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Home My WebLink AboutSW8011025_COMPLIANCE_20030103STORMWATER DIVISION CODING SHEET POST -CONSTRUCTION PERMITS PERMIT NO. SW DOC TYPE El CURRENT PERMIT ❑ APPROVED PLANS ❑ HISTORICAL FILE COMPLIANCE EVALUATION INSPECTION DOC DATE YYYYMMDD DETENTION POND ANALYSIS FILENAME: G:IDATAIWPDATAIWQSIPOND1011025.WK1 PROJECT #: SW8 011025 Modification REVIEWER: L. Lewis PROJECT NAME: Rivers Edge POA Facility DATE: 10-Jan-03 Receiving Stream: Shallotte River Class: C Sw HQW Drainage Basin: Lumber Index No. LBR59 15-25-2-(1) Site Area 3.88 acres Drainage Area 435.00 37. square feet Area = 3.16 acres IMPERVIOUS AREAS Rational C Buildings 10061.00 square feet Parking 39634.00 square feet Sidewalks 20984.00 square feet Tennis Courts 29559.00 square feet square feet square feet TOTAL '00z 00',. square feet Rational Cc= 0.05 SURFACE AREA CALCULATION % IMPERVIOUS 72.93% Des. Depth 6 TSS: 90 VOLUME CALCULATION Rational ?* Des. Storm inches inches Rv= 0.71 Bottom 25.77 msl Perm. Pool'msI Design Pool 32.86 msl Design SA 8037 sf Req. Volume 809 cf Prov. Volume 8:122 cf ORIFICE CALCULATION SAIDA Ratio 4.11 % Req. SA 5642 sf Prov. SA ;.086i sf * place a 1" in the box if Rational is used FOREBAY Perm. Pool Volume= 12446 Req. Forebay Volume= 2489.2 Provided Volume= 2516.00 Percent=T.2Q'o SA @ _ Elevation= Avg. Head = 0.51 ft Q2 Area = 1.95 sq. in. Flow Q2, cfs 0.047 cfs Q5 Area = 0.78 sq. in. Flow Q5, cfs 0.019 cfs Orifice Area 1.77 sq. in. No. of Orifices ::;:;:: Q= 0.042 cfs Diameter, inches 0weir HxW in x in Drawdown = 2;2 days COMMENTS Surface Area , Volume and Orifice are within Design Guidelines NARRATIVE for River's Edge POA Facility Shallotte, Brunswick County, NC DESCRIPTION RECEIVED OCT 2 2 2002 DwQ PROJ # S607 011 v2 5 MC-Q/ The site is a 3.88-acre tract located within the River's Edge Golf Club and Plantation Subdivision project, along Copas Road and adjacent to Section 4 & 5 of the development. The proposed development on the site is a Property Owner's Amenity Center with a pool, tennis court, events lawn, and a parking lot. The project was previously submitted and approved for stormwater and erosion control. The proposed POA Facility is relocated to the parcel directly adjacent to the site previously approved. The site incorporates the area previously recorded as Lots 1-5 of Section 5. The site is sparsely wooded with sandy topsoil and grades ranging from 0.5% to 2.0%. The site will be graded to accommodate the purposed plans, however care will be taken to leave as many existing trees as possible and incorporate the trees into the proposed landscaping. Construction is scheduled to begin as soon as all permits and approvals are obtained. STORMWATER MEASURES The stormwater runoff from the site is estimated using the rational method. The site is not located near SA waters, thus the first inch (1") of rainfall is accounted for in the design. The stormwater will collect into one (1) wet detention basin on the site. The stormwater run-off will be directed to the basin by catch basins, drop inlets, and underground piping. EROSION CONTROL MEASURES The attached plans and specifications give the requirements for erosion control measures. Gravel check dams will be located at the two (2) ends of the NCDOT roadside ditch along Copas Road. Silt fence will be located at certain locations on the perimeter of the site. The runoff will be directed to the basin during construction of the site. Gravel inlet protection will be used around the drop inlets, and catch basins until vegetation is established or the area is paved. A gravel construction entrance will be constructed at the entrance from River Village Square in Section 4 and at the access on Laurel Valley Drive. The grading contractor and the developer will provide the maintenance for the erosion control measures. CONSTRUCTION SEQUENCE The Contractor will install the gravel construction entrance prior to begirding any clearing and grading operations. Silt fence and check dams will be installed prior to beginning any clearing and grading operations. The wet detention basin will be constructed immediately after that portion of the site is cleared, and the outlet structure will be installed with outlet piping. Runoff will be directed to the basin during construction. The disturbed areas will be landscaped and seeded upon completion, and as soon as possible. The wet detention basin will be restored to original depth after completion of all other construction. RIVERS EDGE PROPERTY OWNERS AMENITY CENTER (POA FACILITY) Rivers Edge Golf Club and Plantation, Inc. CALCULATIONS AND SUPPORTING MATERIAL FOR STORMWATER DESIGN RECEIVED October 2002 OCT 2 2 2002 _ DWQ �_n PROD # J(iU OU IUZ5 "r Vf/ _ 167 9 z CJ �� ?1,480101MOi Prepared by: East Coast Engineering Company, P.A. Consulting Engineers Shallotte, Forth Carolina 28459 Post Office Box 2469 4918 Main Street Office: 910.754.8029 Rviers Edge POA Wet Detention Basin Calculations East Coast Engineering Company, PA DAH Pond 1 Drainage Area (DA) = 137,435.42 sf or 3.16 ac Impervious Area (IA)= 100237.89 sf 2.30 ac Percent Impervious (I) IAIDA 0.73 or 73% SAIDA; 90% TSS (no vegetative filter req'd) Pond Depth = 6.0 0.0411 or 4.11 % Min. req'd SA @ PP (SAIDA)x(DA) 5,649 sf Min. req'd storage volume Rv = 0.05 + (0.009 x I) = 0.706 Volume = 1 in x (1 ft f 12 in) x Rv x DA 8,090 cf SA provided @ PP Oval Pond Elev = 31.77 6,865 sf Enough SA provided? YES Min, storage depth req'd Min. stora a volume f SA provided PP 1.18 ft Storage depth set at 1.09 ft Elevation of temporary pool 32.86 ft SA @ Temporary pool 8,037 sf Storage volume provided Average of SA @ temp, pool & PP x storage depth 8,151 cf OK Outlet Sizing 0 - 2 day drawdown time Min. req'd storage volume x (1 in. 12 days) 0.047 cfs Q - 5 day drawdown time Min. req'd storage volume x (1 in. 15 da s) 0.019 cfs Height h (112 Min. Storage Depth) 0.55 ft CD Constant 0.6 Required Area for Q-2 A = Qf(C x (2gh) 1) 1.89 in Required Area for Q-5 A = Qf(C x (2gh)") 0.76 in2 Orifice Choosen 1.50 in diameter CHECK Area Provided by Orifice Choosen A = xr 1.77 in Area Provided by Orifice Choosen 0,012 ft The Average head h = 1/2(Temporary Pool depth - 1i2(orifice diameter)) 6.189 in The Average head 0.516 ft Q provided Q = Ca(2gh)12 0.042 cfs OK Emergency Spillway 25 YEAR DISCHARGE: FREES OARD HEIGHT: FREEBOARD ELEVATION: RISER: OUTLET PIPE: 18.01 CFS 3.73 FT 35.5 FT TX2'BOX TWO (2) 12 IN Revision Date: 10/16/02 Rivers Edge POA POND VS. FOREBAY East Coast Engineering Co., PA DAH POND 1 VOLUME TO FOREBAY COMPARISON FOREBAY 2:1 SLOPE BOTTOM SF 485.75 SURFACE SF 1191.31 DEPTH 3 VOLUME 2516 POND DEPTH 16 3:1 SLOPE BOTTOM SF 1 184.78 TOP SF 2481,37 DEPTH 4.33 VOLUME 5772 6:1 SLOPE BOTTOM SF 2481.37 SURFACE SF 5511,28 DEPTH 1,67 VOLUME 6674 TOTAL POND VOLUME 12446 FOREBAY % OF POND 20% Rivers Edge POA Drainage Area to Catch Basin Calculations East Coast Engineering Company, PA DAH Q to CB -1 from DA-1 Drainage Area = 14,044 SF Q to CB-2 from CA-2 Drainage Area = 5,948 SF Drainage Area = 0.32 Acres Drainage Area = 0.14 Acres Design Storm = 10 -YR storm Design Storm = 10 YR storm Surface Acres C- Value f'1 Surface Acres C- Value (1) Asphalt 0.1989 0.95 Asphalt/Rooftop 0.09447 0.95 Concrete 0.0077 0.95 Concrete 0.01319 0.95 Rooftop 0 0.95 Rooftop 0 0.95 Grass 0.12 0.2 Grass 0.03 0.2 Total 'A' 0.32 Total 'A' 0.14 Weighted 'C' 0,680698 Weighted 'C' 0.79132 Tc Length 107 Tc Length 112 To High Elev. 36.5 Te High Elev. 36.5 To Low Elev, 35 Tc Low Elev. 35 Slope 0.014 Slope 0.01339 Tc 1.47 Tc 1.55 To Factor cs1 0.4 Tc Factor tzf 0.4 To wl Factor 0,5892 Tc wl Factor 0.62116 Intensity'r't3t 7.1 Intensity's'{3t 7.1 Qi = C rA 1.5581 cfs Qi = C to 0.76723 cfs Q to 0I-1 from DA-3 Drainage Area = 5,140 SF Q to CB-3 from DA-4 Drainage Area = 9,922 SF Drainage Area = 0.12 Acres Drainage Area = 0.23 Acres Design Storm = 10 -YR storm Design Storm = 10 -YR storm Surface Acres C- Value Surface Acres C- Value r�1 Asphalt 0 0.95 Asphalt 0.17414 0.95 Concrete 0 0.95 Concrete 0.02466 0.95 Rooftop 0.0848 0.95 Rooftop 0 0.95 Grass 0.03 0.2 Grass 0.03 0.2 Total 'A' 0.12 Total 'A' 0.23 Weighted 'C' 0.738904 Weighted 'C' 0.854556 To Length 121 Tc Length 131 To High Elev. 48 Tc High Elev. 37 Tc Low Elev. 35 To Low Etev. 35 Slope 0.1074 Slope 0.01527 To 0.74 Tc 1,67 Tc Factor (2) 0.4 Tc Factor (2) 0.4 To wl Factor 0.2957 Tc wl Factor 0.66636 Intensity 'r't3) 7.1 Intensity'r'�3J 8 Q; = C eA 0.6191 cfs Q; = C!A 1.55726 cfs Q to CB=4'from ;DA-S' Drainage Area = 12,591 SF Q to DI-2 from DA-6.' Drainage Area = 23,981 SF Drainage Area = 0.29 Acres Drainage Area = 0.55 Acres Design Storm = 10 -YR storm Design Storm 1 10 -YR storm Surface Acres C-Value Surface Acres C- Value f'r Asphalt 0.1406 0.95 Asphalt 0.00 0,95 Concrete 0.0457 0.95 Concrete 0.36 0.95 Rooftop 0.0792 0.95 Rooftop 0.07 0.95 Grass 0.02 0.2 Grass 0.12 0.2 Total 'A' 0.29 TotaI'A' 0.55 Weighted 'C' 0.88897 Weighted 'C' 0.787303 Tc Length 130 Tc Length 250 Tc High Elev. 36 Tc High Elev. 35.53 Tc Low Elev. 35 To Low Efev. 33.77 Slope 0.0077 Slope 0.00704 Tc 2.16 To 3.69 Tc Factor czt 0.4 To Factor czy 0.4 To wl Factor 0.8625 Tc wl Factor 1.47657 Intensity'i' (3) 7.1 intensity'P 13) 7 1 Q; = C aA 1.8244 cfs Qi = C rA 3.07737 cfs (1) Table 8.03a; (2) Figure 8.03a; (3y Figure 6.031b of the NCDENR Erosion and Sediment Control Planning and Design Manual. Revision Oate: 10/16/02 Rivers Edge POA Drainage Area to Catch Basin Calculations Q to CB-5 from DA-7 Drainage Area = Drainage Area = Design Storm = Surface Asphalt Concrete Rooftop Grass Total 'A' Weighted 'C' Tc Length Tc High Elev. Tc Low Elev. Slope Tc Tc Factor (2) Tc wt Factor Intensity's' (3) Q; = C iA Q to CB-7'from DA79 Drainage Area = Drainage Area = Design Storm = Surface Asphalt Concrete Rooftop Grass Total 'A' Weighted 'C' Tc Length Tc High Elev. Tc Low Elev. Slope Tc To Factor (2) Tc wl Factor Intensity's' 13) QI=CrA, 7,880 SF 0.18 Acres 10 -YR storm Acres C- Value ry 0.15 0.95 0,02 0.95 0.00 0.95 0.01 0.2 0.18 103 f 35 1 1,41 0.4 7.1 1.1612 cfs 33,721 SF 0.77 Acres 10 -YR storm Acres C-VaLlA0 0.05 0.95 0.58 0.95 0.00 0.95 0.04 0.77 0.2 257 36.5 0.0058 4.C5 0.4 1.6212 7.1 4.9887 U.yU/b32 East Coast Engineering Company, PA DAH Q to CB-6 from DA-8 Drainage Area = SF Drainage Area = Plyo]-YRstorm Acres Design Storm = Surface Acres C- Value Asphalt 0.10 0.95 Concrete 0.01 0.95 Rooftop 0.00 0.95 Grass 0.04 0.2 Total 'A' 0.15 Weighted 'C' 0.750163 Tc Length 80 Tc High Elev. 36.5 Tc Low Elev. 35 Slope 0.01875 To 1.05 Tc Factor (2) 0.4 Tc w/ Factor 0.42114 Intensity's ' (3) 7.1 Q; = C iA 0:77253 cfs (1) Tatle 8.03a; (2) Figure 8,03a; (3) Figure 8.03b of the NCDENR Erosion and Sediment Control Planning and Design Manual. Revision Date: 10/16/02 a a� m v 0 0 0 0 o 0 o 0 C) 0 7� 0 o 0 0 cc rl- 0 0 r O v � �f' u'3 00 N N C C� O .0 a) a) Ox � f C V' r N 0 N M CD V v (D m0 67 0 �t i r O f� ls.) m y 0 Lo 6 N r 0 0 a) n n. _a C U v v U-) U-) LO LO Uo 0 (D O O O O O O O O O C vOi LU LU LU LU W W W W LU — v O O) CD O r N CD m CD NtT Ln tti O O N r— r 0 Lf) M M r m Ln U} C O cu U O O 0 0 0 0 0 7 Q) O CD0 0 Q Go Q 0• ) OM 0 N (0 N co V E L r C7 fti O r T N m 1�r (D 00 n rr� Vf a. U) C 4 Q) L O C O C 0 0 0 0 0 ❑ E u-) Or ON CD CV w O N'r E L 0 a� a) LULU O '2 O d 0 C N Q) a) C L.L 4- E � O Q) Q d o F- �LO F,:o CD LL LL (nU) am ad lL V V a) a) Q Q cz U U V/ CO N 0 CL a) 0) co O m Y O Q) 0) m 0 O P- m C a) E a) U) c C 0 N O w z LU ❑ U z y LL () E 3 o L C C () '— r E .tn O E NL o m U) a) L Q T , co LO N O io w O N i c � C — 4) C c Y co Rivers Edge POA Drainage Area to Catch Basin Calculations East Coast Engineering Company, PA DAH Q to CB-1 from DA-1 Drainage Area = 14,044 SF Q to CB-2 from DA-2 Drainage Area = SF Drainage Area = 0.32 Acres Drainage Area = PM25 Acres Design Storm = 25 -YR storm Design Storm = -YR storm Surface Acres C- Value f'1 Surface Acres C- Value rrl Asphalt 0.1989 1 0.95 AsphaltlRooftop 0.09447 0.95 Concrete 0,0077 0,95 Concrete 0.01319 0.95 Rooftop 0 0.95 Rooftop 0 0.95 Grass 0,12 0.2 Grass 0.03 0.2 Total 'A' 0.32 Total A' 0.14 Weighted 'C' 0.680698 Weighted 'C' 0.79132 Te Length 107 Tc Length 112 Tc High Eiev. 36.5 Tc High Elev. 36.5 Tc Low Elev. 35 Tc Low Elev, 35 Slope 0.014 Slope 0.01339 Tc 1.47 Tc 1.55 Tc Factor IZt 0.4 Tc Factor (2) 0.4 Tc wl Factor 0.5892 Tc w/ Factor 0,62116 Intensity's' (3) 8 Intensity's'"' 8 Q; = C lA 1.7557 cfs Q; = C /A 0.86448 cfs to 01-1 frarri.DA-3 Drainage Area = SF Q to CB-3 from DA-4 Drainage Area = 9,922 SF Drainage Area = P2!5� Acres Drainage Area = 0.23 Acres Design Storm = -YR storm Design Storm = 25 -YR storm Surface Acres C-Value �'� Surface Acres C- Value Asphalt 0 0.95 Asphalt 0,17414 0.95 Concrete 0 0.95 Concrete 0.02466 0.95 Rooftop 0.0848 0.95 Rooftop 0 0.95 Grass 0.03 0.2 Grass 0.03 0.2 Total 'A' 0.12 Total 'A' 0,23 Weighted 'C' C.738904 Weighted 'C' 0.854556 Tc Length 121 Tc Length 131 Tc High Elev. 48 Tc High Elev. 37 Tc Low Elev. 35 Tc Low Elev. 35 Slope 0.1074 Slope 0.01527 Tc 0,74 Tc 1.67 Tc Factor (2) 0.4 Tc Factor (2) 0 4 Tc wl Factor 0.2957 Tc wl Factor 0.66636 Intensity'i' (3) 8 4ntensity'P (3) 8 Q; = C rA 0.6975 cfs Qi = C rA 1.55726 cfs Q.to CB-4 from DA-5 Drainage Area = 12,591 SF Q to. DI-2 from DA-6 Drainage Area = 23,981 SF Drainage Area = 0.29 Acres Drainage Area = 0.55 Acres Design Storm = 25 -YR storm Design Storm = 25 -YR storm Surface Acres C- Value r'! Surface Acres C- Value Asphalt 0,1406 0.95 Asphalt 0.00 0.95 Concrete 0,0457 0.95 Concrete 0.36 0.95 Rooftop 0,0792 0.95 Rooftop 0.07 0.95 Grass 0.02 4.2 Grass 0.12 0.2 Total 'A' 0.29 Total 'A' 0.55 Weighted 'C` 0.88897 Weighted 'C' 0.787303 Tc Length 130 Tc Length 250 Tc High Eiev. 36 Tc High Elev, 35.53 Tc Low Elev. 35 Tc Low Elev. 33.77 Slope 0.0077 Slope 0.00704 Tc 2.16 Tc 3.69 Tc Factor (2) 0A Tc Factor (2) 0.4 Tc wl Factor 4.8625 Tc wl Factor 1.47657 Intensity ' i ' (3) 8 Intensity ' i ' �3) 8 Qi = C rA 2.0557 cfs Q; = C rA 3.46746 cfs (1) Table 8.03a; (2) Figure 8.03a (3) Figure 8,03h of the NCOENR Erosion and Sediment Control Planning and Design Manual. Revision Date: 10/16/02 Rivers Edge POA Drainage Area to Catch Basin Calculations Q to CB-5 from DA-7 Drainage Area = 7,880 SF Drainage Area = 0.18 Acres Design Storm = 25 -YR storm Surface Acres C-Valuef�1 Asphalt 0.15 0.95 Concrete 0.02 0.95 Rooftop 0,00 0.95 Grass 0.01 0.2 Total A' 0.18 Weighted 'C' 0.904038 To Length 103 To High Elev. 36.5 To Low Elev. 35 Slope 0.0146 To 1.41 To Factor Izl 0.4 To wl Factor 0.5639 Intensity ' i ' csr 8 Q, = C rA 1.3083 cfs Q to CB-7 from.DA79 Drainage Area = 33,721 SF Drainage Area = 0.77 Acres Design Storm = 25 -YR storm Surface Acres C-value Asphalt 0.05 0.95 Concrete 00.68 0.95 Rooftop 0.00 0.95 Grass 0.04 0.2 Total 'A' 0.77 Weighted 'C' 0.907632 To Length 257 To High Elev. 36.5 To Low Elev. 35 Slope 0.0058 To 4,05 To Factor (2) w/ Factor 2Intensity's'(31Qi 00,4Tc = CfA 21 cfs East Coast Engineering Company, PA DAH Q to CB-6 from DA-8 Drainage Area = SF Drainage Area =Acres M25 Design Storm =-YR storm Surface Acres C-Valuer' Asphalt 0.10 0.95 Concrete 0.01 0.95 Rooftop 0,00 0.95 Grass 0.04 0.2 Total 'A' 0.15 Weighted 'C' 0.750163 Tc Length 80 To High Elev. 36.5 To Low Elev. 35 Slope 0.01875 To 1.05 To Factor i2j 0.4 To w/ Factor 0.42114 Intensity'i'13j $ QI = CM 0.87045 cfs (1) TabEe 8.03a; (2) Figure 8.03a; (3) Figure 6.03b of the NCDENR Erosion and Sediment Control Planning and Design Manual. 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LU d N ro [0 J 7, �c 0 O• .O C ro 2 c Q7 O O Ln E v Ln a U) c O U N O U L.. 3 E Rivers Edge POA Pipe Sizing, Inverts East Coast Engineering Company, PA DAH ID Contributing DAs I Total Q I Pipe Size I Slope 1 Q MAX I Top CB-1 1 1.56 12 0.0016 1.56 35.98 CB-2 1,2 2.33 12 0.0036 2.33 35.98 DI-1 3 0.62 8 0.0022 0.62 37.00 CB-3 1,2,3,4 6.06 18 0.0028 6.06 36.28 JB-1 1,2,3,4 6.06 18 0.0028 1 6.06 36.60 CB-4 1,2,3,4,5 7.88 18 0.0048 7.88 36.02 DI-2 1,2,3,4,5,6 10.96 24 0.0020 37.63 35.78 CB-5 7 1.16 12 0.0009 1.16 34.94 CB-6 7,8 1.93 12 0.0025 1.93 34.83 CB-7 7,8,9 6.92 18 0.0882 33.78 35.20 Pond Outlet 1-9 17.88 18 n/a n/a 33.87 JB-2 1-9, Offsite n/a 18 0.0050 n/a 36.50 DI-3 Offsite n/a 15 0.0050 n/a 33.25 DI-4 Offsite n/a 15 0.0050 n/a 34.25 DI-5 Offsite n/a 15 0.0050 n/a 34.25 DI-6 Offsite n/a 18 0.0050 n/a 34.25 DI-7 Offsite n/a 15 0.0050 n/a 34.25 DI-8 Offsite nla 15 0,0050 n/a 34.25 Pipe From To Pipe Size Inv In I Slope I Pipe Lengthl Inv Out SD-1 CB-1 CB-2 12 33.26 0,0016 30 33.21 SD-2 CB-2 CB-3 12 33.21 0.0036 97 32.86 SD-3 CB-3 JB-1 18 32.86 0.0028 100 32.58 SD-4 JB-1 CB-4 18 32.58 0.0028 85 32.35 SD-5 CB-4 DI-2 18 32.35 1 0.0048 120 31.77 SD-6 DI-2 POND 24 31.77 0.0234 124 28.87 SD-7 DI-1 CB-3 8 33.24 0.0048 78 32.86 SD-8 CB-5 CB-6 12 32.21 0.0009 135 32.09 SD-9 CB-6 CB-7 12 32,09 0.0025 128 31.77 SD-10 CB-7 POND 18 31.77 0.0853 34 28.87 SD-11 POND JB-2 12 30.68 0.0025 80 30.48 SD-12 DI-3 JB-2 18 30.57 0.0050 17 30.48 SD-13 DI-4 DI-5 15 31.92 0.0016 150 31.17 SD-14 DI-5 DI-6 15 31.17 0.0036 150 30.42 SD-15 DI-7 DI-6 15 31.17 0.0028 150 30.42 SD-16 DI-8 DI-7 15 31.92 0.0028 150 31.17 Revision Date: 10116102 East Coast Engineering Post Office Box 2469 Shallotte, North Carolina 28459 Attention: Mr. David A. Hollis Reference: Infiltration Evaluation Property Owners Association Facility Rivers Edge Golf Club & Plantation ShalIotte, North Carolina Job No: 3564 - 01 Dear Mr, Hollis: 2592 HOPE MILLS ROAD FAYETTEVILLE, NC 28306 910-426-2323 August 14, 2001 RECEIVED MAR 18 2002 DWQ PROJ # Soil Tech Engineering, Inc, has recently conducted an evaluation of the existing site conditions for the development of the Property Owners Facility and parking areas located in the Rivers Edge Golf Club and Plantation on Copas Road in Shallotte, North- Carolina. We conducted an investigation and evaluation of the subsurface soils at the two designated storm water infiltration areas indicated on the provided site sketch, on August 9, 2001. The purpose of our investigation was to determine the suitability of the in -place soils for the discharge and infiltration of stormwater runoff. We investigated the subsurface soils at each location to a depth of six feet below the existing ground surface. We also classified each subsurface strata encountered by 'depth and f)btained representative soils samples of each strata at the designated locations. Selected soil samples were tested in our laboratory for grain size structure in accordance with the American Society for Testing and Materials (ASTM) procedures entitled ASTM D422; 'Particle Size Analysis of Soils". Our sampling indicated that the subsurface soils varied at the two test location investigated. The subsurface soils at location #1, consisted of generally stratas of firm silty sands which were underlain by a relatively free draining sand strata at 36 inches below the upper surface. These silty sands are moderately slow draining soils, which may cause a perched surface condition after heavy storm events or during the wetter months of the year. The lower drainable sand strata extended to the depth we were capable of investigating to using hand tools. We observed groundwater approximately 42 inches below the existing ground surface. Mitration Evaluation Property Owners Association Facility Page Two The subsurface soils at location #2 also consisted of an upper thin strata of silty sand which was underlain by a free draining sand strata, approximately 18 inches below the surface. Below the drainable sand strata, at approximately 48 inches, a second silty sand strata extended to the depth we were capable of investigating to using hand tools. We observed groundwater at approximately 56 inches below the surface. We also conducted an evaluation of the sites existing subsurface infiltration at the two designated locations. The infiltration rate of the in -place soils were determined at a depth of approximately 12 inches below the existing ground surface at location #1 and approximately 24 inches at location 92. The infiltration rate at location 91 was 0.10 inches per minute and 0.3 inches per minute at location 42, based on our analysis. The gray relatively free draining sand strata encountered at a depth of 36 inches, in our opinion, is an indicator of the seasonal high groundwater condition at location #1. We also feel that the gray silty sand strata encountered at 48 inches below the surface at location #2 is an indicator of the seasonal high groundwater condition in that general area. Please find the results of our field and laboratory tests and a sketch indicating the location checked. Please contact us, if you have questions. Very truly yours, SOIL TECH ENGINEERING, INC. Parks A. Downing, Jr. '� , SSIO�y'•• Manager - OQ,:orc� q� r :a S p • r • 4r.• r •. FNG1N•�QP^.•• es Pate, P.E. •. •AM ••S �''ht11114910� PADjr; JP/ad attachments Infiltration Evaluation Property Owners Association Facility Rivers Edge Golf Club & Plantation Shallotte, North Carolina Job No.: 3564 - 01 Date: August 9, 2001 Location Depth Soil Deragription # 1 0" - 12" Gray Silty Fine to Medium SAND (Fill) 12" -18" Orange Black Silty Fine to Medium SAND 18" - 30" Brown Silty Fine to Medium SAND 30" - 36" Tan Silty Fine to Medium SAND 36" - 72" Gray Fine to Medium SAND Groundwater was encountered at 42 " below the existing ground surface. Infiltration Rate : 0.10 inches per minute Test was conducted at 12 inches below the existing ground surface. #2 0" -12" Gray Silty Fine to Medium SAND (Fill) 12" - 18" Brown Silty Fine to Medium SAND 18" - 48" Tan Fine to Medium SAND 48" - 56" Gray Silty Fine to Medium SAND 56" - 72" Gray Fine to Medium SAND Groundwater was encountered at 56" below the existing ground surface. Infiltration Rate : 0.3 inches per minute Test was conducted at 24 inches below the existing ground surface. O I I I I Grain Size Analysis Property Owners Association Facility Rivers Edge Golf Club & Plantaation Shallotte, North Carolina Job No.: 3564 - 01 Location : #1 #1 #1 #2 #2 12" -18" 18" - 30" 36" - 72" 18" - 48" 48" - 56" Sim Size # 1 Q 100.0 100.0 100.0 100.0 100.0 # 40 97.8 96.7 98.9 98.9 98.0 # 80 51.9 49.4 65.1 28.3 40.4 # 200 15.8 18.7 21.3 6.0 22.0 Percent Moisture : 14.3% 22.9% 20.2% 7.5% 20.0% Soil Description: Black Blown Gray Tan Gray Silty Silty Fine to Fine to Silty Fine to Fine to Medium Medium Fine to Medium Medium SAND SAND Medium SAND SAND SAND EM 0Seyt by:EAST COAST ENGINEERI Feb-26-02 0510OPm from 9107548029-)9103502004 page 1 4 East Coast I w Engineering Company, P.A. Consoltina Engineers PAGE 1 OF 5 (including cover) TO, Ms. Linda Lewis of Division of Water Quality � Wilmington Office PJJQNE � (910) 395-3900 FAX 9 (910) 350-2004 DATE: 02/26/02 FROM David A. Hollis EI_l' SUBJECT: SW8 011025 — Rivers Edge POA Center Dear Linda, of. East Coast Engineering Company, P.A. 491 & Main Street Post Office Box 2469 Shallotte, NC 29459 PHONE A 910. 754.8029 FAX N 910.754.8049 In your REQUEST FOR ADDITIONAL INFORMATION under item #3, you state that the basin must be designed for a 2.5" rain event. This far exceeds the 25-3-ear event in the calculations using the rational method provided in the original submittal. The drainage area for basins 3 & 4 is extremely small, both below .038 acres, which results in a iilne of concentration of 0.91 minutes. In the calculation the conservative time of 5 minutes is used and the accumulated storage only reaches 39.14 cubic feet. This is well below the 83 cubic feet needed using the standard I" rain event used in the calculations and provided for in the basins. It is our opinion that the 83-cf volume is sufficient and justified by the calculations provided. 1 hope that this will clarify the issue. Attached are the calculations for the rational method. You state the 2.5" rain event number was determined by certain criteria. Please, provide the information used to determine the 2.5" rain event, or let me know if the rational method used will be sufficient_ 3 2�X 17, Thanks. �5 Hollis Copy: File: 1500.10 Rivers Edge POA Mr, Mark Saunders; Rivers Edge Golf Plantation The information contained in this transmission h privileged, confidential, and is intended only for the use of the individual or entity n2med above. You are not permitted to copy of this communication if you are not the intended recipiVIL riatncd above, or the agent of the recipient authorized to receive this communication, or responsible For delis eying it tri the recipient. If you have received this communication in error, please notify our office by telephone. Tnank you. Sept by:EAST COAST ENGINEERI Feb-26-02 05:01om from 9107548029-�9103502004 Page 2 VJA- �iL L A$ —1 * e r G2-7 �7 _ 4r AT E 2 5 Yf �U r ! VoL.0 Mqu12e� �- x �7-/K 12. 7-9 c4= AQ-E-4,?"vlA.r`.t, aaz. a�z- -5. 1-- P LL {� 20 ✓ f G c ,.. V fJ �3—�>O WA — �N 4-- 1 L- -T7 C-&--Fib P,i ' � D , 10 +x f hi Z�Z7 Z4�-s f?- o.o�-4,-, _5 Sept by:EAST COAST ENGINEERI Feb-26-02 05:01Pm from 910754802949103502004 page 3 Rivers Edge POA Drainage Area #1 Eaitoast Engineering Company, PA Inflow/Outflow Calculations D.A, Hollis Basin Area # 4 Drainage Area = Acres Design Storm = FV5J-YR storm Past -Development 01 Inflow Hydrograph Surface Acres C-Value(`) Pavement 0.023278 0.95 0 0 0 0 0 0 0 0 Other 0.013799 Q.2 Total 'A' 10.037077 Weighted 'C' 0-670879 Tc Length 73 Te High Elev, 37.5 Tc Law Elev. 35.25 Slope 0.030822 Tc 0.81 Tc Factor 1 Intensity's' 121 8 Q; = C iA 0.198994 cfs tp Mr) 5 min Pre 1 Past Development Percentage 0% Storage Required s = P - Qa}tp 0.994971 cis'min 59.69626 cu ft. Proposed Water Quality SA @ PP sf Basin ca U9 wMa • HIM A IN 13®101fl11110 � w Niglio �mill e�M1101e NNNNN1NNmNN1NN1016a99N1 0 � o r ryy Q1 E o"" O It CL CX O �ov�000 � LU Q Q v G � II Il CL S �4 abed bOOZOS£0I6E6Z08b9L0i6 woaS ��oo�a�o�o�gg,�da0000""s" c�c4soaoaao�d 0 OO00000ciocop ooaocao � O G? C 3 (D h 9T u) m 7 iu �c*�cr,c�c�ic*�°c�c°�ie�'ic►�c�s�cac�mcnc�i r t*i In 3 � E c = Q) a4 cp c�aDcgmR1 � W r. W SON yH wdi0:90 ZO-9Z-qaJ I2133N19N3 15tl0O 15tl3:R4 "��a5 Se'i,i by:EAST CORST ENGINEERI Feb-26-02 05:02Pm from 9107548029-)9103502004 Page 5i 5 Rivers Edge PQA `J Pond Calculations Stage -Storage Elevation FT MSL Water Level ft Surface Area SFI Incremental Volume C Accumulative Volume CF 0.1 0.00 292 0 29 0.2 0.10 292 29 29 0.3 0.20 292 58 29 0.4 0.30 292 88 29 0.5 0.40 292 117 Stage -Storage Curve {NVA+. 0.35 j .Rv :- '5'pp > 0.25 U� g r 0.00 0 5Q 100 150 Storage (cu fl) E=-coast Engineering Company, PA EN Stage-Discharve H -Water Level (ft) Ow = CwLH'Jz 0.00 0 0.101 0.00 0.20 0.00 0.30 0_QO 0.40 0.00 Cw ` 3 L = 0.00 Permit No. SWAb l 0 (to be provided by DWQ) State of North Carolina r Department of Environment and Natural Resources Division of Water Quality STORMWATER MANAGEMENT PERMIT APPLICATION FORM INFILTRATION BASIN SUPPLEMENT This form may be photocopied for use as an original DWQ Storii water Management Plan Review: A complete stormwater management plan submittal. includes a stormwater management permit application, an infiltration basin supplement for each system, ,design calculations, soils report and plans and specifications showing all stormwater conveyances and system details. 1. PROJECT INFORMATION Project Name . _ R Me, Edge Pc 3A ..Faci 1 i tV _ — Contact Person: navi ri A EcLi I is Phone Number: ig1 n 75a_Rn29 _ This worksheet applies to: Basin No. 2 in Drainage Area 1 (as identified on plans) (from Form SWU--141) 11. DESIGN INFORMATION - Attach supporting calculations/documentation. The soils report must be based upon an actual field investigation and soil borings. County soil maps are not an acceptable source of soils information. All elevations shall be in feet mean sea level (fmsl). Soils Report Summary Soil Type Infiltration Rate SHWT Elevation Basin Design Parameters Design Storm Design Volume Drawdown Time Basin Dimensions Basin Size Basin Volume Provided Basin Elevations Bottom Elevation Storage Elevation Top Elevation Sanri 18 _ , in/hr or cflllr/sf (circle appropriate units) 30.86 fmsl (Seasonal High Water Table elevation) 1 _ inch (L5 inch event for SA waters, 1 inch event for others) 2457 _ c.f. 0.012 days ft. x y Sri es ft. = 5826 sq. ft. (bottom dimensions) 2452 c.f. frnsl 33.29 finsi 35,no _ fmsI ORIGINAL. Fnrm S%Vi1-In" Rev ; 00 P�--e t o[ III. REQUIRED ITEMS CHECKLIST The following checklist outlines design requirements per the Stormwater Best Management Practices Manual (N.C. Department of Environment, Health and Natural Resources, February 1999) and Administrative Code Section: 15 A NCAC 2H .1008. Initial in the space provided to indicate that the following design requirements have been met and supporting documentation is attached. If the applicant has designated an agent in the Stormwater Management. Permit Application Form, the agent may initial below. Attach justification if a requirement has not been met. Applicants Initials a. System is located 50 feet from class SA waters and 30 feet from other surface waters. b. System is located at least 100-feet from water supply wells. _ c. Bottom of system is at least 2 feet above the seasonal high water table. d. Bottom of the system is 3 feet above any bedrock or impervious soil horizon. e. System is not sited on or in fill material or DWQ approval has been obtained. f. System is located in a recorded drainage easement for the purposes of operation and maintenance and has recorded access easements to the nearest public right-of-way. . g. Drainage area for the device is less than 5 acres. h. Soils have a minimum hydraulic conductivity of 0.52 inches per hour and soils report is attached. C i. System captures and infiltrates the runoff from the first 1.0 inch of rainfall (1.5 inch event for areas draining to SA waters ). Design volume and infiltration calculations attached. j. System is sized to take into account the runoff at the ultimate built -out potential from all surfaces draining to the system, including any off -site drainage. Calculations attached. k. All side slopes stabilized with vegetated cover are no steeper than 3:1 (H:V). 1. A pretreatment device such as a catch basin, grease trap, filter strip, grassed swaic or sediment trap is provided. m. Bottom of the device is covered with a layer of clean sand to an average depth of 4 inches or dense -vegetative cover is provided. n. Vegetated filter is provided for overflow and detail is shown on plans (Required minimum length is 50 feet for SA waters, 30 feet for other waters). o. Flow distribution mechanism within the basin is provided. p. A benchmark is provided to determine the sediment accumulation in the pretreatment device. q. Runoff in excess of the design volume bypasses off-line systems (bypass detail provided). r. System is designed to draw down the design storage volume to the proposed bottom elevation under seasonal high water conditions within five days. A soils report and all pertinent draw -down calculations are attached. s. Plans ensure that the installed system will meet design specifications (constructed or restored) upon initial operation once the project is complete and the entire drainage area is stabilized. Form SbVU-IO4) 1 eJ _�.�9 Paea 2 of Pe=t No. (to be provided by DWQ State of North Carolina Department of Environment and Natural Resources Division of Water Quality STORMWATER MANAGEMENT PERMIT APPLICATION FORM INFILTRATION• BASIN SUPPLEMENT This form may be photocopied for use as an original DWQ Stormwater Management Plan Review: A complete stormwater management plan submittal includes a stormwater management permit application, an infiltration basin supplement for each system, design calculations, soils report and plans and specifications showing all stormwater conveyances and system details. I. PROJECT INFORMATION Project Name: Rivers Edge POA Facility T Contact Person:.DavidA. Hollis _ Phone Number: (910 } 754-8029 This worksheet applies to: Basin No. 3 in Drainage Area 1 (as identified on plans) (from Fonn SWU-I01) II. DESIGN INFORMATION _- Attach supporting calculations/documentation. The soils report must be based upon an actual field investigation and soil borings. County soil maps are not an acceptable source of soils information. All elevations shall be in feet mean sea level (fmsl). Soils Report Summary Soil Type Infiltration Rate in/hr or cf/hr/sf (circle appropriate units) SHWT Elevation 30.86 fmSl (Seasonal High Water Table elevation) Basin Design Parameters Design Storm 1.0 inch (1.5 inch eventfor SA waters, 1 inch event for others) Design Volume 83 c.f. 25 Year Event: W/ No Outlet Drawdown Time 0.024 days Basin Dimensions Basin Size a Basin Volume Provided Basin Elevations Bottom Elevation Storage Elevation Top Elevation Form SWU-103 Rev 3.99 5.85 ft. x 49.85_ ft. = 292 sq. ft. (bottom dimensions) 83 c. f. ir, an fmsl 35-28 ^ fmsl 35.50 fmsl Pair I oI f III. REQUIRED ITEMS CHECKLIST The following checklist outlines design requirements per the Stormwater Best Management Practices Manual (N.C. Department. of Environment, Health and Natural Resources, February 1999) and Administrative Code Section: 15 A NCAC 2H .1008. Initial in the space provided to indicate that the following design requirements have been met and supporting documentation is attached. If the applicant has designated an agent in the Stormwater Management Permit Application Form, the agent may initial below. Attach justification if a requirement has not been met. Applicants Initials a. System is located 50 feet from class SA waters and 30 feet from other surface waters. b. System is located at least 100�eet from water supply wells. ) c. Bottom of system is at least,2 feet above the seasonal high water table. d. Bottom of the system is 3 feet above any bedrock or impervious soil horizon. e. System is not sited on or in fill material or DWQ approval has been obtained. f. System is located in a recorded drainage easement for the purposes of operation and maintenance and has recorded access easements to the nearest public night -of -way. C� g. Drainage area for the device is less than 5 acres. h. Soils have a minimum hydraulic conductivity of 0.52 inches per hour and soils report is attached. i. System captures and infiltrates the runoff from the first 1.0 inch of rainfall (1.5 inch event for areas draining to SA waters ). Design volume and infiltration calculations attached. j. System is sized to take into account the runoff at the ultimate built -out potential from all surfaces draining to the system, including any off -site drainage. Calculations attached. k. All- side slopes stabilized with vegetated cover are no steeper than 3:1 (H:V). 1. A pretreatment device such as a catch basin, grease trap, filter strip, grassed swale or sediment trap is provided. in. Bottom of the device is covered with a layer of clean sand to an average depth of 4 inches or dense vegetative cover is provided_ CL n. Vegetated filter is provided for overflow and detail is shown on plans (Required minimum length is 50 feet for SA waters, 30 feet for other waters). _ o. Flow distribution mechanism within the basin is provided. determine the sediment accumulation in the pretreatment device. p. A benchmark is provided to q. Runoff in excess of the design volume bypasses off-line systems (bypass detail provided). r. System is designed to draw down the design storage volume to the proposed bottom elevation under seasonal high water conditions within five days. A soils report and all pertinent draw -down calculations are attached. s. Plans ensure that the installed system will meet design specifications (constructed or restored) upon initial operation once the project is complete and the entire drainage area is stabilized. form SWU-103 Rev 199 Page 2 of Permit No. Sw � D l ( v 1� (to be provided by DW6 State of North Carolina Department of Environment and Natural Resources Division of Water Quality STORMWATER MANAGEMENT PERMIT APPLICATION FORM INFILTRATION BASIN SUPPLEMENT This form may be photocopied for use as an original DWQStormwater Management Plan Review: A complete stormwater management plan submittal includes_a stormwater management permit application, an infiltration basin supplement for each system,-desip calculations, soils report and plans and specifications showing all stormwater conveyances and system details. I. PROJECT INFORMATION Project Name: _ divers Edge p0a -Fa 'Qility Contact Person: avid A- _xnl l i _ Phone Number. ( 91 ji ) 7r,4_8o2g_ This worksheet applies to: Basin No. 4 in Drainage Area 1 (as identified on plans) (from Fonn 5WU-101) II. DESIGN INFORMATION - Attach supporting calculations/documentation. The soils report must be based upon an actual field investigation and soil borings. County soil maps are not an acceptable source of soils information. All elevations shall be in feet mean sea level (fmsl). Soils Report Summary .i Soil Type Infiltration Rate SHWT Elevation Basin Design Parameters Design Storm Design Volume Drawdown Time Basin Dimensions Basin Size Basin Volume Provided Basin Elevations Bottom Elevation Storage Elevation Top Elevation Sand 6 in/hr or cflhrlsf (circle appropriate units) -yi _ Rfi fmsf (Seasonal High Water Table elevation) 1.0 inch (I.S inch event far SA waters, 1 inch event for others) 83 c.£ 25 Year Event W/ No Outlet _n n9A days 5.85 ft. Y 49.85 fr. = 292 _sq. ft. (bottom dimensions) 83 c.f. is -oo _ f nsl fmsl 35.50 fmsI ORIGINAL Form S` U- 103 Rw 3.99 Pace 1 of III. REQUIRED ITEMS CHECKLIST The following checklist outlines design requirements per the Stormwater Best Management Practices Manual (N.C. Department of Environment, Health and Natural Resources, February 1999) and Administrative Code Section: 15 A NCAC 2H .1008. Initial in the space provided to indicate that the following design requirements have been met and supporting documentation is attached. If the applicant has designated an agent in the Stormwater Management Permit Application Form, the agent may initial below. Attach justification if a requirement has not been met. Applicants Initials a. System is located 50 feet from class SA waters and 30 feet from other surface waters. b. System is located at least 100'feet from water supply wells. gsa> c. Bottom of system is at least 2 feet above the seasonal high water table. NL d. Bottom of the system is 3 feet above any bedrock or impervious soil horizon. e. System is hot sited on or in fill material or DWQ approval has been obtained. f. System is located in a recorded drainage easement for the purposes of operation and maintenance and has recorded access easements to the nearest public right-of-way. g. Drainage area for the device is less than 5 acres. h. Soils have a minimum hydraulic conductivity of 0.52 inches per hour and soils report is attached. i. System captures and infiltrates the runoff from the first 1.0 inch of rainfall (1.5 inch event for areas draining to SA waters ): Design volume and infiltration calculations attached._ j. System is sized to take into account the runoff at the ultimate built -out potential from all surfaces draining to the system, including any off -site drainage. Calculations attached. k. All. side slopes stabilized with vegetated cover are no steeper than 3:1 (H:V). O I. A pretreatment device such as a catch basin, grease trap, filter strip, grassed swale or sediment trap is provided. m. Bottom of the device is covered with a layer of clean sand to an average -depth of 4'inches or dense vegetative cover is provided. n. Vegetated filter is provided for overflow and detail is shown on plans (Required minimurn length is 50 feet for SA waters, 30 feet for other waters). o. Flow distribution mechanism within the basin is provided. P. A benchmark is provided to determine the sediment accumulation in the pretreatment device. q.. Runoff in excess of the design volume bypasses off-line systems (bypass detail provided). r. System is designed to draw down the design storage volume to the proposed bottom elevation under seasonal high water conditions within five days. A soils report and all pertinent draw -down calculations are attached. s. Plans ensure that the installed system will meet design specifications (constructed or restored) upon initial operation once the project is complete and the entire drainage area is stabilized. Form SWLO_i(r3 Paee 2 of NARRATIVE for River's Edge POA Facility Shallotte, Brunswick County, NC DESCRIPTION The site is a 3.24-acre tract located within the River's Edge Golf Club and Plantation Subdivision project, along Copas Road and adjacent to Section 4 of the development. The proposed development on the site is a Property Owner's Amenity Center with a pool, tennis court, events lawn, and a parking lot with 55 spaces. The site is sparsely wooded with sandy topsoil and grades ranging from 0.5% to 2.0%. The site will be graded to accommodate the purposed plans, however care will be taken to leave as many existing trees as possible and incorporate the trees into the proposed landscaping. Construction is scheduled to begin as soon as all permits and approvals are obtained. STORMWATER MEASURES The stormwater runoff from the site is estimated using the rational method. The site is not located near SA waters, thus the first inch (1") of rainfall is accounted for in the design. The stormwater will collect into four (4) infiltration basins on the site. Basins #1 and #2 have bypass off-line systems. Basins 43 and #4 do not have bypass off- line systems and are designed for the 25-year storm event using rainfall data for the area. The stormwater run-off will be directed to the basins by swales. In addition to the swales, drop inlets are used as a pretreatment device. EROSION CONTROL MEASURES The attached plans and specifications give the requirements for erosion control measures. Gravel check dams will be located at the two (2) culverts crossing under Copas Road. Silt fence will be located around the perimeter of the entire site. The runoff will be diverted away from the basins until vegetation is established. Gravel inlet protection will be used around the drop inlets until vegetation is established in the swales. A gravel construction entrance will be constructed at the entrance from River Village Square in Section 4 and at the existing access on Copas Road. The grading contractor and the developer will provide the maintenance for the erosion control measures. CONSTRUCTION SEQUENCE The Contractor will install the gravel construction entrance prior to beginning any clearing and grading operations. Silt fence and check darns will be installed prior to beginning any clearing and grading operations. The infiltration basins will be constructed immediately after that portion of the site is cleared, and the inlet structure with protection will be installed. The disturbed areas will be landscaped and seeded upon completion, and as soon as possible. The infiltration basin will be restored to original depth after completion of all other construction.