carolina Geodetic Survey bench mark BM5510 ? BM5510z National Geodetic Survey bench markContractor Est. NCFMP Survey bench mark Panel Contains: COMMUNITY CID PANEL SUFFIX 9484CUMBERLAND COUNTY 370076 K 9484FAYETTEVILLE, CITY OF 370077 K 9484HOKE COUNTY 370397 K 3710948400K 01/05/07 SITE APPENDIX E © 2020 Google © 2020 Google © 2020 Google SITE APPENDIX E SUPPLEMENT-EZ COVER PAGE FORMS LOADED 1 Project Name Glen Meadow Subdivision - Phase 2 2 Project Area (ac)30.71 3 Coastal Wetland Area (ac) 4 Surface Water Area (ac) 0 5 Is this project High or Low Density? Low 6 Does this project use an off-site SCM? No 7 Width of vegetated setbacks provided (feet) 30 8 Will the vegetated setback remain vegetated? Yes 9 Is BUA other that as listed in .1003(4)(c-d) out of the setback? Yes 10 Is streambank stabilization proposed on this project? No 11 Infiltration System 0 12 Bioretention Cell 0 13 Wet Pond 0 14 Stormwater Wetland 0 15 Permeable Pavement 0 16 Sand Filter 0 17 Rainwater Harvesting (RWH) 0 18 Green Roof 0 19 Level Spreader-Filter Strip (LS-FS) 0 20 Disconnected Impervious Surface (DIS) 0 21 Treatment Swale 0 22 Dry Pond 0 23 StormFilter 0 24 Silva Cell 0 25 Bayfilter 0 26 Filterra 0 FORMS LOADED 27 Name and Title: Jeremy Thomas, PE. - President 28 Organization: J Thomas Engineering, Inc. 29 Street address: 143 Charlotte Avenue, Suite 104 30 City, State, Zip: Sanford, NC 27330 31 Phone number(s): (919) 777-6010 32 Email: jthomas@jthomasengineering.com Certification Statement: Designer ______________________________________________ Signature of Designer ______________________________________________ Date I certify, under penalty of law that this Supplement-EZ form and all supporting information were prepared under my direction or supervision; that the information provided in the form is, to the best of my knowledge and belief, true, accurate, and complete; and that the engineering plans, specifications, operation and maintenance agreements and other supporting information are consistent with the information provided here. PROJECT INFORMATION NUMBER AND TYPE OF SCMs: DESIGNER CERTIFICATION COMPLIANCE WITH 02H .1003(4) Seal DRAINAGE AREAS 1 Is this a high density project?No 2 If so, number of drainage areas/SCMs 4 3 Is all/part of this project subject to previous rule versions? No FORMS LOADED Entire Site 1 4Type of SCM 5 Total BUA in project (sq ft)203039 sf 6 New BUA on subdivided lots (subject to permitting) (sq ft)115500 sf 7 New BUA outside of subdivided lots (subject to permitting) (sf)104039 sf 8 Offsite - total area (sq ft) sf 9 Offsite BUA (sq ft) sf 10 Breakdown of new BUA outside subdivided lots - Parking (sq ft) - Sidewalk (sq ft)8149 sf - Roof (sq ft) - Roadway (sq ft)79390 sf - Future (sq ft) - Other, please specify in the comment box below (sq ft) 11 New infiltrating permeable pavement on subdivided lots (sq ft) 12 New infiltrating permeable pavement outside of subdivided lots (sq ft) 13 Exisitng BUA that will remain (not subject to permitting) (sq ft) 14 Existing BUA that is already permitted (sq ft) 15 Existing BUA that will be removed (sq ft) 16 Percent BUA 15% 17 Design storm (inches) 18 Design volume of SCM (cu ft) 19 Calculation method for design volume 20 Entire Site 1 4 Type of SCM N/A 5 Total BUA from project (sq ft) 6 1995 rules SL 2006-246 2008 rules 2017 rules 7 New BUA on subdivided lots (subject to permitting) (sq ft) 1995 rules SL 2006-246 2008 rules 2017 rules 8 New BUA outside of subdivided lots (subject to permitting) (sf) 1995 rules SL 2006-246 2008 rules 2017 rules 9 Offsite - total area (sq ft) 1995 rules SL 2006-246 2008 rules 2017 rules 10 Offsite BUA (sq ft) 1995 rules SL 2006-246 2008 rules 2017 rules 11 Design storm (inches) 1995 rules SL 2006-246 2008 rules 2017 rules DRAINAGE AREA INFORMATION DRAINAGE AREA INFORMATION ADDITIONAL INFORMATION Please use this space to provide any additional information about the drainage area(s): 12 Breakdown of new BUA: - Parking (sq ft) - Sidewalk (sq ft) - Roof (sq ft) - Roadway (sq ft) - Future (sq ft) - Other, please specify in the comment box below (sq ft) 13 New infiltrating permeable pavement on subdivided lots (sq ft) 14 New infiltrating permeable pavement outside of subdivided lots (sq ft) 15 Exisitng BUA that will remain (not subject to permitting) (sq ft) 16 Existing BUA that is already permitted (sq ft) 17 Existing BUA that will be removed (sq ft) 18 Percent BUA 19 Design volume of SCM (cu ft) 20 Calculation method for design volume 21 Please use this space to provide any additional information about the drainage area(s): ADDITIONAL INFORMATION LOW DENSITY 1 Yes 2 Yes 3 Yes 4 5TO1 5 6 Yes 7 0% 8 2 ft 9 5:1 10 290 ft 11 No 12 No 13 Yes 14 No 15 Swale # Drainage Area (ac) BUA (ac) Pervious area (ac) C Q (cfs) Slope (%) Vallow              (fps) Vactual             (fps)Flow depth (ft) 1 9.47 0.16 9.31 0.35 21.63 0.50 4.56 3.60 1.38 2 --------- - 3 21.79 2.32 19.47 0.30 51.57 0.10 4.56 2.29 1.74 4 2.43 0.57 1.86 0.40 8.07 0.10 4.56 1.36 0.68 5 29.41 1.31 28.10 0.30 57.39 0.60 4.56 4.33 1.82 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 Does project maximize dispersed flow and minimize channelization of flow? Is project below density thresholds set forth in the applicable stormwater rule? DESIGN REQUIREMENTS FOR LOW DENSITY PROJECTS FROM 02H .1003 ADDITIONAL INFORMATION Has the use of piping been minimized per .1003(2)(c)? Are treatment swales used instead of curb outlet swales? Minimum length of curb outlet swale(s) (feet) Maximum side slope of curb outlet swale(s) (H:V) Bottom width of curb outlet swale(s) (feet) Maximum longitudinal slope of curb outlet swale(s) (%) Are curb outlet swales proposed? Maximum velocity in the vegetated conveyances during the 10-year storm? Side slopes of the vegetated conveyances (H:V) Are variations to rule .1003 proposed? Have stormwater outlets been designed to prevent downslope erosion? Is stormwater released at the edge of the setback as dispersed flow? Please use this space to provide any additional information about this low density project: Permit Number:________________ (to be provided by DWQ) Form SW401-Grassed Swale-Rev.4 Parts I and II. Project Design Summary, Page 1 of 2 Project name Contact name Phone number (919) 499-8759 Date Drainage area number Site Characteristics Drainage area 413,384.00 ft2 Impervious area 7,200.00 ft2 Percent impervious 1.7%% Design rainfall depth 3.04 inch Peak Flow Calculations 10-yr storm runoff depth 5.44 in 10-yr storm intensity 5.26 in/hr Post-development 10-yr storm peak flow 14.97 ft3/sec Velocity Maximum non-erosive velocity (peak 10-year storm)4.50 ft/sec Soil characteristics (enter "x" below) Sand/silt (easily erodible)X Clay mix (erosion resistant) Grass Type (enter "x" below) Bermuda Tall fescue X Bahiagrass Kentucky bluegrass Grass-legume mixture Swale type: Fill out one of the options below: Option 1: Curb Outlet Swale:Y (Y or N) Maximum velocity 3.60 OK Side slopes 4.00 :1 Insufficient side slopes. Max is 5:1. Swale length 240.00 ft OK Option 2: Swale Seeking Pollutant Credit ("For-Credit" Swale):(Y or N) Maximum velocity for 10-yr storm ft/sec Side slopes :1 Swale length ft II. DESIGN INFORMATION This form must be filled out, printed and submitted. PD 1 The Required Items Checklist (Part III) must also be filled out, printed and submitted along with all of the required information. July 15, 2020 Winchester Subdivision J Thomas Engineering, Inc - Michael Blakley GRASSED SWALE SUPPLEMENT STORMWATER MANAGEMENT PERMIT APPLICATION FORM 401 CERTIFICATION APPLICATION FORM I. PROJECT INFORMATION Permit Number:________________ (to be provided by DWQ) Form SW401-Grassed Swale-Rev.4 Parts I and II. Project Design Summary, Page 2 of 2 Swale Characteristics Swale Shape: Enter an "x" in the appropriate cell below: Trapezoidal Parabolic V-shaped X Width of the bottom of the swale ft Width of the top of the swale ft Additional Information Is the swale sized for all runoff from ultimate build-out?Y (Y or N)OK Is the BMP located in a proposed drainage easement with a recorded access easement to a public Right of Way (ROW)?Y (Y or N)OK What is the distance from the bottom of the swale to the SHWT?1.00 ft OK What is the ground level elevation?200.00 fmsl What is the elevation of the bottom of the swale?197.00 fmsl What is the SHWT elevation?196.00 fmsl What is the longitudinal slope of the swale?0.50 %OK What is the depth of freeboard?0.62 ft OK Permit Number:________________ (to be provided by DWQ) Form SW401-Grassed Swale-Rev.4 Parts I and II. Project Design Summary, Page 1 of 2 Project name Contact name Phone number (919) 499-8759 Date Drainage area number Site Characteristics Drainage area 1,055,023.00 ft2 Impervious area 101,228.00 ft2 Percent impervious 9.6%% Design rainfall depth 3.04 inch Peak Flow Calculations 10-yr storm runoff depth 5.44 in 10-yr storm intensity 5.26 in/hr Post-development 10-yr storm peak flow 36.83 ft3/sec Velocity Maximum non-erosive velocity (peak 10-year storm)4.50 ft/sec Soil characteristics (enter "x" below) Sand/silt (easily erodible)X Clay mix (erosion resistant) Grass Type (enter "x" below) Bermuda Tall fescue X Bahiagrass Kentucky bluegrass Grass-legume mixture Swale type: Fill out one of the options below: Option 1: Curb Outlet Swale:Y (Y or N) Maximum velocity 2.29 OK Side slopes 5.00 :1 OK Swale length 480.00 ft OK Option 2: Swale Seeking Pollutant Credit ("For-Credit" Swale):(Y or N) Maximum velocity for 10-yr storm ft/sec Side slopes :1 Swale length ft II. DESIGN INFORMATION This form must be filled out, printed and submitted. PD 3 The Required Items Checklist (Part III) must also be filled out, printed and submitted along with all of the required information. July 15, 2020 Winchester Subdivision J Thomas Engineering, Inc - Michael Blakley GRASSED SWALE SUPPLEMENT STORMWATER MANAGEMENT PERMIT APPLICATION FORM 401 CERTIFICATION APPLICATION FORM I. PROJECT INFORMATION Permit Number:________________ (to be provided by DWQ) Form SW401-Grassed Swale-Rev.4 Parts I and II. Project Design Summary, Page 2 of 2 Swale Characteristics Swale Shape: Enter an "x" in the appropriate cell below: Trapezoidal X Parabolic V-shaped Width of the bottom of the swale ft Width of the top of the swale ft Additional Information Is the swale sized for all runoff from ultimate build-out?Y (Y or N)OK Is the BMP located in a proposed drainage easement with a recorded access easement to a public Right of Way (ROW)?Y (Y or N)OK What is the distance from the bottom of the swale to the SHWT?2.00 ft OK What is the ground level elevation?198.00 fmsl What is the elevation of the bottom of the swale?195.00 fmsl What is the SHWT elevation?193.00 fmsl What is the longitudinal slope of the swale?0.10 %OK What is the depth of freeboard?0.26 ft OK Permit Number:________________ (to be provided by DWQ) Form SW401-Grassed Swale-Rev.4 Parts I and II. Project Design Summary, Page 1 of 2 Project name Contact name Phone number (919) 499-8759 Date Drainage area number Site Characteristics Drainage area 105,850.00 ft2 Impervious area 24,983.00 ft2 Percent impervious 23.6%% Design rainfall depth 3.04 inch Peak Flow Calculations 10-yr storm runoff depth 5.44 in 10-yr storm intensity 5.26 in/hr Post-development 10-yr storm peak flow 36.83 ft3/sec Velocity Maximum non-erosive velocity (peak 10-year storm)4.50 ft/sec Soil characteristics (enter "x" below) Sand/silt (easily erodible)X Clay mix (erosion resistant) Grass Type (enter "x" below) Bermuda Tall fescue X Bahiagrass Kentucky bluegrass Grass-legume mixture Swale type: Fill out one of the options below: Option 1: Curb Outlet Swale:Y (Y or N) Maximum velocity 1.36 OK Side slopes 5.00 :1 OK Swale length 290.00 ft OK Option 2: Swale Seeking Pollutant Credit ("For-Credit" Swale):(Y or N) Maximum velocity for 10-yr storm ft/sec Side slopes :1 Swale length ft II. DESIGN INFORMATION This form must be filled out, printed and submitted. PD 4 The Required Items Checklist (Part III) must also be filled out, printed and submitted along with all of the required information. July 15, 2020 Winchester Subdivision J Thomas Engineering, Inc - Michael Blakley GRASSED SWALE SUPPLEMENT STORMWATER MANAGEMENT PERMIT APPLICATION FORM 401 CERTIFICATION APPLICATION FORM I. PROJECT INFORMATION Permit Number:________________ (to be provided by DWQ) Form SW401-Grassed Swale-Rev.4 Parts I and II. Project Design Summary, Page 2 of 2 Swale Characteristics Swale Shape: Enter an "x" in the appropriate cell below: Trapezoidal X Parabolic V-shaped Width of the bottom of the swale ft Width of the top of the swale ft Additional Information Is the swale sized for all runoff from ultimate build-out?Y (Y or N)OK Is the BMP located in a proposed drainage easement with a recorded access easement to a public Right of Way (ROW)?Y (Y or N)OK What is the distance from the bottom of the swale to the SHWT?1.50 ft OK What is the ground level elevation?198.50 fmsl What is the elevation of the bottom of the swale?195.00 fmsl What is the SHWT elevation?193.50 fmsl What is the longitudinal slope of the swale?0.10 %OK What is the depth of freeboard?2.32 ft OK Permit Number:________________ (to be provided by DWQ) Form SW401-Grassed Swale-Rev.4 Parts I and II. Project Design Summary, Page 1 of 2 Project name Contact name Phone number (919) 499-8759 Date Drainage area number Site Characteristics Drainage area 1,281,099.00 ft2 Impervious area 56,992.00 ft2 Percent impervious 4.4%% Design rainfall depth 3.04 inch Peak Flow Calculations 10-yr storm runoff depth 5.44 in 10-yr storm intensity 5.26 in/hr Post-development 10-yr storm peak flow 57.39 ft3/sec Velocity Maximum non-erosive velocity (peak 10-year storm)4.50 ft/sec Soil characteristics (enter "x" below) Sand/silt (easily erodible)X Clay mix (erosion resistant) Grass Type (enter "x" below) Bermuda Tall fescue X Bahiagrass Kentucky bluegrass Grass-legume mixture Swale type: Fill out one of the options below: Option 1: Curb Outlet Swale:Y (Y or N) Maximum velocity 4.33 OK Side slopes 5.00 :1 OK Swale length 550.00 ft OK Option 2: Swale Seeking Pollutant Credit ("For-Credit" Swale):(Y or N) Maximum velocity for 10-yr storm ft/sec Side slopes :1 Swale length ft Winchester Subdivision J Thomas Engineering, Inc - Michael Blakley GRASSED SWALE SUPPLEMENT STORMWATER MANAGEMENT PERMIT APPLICATION FORM 401 CERTIFICATION APPLICATION FORM I. PROJECT INFORMATION II. DESIGN INFORMATION This form must be filled out, printed and submitted. PD 4 The Required Items Checklist (Part III) must also be filled out, printed and submitted along with all of the required information. July 15, 2020 Permit Number:________________ (to be provided by DWQ) Form SW401-Grassed Swale-Rev.4 Parts I and II. Project Design Summary, Page 2 of 2 Swale Characteristics Swale Shape: Enter an "x" in the appropriate cell below: Trapezoidal X Parabolic V-shaped Width of the bottom of the swale ft Width of the top of the swale ft Additional Information Is the swale sized for all runoff from ultimate build-out?Y (Y or N)OK Is the BMP located in a proposed drainage easement with a recorded access easement to a public Right of Way (ROW)?Y (Y or N)OK What is the distance from the bottom of the swale to the SHWT?1.50 ft OK What is the ground level elevation?197.50 fmsl What is the elevation of the bottom of the swale?194.00 fmsl What is the SHWT elevation?192.50 fmsl What is the longitudinal slope of the swale?0.60 %OK What is the depth of freeboard?1.18 ft OK