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Home My WebLink AboutSW8021024_COMPLIANCE_20030110STORMWATER DIVISION CODING SHEET POST -CONSTRUCTION PERMITS PERMIT NO. SW_�v�./Do�'�-f DOC TYPE ❑CURRENT PERMIT ❑ APPROVED PLANS ❑ HISTORICAL FILE COMPLIANCE EVALUATION INSPECTION DOC DATE li`�� YYYYMMDD DETENTION POND ANALYSIS FILE NAME: G:IDATAIWPDATAIWQSIPOND1021024-2.WK1 PROJECT #: SW8 021024-2 Pond 2 , REVIEWER: L. Lewis PROJECT NAME: Farmstead Subdivision Section I DATE: 10-Jan-03 Receiving Stream: Hickmans Branch Class: C Sw Drainage Basin: Lumber Index No. LBR57 15-23-3 Site Area 312.25 acres Drainage Area 3025; square feet Area = 6.96 acres IMPERVIOUS AREAS Lots Street TOTAL SURFACE AREA CALCULATION % IMPERVIOUS 42.28% Des. Depth 6 TSS: 90 Rational C 91000.00 square feet 37248.00 square feet square feet square feet square feet square feet 28248 40 square feet Rational Cc= 0,12 SAIDA Ratio 2.24% Req. SA 6785 sf Prov. SA 60'8 sf VOLUME CALCULATION * place a "1" in the box if Rational is used Rational ?* Des. Storm :1..:QO:< in Rv= 0.43 Bottom 25 msl Perm. Poo! 31.0 msl Design Pool 32.5 msl Design SA 8634 sf Req. Volume ::; 1088 cf Prov. Volume _ _ _ ..:::.<.;:1::1:69< cf ORIFICE CALCULATION Avg. Head = Flow Q2, cfs Flow Q5, cfs No. of Orifices Diameter, inches Drawdown = •C 1 Perm. Pool Volume= 13457 Req. Forebay Volume= 2691.4 Provided Volume= 2641.00 Percent= 96°lfl SA @ _ Elevation= 0.72 ft Q2 Area = 0.063 cfs Q5 Area = 0.025 cfs Orifice Area >'7< Q= weir H x W days COMMENTS Surface Area , Volume and Orifice are within Design GuidelineE in 2.22 sq. in. 0.89 sq. in. 1.77 sq. in. 0.050 cfs x FFTT in DETENTION POND ANALYSIS FILE NAME: G:IDATAIWPDATAIWQSIPOND1021024-1.WK1 PROJECT #: SW8 021024-1 Pond 1 REVIEWER: L. Lewis PROJECT NAME: Farmstead Subdivision Section I DATE: 10-Jan-03 Receiving Stream: Hickmans Branch Class: C Sw Drainage Basin: Lumber Index No. LBR57 15-23-3 Site Area 31 2. 25 acres Drainage Area 1721 Q square feet Area = 3.94 acres IMPERVIOUS AREAS Rational C Lots 56668.00 square feet Street 38863.00 square feet square feet square feet square feet square feet TOTAL 931< p0' square feet Rational Cc= 0.09 SURFACE AREA CALCULATION IMPERVIOUS 55.63% SA/DA Ratio 3.09% Des. Depth 6 Req. SA 5313 sf TSS: 90 Prov. SA 5622. sf VOLUME CALCULATION Rational ?" Des. Storm ::<:>::>1':>4'': ---.......... inches Rv= 0.55 Bottom 24 msl Perm. Pool ........ 30 GG msl Design Pool 31.4 msl Design SA 7047 sf Req. Volume 784 cf Prov. Volume cf ORIFICE CALCULATION Avg. Head = Flow Q2, cfs Flow Q5, cfs No. of Orifices Diameter, inches Drawdown = 0.67 ft 0.046 cfs 0.018 cfs weir HxW days * place a " T' in the box if Rational is used FOREBAY Perm. Pool Volume= Req. Forebay Volume= Provided Volume= Percent= SA @ _ Elevation= 9749 1949.8 1952,00 20-.0 Q2 Area = 1.66 sq. in. Q5 Area = 0.66 sq. in. Orifice Area 1.23 sq. in. Q= 0.034 cfs in x COMMENTS Surface Area , Volume and Orifice are within Design Guideline: in CURB AND GUTTER ANALYSIS PROJECT NUMBER: PROJECT NAME: RECEIVING STREAM DRAINAGE BASIN: 021024 Farmstead Section I Hickmans Branch Lumber A= BY+MY P= B + 2Y (1 + MA2)A&5 R= A/P FILE: G:IDATAIWPDATAIWQSIC&G1021024 DATE: 10-Jan-03 CLASS: C Sw INDEX: LBR5715-23-3 i, in/hr= 7 n= 0.027 M= 5 FLOWRATE I VELOCITY COMPUTATION Q=CiA <=.05 V=Q/A Swale # DA BUA C Q Slope Velocity acres acres cfs I Lft/� (fps) 1 1.02 0.42 0.52 3.72 0.005 1.63 2 0.55 0.46 0.85 3.28 0.005 1.63 3 0.87 0.67 0.80 4.88 0.01 2.22 4 1.15 0.69 0.67 5.38 0.01 2.36 5 #DIV/O! #DIV/O! #DIV/01 6 #DIV101 #DIV/01 #DIV/O! 7 #DIV/O! #DIV/01 #DIV/O! 8 #DIV/O! #DIV/O! #DIV/O! 9 #DIV/O! #DIV/O! #DIV/O! 10 ` #DIV/O! #DIV/O! #DIV/O! NORMAL DEPTH COMPUTATION SWALE # B Y A P R Zav Zreq 1 5 0.34 2.28 8.47 0.27 0.95 0.95 2 4 0.35 2.01 7.57 0.27 0.83 0.84 3 5. 0.33 2.19 8.37 0.26 0.90 0.88 4 5 0.34 2.28 8.47 0.27 0.95 0.97 5 0.00 0.00 #DIV/O! #DIV/O! #DIV/O! 6 0.00 0.00 #DIV/O! #DIV/O! #DIV/O! 7 0.00 0.00 #DIV/O! #DIV/O! #DIV/O! 8 0.00 0.00 #DIV/O! #DIV/O! #DIV/O! 9 0.00 0.00 #DIV/O! #DIV/O! #DIV/O! 10 0.00 0.00 #DIV/O! #DIV/O! #DIV/O! GRASS COVER SPECIFIED ON PLANS: Bermuda and Bahia ALLOWABLE VELOCITY, fps, for slopes 0%-5%, easily erodible soil: Bermuda 5 Bluegrass 4.5 Fescue 4.5 Legume 3.5 Bahia 4.5 COMMENTS FARMSTEAD SECTION I BRUNSWICK COUNTY, NC STOR.MWATER & EROSION CONTROL CALCULATIONS FOR SITE DEVELOPMENT September 2002 RECEIVED 2.2 2002 DWQ PROJ # SG f 02100 4- Prepared by: East Coast Engineering Company, P.A. Consulting Engineers Shallotte, North Carolina 28459 Post Office Box 2469 1918 Main Street Office: 910.7 i4.8029 Farmstead Section 1 Catch Basin Curb Cut Calculations -Q to'CC-1 from DA-1 SWALE Q to CB-2 from DA-3 Q to CB-4 from DA-5 DA S jr o East Coast Engineering Company, PA DAH Drainage Area = 44,535 SF Q to CB-1 from DA-2 Drainage Area = 42,795 SF Drainage Area = 1,02 Acres Drainage Area = 0.98 Acres Design Storm = 25 YR storm Design Storm = 25 -YR storm Surface Acres C-Valuer'} Surface Acres C-Value r11 AsphaiuRooftop 0.4151 0.95 �► } Asphalt/Rooftop 0.5278 0.95 Grass 0.61 0.2 l/ Grass 0.45 0.2 Total A' 1.0224 �0� Total 'A' 0.98 Weighted 'C' 0.504496 Weighted 'C' 0.602927 Tc Length 460 To Length 320 To High Elev. 38.8 Tc High Elev. 36.5 To Low Elev. 35.86 To Low Elev. 34.51 Slope 0,0064 Slope 0.0062 Tc 6.13 To 4.68 To Factor (2) 0.4 To Factor (2) 0.4 To w/ Factor 2.4509 Tc wl Factor 1.873 Intensity ' i ' (3) 8 Intensity ' i ' (3) 8 Q; = C iA 4.1263 cfs Qi = CIA 4.7387 cfs Drainage Area = 29,970 SF Q to CB-3 from DA-4 Drainage Area =M25 SF Drainage Area = 0.69 Acres Drainage Area = Acres Design Storm = 25 -YR storm Design Storm =-YR storm Surface Acres C- Value f}i Surface Acres C-Value r1 Asphalt/Rooftop 0.5268 0.95 Asphalt/Rooftop 0,5742 0.95 Grass 0.16 0.2 1 Grass 0.83 0.2 Total 'A' 0.688 1 Tote A' 1.4025 Weighted 'C' 0.774249 [� Weighted 'C' 0.507044 Tc Length 320 Tc Length 330 Tc High Elev. 36.5 Tc High Elev, 35.53 To Low Elev, 34,51 Tc Low Efev. 33,71 Slope 0.0062 Slope 0.0055 To 4.68 Tc 5,02 Tc Factor (2( 0.4 Tc Factor (2) 0.4 Tc w/ Factor 1.873 To wl Factor 2.0087 Intensity'i'(3) 7.1 Intensity ' i,(3) 8 Qi = C iA 3.7821 cfs. Q; = CrA 5.6$9 cfs Drainage Area = Drainage Area = 37,863 0.87 SF Acres f _ C2,io.CC-2 from DA-B SWALE Drainage Area = Drainage Area = F2-3-,9-811 SF Acres 1 0.55 Design Storm = 25 -YR storm Design Storm = L25 -YR storm Surface Acres C-Value r11 Surface Acres C-Value r1i Asphalt/Rooftop 0.5643 0.95 Asphalt/Rooftop 0.4601 0.95 Grass 0.30 0.2 Grass 0,09 0.2 Total A' 0.8692 Total 'A' 0.5505 Weighted 'C' 0.686927 Weighted 'C' 0.82684 To Length 330 Tc Length 250 Tc High Elev. 35.53 Tc High Elev. 35.53 Tc Low Elev. 33.71 To Low Elev, 33,77 Slope 0.0055 Slope 0.007 Tc 5,02 To 3,69 To Factor (2) 0.4 Tc Factor (z( 0.4 Tc wl Factor 2.0087 Tc w/ Factor 1.4766 Intensity ' i ' (3) 8 Intensity ' i ' (3) 8 Qi = C iA 4.7767 cfs Qi = C to 3.6416 cfs (1) Table 8.03a; (2) Figure 8.03a; (3) Figure 8.03b of the NCDENR Erosion and Sediment Control Planning and Design Manual. Ravi$ion Date: 9116102 Farmstead Section 1 East Coast Engineering Company, PA Catch Basin Curb Cut DAH Calculations rQ'to"CC-3-from �DA Drainage Area = 37,895 SF Q to CB-5 from DA-8 Drainage Area = 52,139 SF SWALE�� Drainage Area = 0.87 1 Acres Drainage Area = 1.20 Acres Design Storm = Surface 25 -YR storm C-Value "t Design Storm = Surface 25 -YR storm Acres C- Value lr1 Acres Asphalt/Rocftop 0.6733 0.95 Asphalt/Rooftop 0.5724 0.95 Grass 0.20 0.2 Grass 0.62 0.2 Total 'A' 0.8699 P�(1 C Total 'A' 1.1969 Weighted 'C' 0. 804461, Weighted 'C' 0.558637 Tc Length 460 Tc Length 380 To High Elev. 36,87 Tc High Elev. 36.87 Tc Low Elev. 33.76 Tc Low Elev. 35.03 Slope 0.0068 Slope 0,0048 To 6,00 Tc 5.89 To Factor (2) 0.4 Tc Factor l2} 0.4 To wl Factor 2.3984 To wl Factor 2.3542 Intensity ' i' "I 8 Intensity ' i ' (3) 8 Qi = C/A 5,4316 cfs Qi = C rA 5.3493 1 cfs Q to CB-6 from m DA-9 Drainage Area = 101,435 SF Q.to CB-7 from DA-10 Drainage Area = 36,584 SF Drainage Area = 2.33 Acres Drainage Area = 0.84 Acres Design Storm = 25 -YR storm Design Storm = 25 -YR storm rr Surface Acres C- Value f�1 Surface Acres C-Valuef'1 AsphaltlRooftop Grass 0,6234 0,95 0.2 4 v Asphalt/Rooftop Grass 0.371 0.95 1.71 0,47 0.2 (� �cY Total A' 2.3286 1!Q Total 'A' 0.8398 1' Weighted 'C' 0.400168 1 Weighted 'C' 0.531277 Tc Length 383.63 Tc Length 344.44 Tc High Elev. 36,87 Tc High Elev. 36,92 Tc Low Elev, 35.03 Tc Low Elev. 34,21 Slope 0.0048 Slope 0.0079 Tc 5.95 Tc 4.53 Tc Factor {2) 0.4 To Factor (2) 0.4 Tc wl Factor 2.3802 To wl Factor 1,8106 Intensity ' i ' @1 8 Intensity ' i ' (31 8 Qi = C rA 7.4659 cfs Qi = C rA 3.5695 cfs ,Q to CB-8 from DA-11 Drainage Area = 29,855 SF Q to CB-9 from DA-12 Drainage Area = 43,194 SF Drainage Area = 0.69 Acres Drainage Area = 0.99 Acres Design Storm = 25 -YR storm �� Design Storm = 25 -YR storm Surface Acres C-Valuel'1 �1 Surface Acres C- Value f'1 Asphalt)Rooftop 0.443 0.95 Asphalt/Rooftop 0.4736 0.95 rt Grass 0.24 0.2 /"�/ Grass 0.52 0,2 t/ Total A' 0.6854 `/ Total A 0.9916 Weighted 'C' 0.6847861 Weighted 'C' 0,558213 To Length 344.44 Tc Length 443,33 Tc High Elev. 36.92 Tc High Elev. 36.5 Tc Low Elev. 34.21 - Tc Low Elev. 34.19 Slope 0.0079 Slope 0.0052 To 4.53 Tc 6.44 Tc Factor (2) 0.4 Tc Factor (2) 0.4 Tc wl Factor 1,8106 Tc wl Factor -2.5771 Intensity's' (3) 8 Intensity'i' (31 8 Qi = C rA 3.7547 cfs Qi = C rA 4.4282 cfs (1) Table 8.03a; {2) Figure 8.03a; (3) Figure 8.03b of the NCDENR Erosion and Sediment Control Planning and Design Manual. Revision Date: 9116/02 Farmstead Section 1 East Coast Engineering Company, PA Catch Basin Curb Cut DAH Calculations Q to CB-10 from DA-13 Drainage Area = 40,118 SF Q to CC-4 from DA-14 Drainage Area = 50,202 SF Drainage Area = 0.92 Acres Drainage Area = 1.15 1 Acres Design Storm = 25 -YR storm Design Storm = 25 -YR storm Surface Acres C-Value rr1 Surface Acres C-Value r1) Asphalt/Rooftop 0.4609 0.95 Asphalt/Rooftop 0.6877 0.95 Grass 0.46 0.2 Grass 0.46 0.2 J Total A' 0.921 Total 'A' 1.1525 n Weighted 'C' 0.575314 Weighted 'C' 0.647561 vfln Tc Length 443.33 Tc Length 278.05 ` Tc High Elev. 36.5 Tc High Elev. 37.38 Tc Low Elev. 34.19 Tc Low Elev. 35.88 Slope 0.0052 Slope 0.0054 Tc 6.44 Tc 4.44 Tc Factor (2) 0.4 Tc Factor (2t 0.4 Tc wf Factor 2.5771 To wl Factor 1.7755 Intensity'i' (3) 8 Intensity'i' t3) 8 Qi = CM 4.2388 cfs Qi = C rA 5.9704 cfs (1) Table 8.033; (2) Figure 8.03a; (3) Figure 8.03b of the NCDENR Erosion and Sediment Control Planning and Design Manual. Revision gate: 9116/02 Farmstead Section 1 Wet Detention Basin Calculations Pond 1 East Coast Engineering Company, PA DAH Drainage Area (DA) = 171,721 sf or 3.94 ac !m ervious Area (IA)= 95531 sf 2.19 ac Percent Impervious (1) IAIDA 0.56 or 56% SAIDA; 90% TSS (no vegetative filter req'd) Pond Depth = 6.0 0.0312 or 3.12% Min. re 'd SA @ PP (SAIDA)x(DA) 5,357.70 sf Min. req'd storage volume Rv = 0.05 + (0.009 x I) = 0.551 Volume = 1 in x 1 ft 112 in x Rv x DA 7,880.33 cf SA provided 2 PP Oval Pond Elev = 30 5,622 sf Enough SAprovided? YES Min. storage depth req'd Min. storage volume / SA rovided PP 1.40 ft Storage depth set at 1 A ft Elevation of temporaty pool 31.4 ft SA @ TemporaryPoo/ 7,047 sf Storage volume provided Average of SA @ temp. pool & PP x storage depth 8,867.91 cf Outlet Siziri Q - 2 day drawdown time Min. req'd storage volume x (1 in. 12 days) 0.046 cfs Q - 5 daZ drawdown time Min. req'd storage volume x 1 in. 15 days) 0.018 cfs Height h (1f2 Min. Storage Depth) 0.70 ft C , Constant 0.6 Required Area for 0-2 A = Qf(C x (2gh)11) 1.63 in Required Area for Q-5 A = Qf(C x (2gh)17 ) 0.65 in Orifice Choosen 1.25 in CHECK Area Provided by Orifice Choosen A = n 1.23 in Area Provided by Orifice Choosen 0.009 ft The Average head h = 1/2(Temporary Pool depth - 112(orifice diameter)) 8.0875 in The Average head 0.674 ft Q provided Q = Ca(2gh) 112 0.034 cfs OK Emergency Spillway 25 YEAR DISCHARGE: 23.73 CFS FREEBOARD HEIGHT: 1.15 FT FREEBOARD ELEVATION: 32.55 FT RISER: 30 IN OUTLET PIPE: 24 IN (Figure 8, 07b of NCDENR Erosion and Sediment Control Planning and Design Manual) Revision Date: 9I16/02 Farmstead Section 1 Wet Detention Basin Calculations Pond 2 East Coast Engineering Company, PA DAH Drainage Area (DA) = 303,324 sf or 6.96 ac Im ervious Area (!A)= 128248 sf 2.94 ac Percent Impervious (I) IAIDA 0.42 or 42% SAIDA; 90% TSS no vegetative filter re 'd Pond Depth = 6.0 0.0222 or 2.22% Min. re 'd SA @ PP (SA/DA)x(DA) 6,733.80 sf Min. req'd storage volume Rv = 0.05 + (0.009 x 1) = 0.431 Volume = 1 in x(1 ft 1 12 in) x Rv x DA 10.882.45 cf SA provided PP Oval Pond Elev = 31 6,964 sf Enough SAprovided? YES Min, storage depth re 'd Min. storage volume 1 SA provided @ PP 1.56 ft Storage depth set at 1.5 ft Elevation of temporary pool 32.5 ft SA @ TemporaT pool 8,634 sf Storage volume rovided Average of SA @ temp. pool & PP x storage depth 11,698.10 cf OK Outlet Sizing Q - 2 day drawdown time Min. req'd stora e volume x (1 in. 12 days) 0.063 cfs Q - 5 day drawdown time Min. re 'd storage volume x 1 in. 1 5 days) 0.025 cfs Height h 112 Min. Storage Depth) 0.75 ft Co Constant 0.6 Required Area for Q-2 A = QI(C x (2gh)12) 2.17 in Required Area for 0-5 A = QI(C x (2gh)1!) 0.87 in Orifice Choosen 1.50 in CHECK Area Provided by Orifice Choosen A = nr 1.77 in Area Provided by Orifice Choosen 0.012 ft' The Average head h = 1/2(Temporary Pool depth - 112(orifice diameter)) 8.625 in The Average head 0.719 ft Q provided ❑ = Ca(2gh) r 0.050 cfs OK Emergency Spillway 25 YEAR DISCHARGE: 28.81 CFS FREEBOARD HEIGHT: 1.33 FT FREEBOARD ELEVATION: 33.83 FT RISER: 30 IN OUTLET PIPE: 24 IN (Figure 8.07b of NCDENR Erosion and Sediment Control Planning and Design Manual) Revision Date: 9116/02 Farmstead Section 1 POND VS. FOREBAY POND 1 VOLUME TO FOREBAY COMPARIS0�1 FOREBAY 2:1 SLOPE BOTTOM SF 1 361.06 SURFACE SF 940.14 DEPTH 3 VOLUME 1952 East Coast Engineering Co., PA DAFT POND 2 VOLUME TO FOREBAY COMPARISON FOREBAY 2:1 SLOPE BOTTOM SF 1 529,08 SURFACE SF L1231,75 DEPTH 3 VOLUME 2641 POND POND DEPTH © DEPTH 61 3:1 SLOPE 3:1 SLOPE BOTTOM SF 1 88.191 BOTTOM SF 881 TOP SF 1914.43 TOP SF 2729.31 DEPTH 4.33 DEPTH 4.33 VOLUME 4336 VOLUME 6517 6:1 SLOPE 6:1 SLOPE BOTTOM SF 1914.43 BOTTOM SF 2729.31 SURFACE SF 4568 SURFACE SF 5581.75 DEPTH 1.67 DEPTH 1.67 VOLUME 5413 VOLUME 6940 TOTAL POND VOLUME 9749 TOTAL POND VOLUME 13457 FOREBAY % OF POND 20% FOREBAY % OF POND 20% Farmstead Section 1 Pipe Sizing, Inverts East Coast Engineering Company, PA DAH Catch Basin I Contributing DAs I Total Q I Pipe Size I Slope I Q MAX Top CB-1 1 4.74 15 0.005 4.95 34.80 CB-2 1,2 8.52 18 0,006 8.81 34.80 CB-3 3 5.69 15 0.023 10.56 34.00 CB-4 1,2,3,4 23.73 24 0.010 24.50 34.00 Pipe From To Pipe Size Inv In I Slope Pipe Length Inv Out SD-1 CB-1 CB-2 15 31.8 0.005 45 31.58 SD-2 CB-2 JB-1 18 31,48 0.006 211 30.21 SD-3 JB-1 CB-4 18 30.11 0.006 213 28.83 SD-4 CB-3 CB-4 15 31 0.023 95 28.83 SD-5 CB-4 JB-2 24 28.73 0.003 207 28.13 SD-6 JB-2 POND 24 28.03 0.003 1 219 1 27.39 Catch Basin Contributing DAs Total Q Pipe Size Slope Q MAX Top CB-5 8 5.35 15 0.0060 5.42 35.26 CB-6 ._ 8,9 12.82 24 0.0076 21.32 35.26 CB-7 10 3.57 12 0.0100 3.86 34.39 CB-8 10,11 7.32 18 0.0050 8.04 34.39 CB-9 8,9,12 17.24 24 0.0050 17.32 34.37 CB-10 8,9,10,11,12,13 28.81 24 0.0140 28.98 34.37 Pie From To Pipe Size Inv In Slope Pipe Length Inv Out SD-7 CB-5 CB-6 15 32.26 0.0060 25 32.11 SD-8 CB-6 CB-9 24 32.01 0.0076 256 30.07 SD-9 CB-9 CB-10 24 29.97 0.0050 21 29.87 SD-10 CB-7 CB-8 12 31.39 0,0100 21 31.18 SD-11 CB-8 CB-10 18 31.08 0.0050 242 29.87 SD-12 CB-10 JB-3 24 29.77 0.0042 274 28.62 SD-13 JB-3 POND 36 28.52 0.0042 93 28.13 Revision Date: 9116/02 Farmstead Section 1 Catch Basin Calculations Neenah Foundry Curb Inlet Perimeter Provided (ft) Open Area Provided (ft) R-3501-R 5.50 2.64 Catch Basin ID Q (cfs) Min. Permimeter Required (ft) Min. Open Area Required (ft) CB-1 4.74 7.63 1.66 CB-2 3.78 6.09 1.33 CB-3 5.69 9.16 2.00 CB-4 4.78 7.69 1.68 CB-5 5.35 8.61 1.88 C13-6 7.47 12.02 2.62 CB-7 3.57 5.75 1.25 CB-8 3.75 6.05 1.32 CB-9 _ 4.43 7.13 1.55 CB-10 4.24 6.82 1.49 Minimum Permeter = Q /(CH12) where C = 3.0, H = 0.35 Minimum Open Area = Q 1 C x (2gH)1/2 where C = 0.6, H = 0.36, G = 32.2 East Coast Engineering Company, PA DAH Revision Date: 9/26102 NARRATIVE RECEIVED for Farmstead Section 1 OCT 2 2 2002 Brunswick County, NC DWQ DESCRIPTION PROM # C�%�' p2 /0 z The project area is a 38.96-acre tract of the total 470-acre Farmstead Golf Course development located in Brunswick County, NC, near Calabash. It is located off McLamb Road (SR 1301) adjacent to the head of Hickmans Branch (C:Sw waters). The proposed development on the site is a residential development consisting of sixty (60) home sites. The site is cleared with sandy topsoil and grades ranging from 0.5% to 2.0%. The site will be graded to accommodate the purposed plans. Construction is scheduled to begin as soon as all permits and approvals are obtained. STORMWATER MEASURES The stormwater will be treated with a mixture of high -density and low -density stormwater features, but as such, will be classified as a high -density project. The total proposed impervious percentage is 29.98%. The stormwater runoff from the site is estimated using the rational method for a 25-year event using published historical rainfall data for the area. The proposed grading for the lots is such that only a portion will drain toward the roadway curb and gutter. The stormwater run-off from the lots will be directed to the roadway curb and gutter by overland flow. The stormwater will collect into ten (10) catch basins and four (4) curb cuts located along the curbed roadway. The catch basins will route the stormwater to two (2) independent wet detention basins through two (2) independent series of storm drainage pipes, and the curb cuts will direct the stormwater to four (4) independent vegetated swales. The rear of the lots will drain by overland flow with the existing topography of the site away from the roadways. EROSION CONTROL MEASURES The perimeter of the project boundary will be protected from erosion with silt fencing. Vegetation will be established quickly in the swales and around the wet detention basins. Excelsior erosion protection will be used temporarily in the swales to eliminate soil crosion and check dams will be located at the end of the swales. Gravel inlet protection will be used around the catch basins until the roadway curb and gutter is installed and the roadway is paved. The grading contractor and the developer will provide the maintenance for the erosion control measures. CONSTRUCTION SEQUENCE The Contractor will install silt fence prior to beginning any clearing and. grading operations. The wet detention basins will be constructed and runoff will be directed to the basins during grading operation of the lots and the swales. The roadway will be rough graded. The swales will be established and protected with excelsior and check dams. The water and sewer utilities will be installed. The storm drainage features will be installed and inlet protection will be established. The curb and gutter and the roadway will be installed. The disturbed areas will be landscaped and seeded upon completion, and as soon as possible. The wet detention basins will be restored to design specifications after completion of all other construction. PROPOSED DEED RESTRICTIONS AND PROTECTIVE COVENTANTS For FARMSTEAD SECTION 1 LOTS 1-60 L The following covenants are intended to ensure ongoing compliance with State Stormwater Management Permit Number SW8 as issued by the Division of Water Quality under NCAC 214.1000. 2. The State of North Carolina is made a beneficiary of these covenants to the extent necessary to maintain compliance with the stormwater management permit. 3. These covenants are to run with the land and be binding on all persons and parties -claiming under them. 4. The covenants pertaining to stormwater may not be altered or rescinded without the express written consent of the State of North Carolina, Division of Water Quality. 5. Alteration of the drainage as shown on the approved plan may not take place without the concurrence of the Division of Water Quality. 6. The maximum allowable built -upon area per lot is 6500 square feet for Lots 1 — 60. This allotted amount includes any built -upon area constructed within the lot property boundaries, and that portion of the right-of-way between the front lot line and the edge of the pavement. Built upon area includes, but is not limited to, structures, asphalt, concrete, gravel, brick, stone, slate, and coquina, built does not include raised, open wood decking, or the water surface of swimming pools. 7. Filling in or piping of any vegetative conveyances (ditches, swales, etc.) associated with the development except for average driveway crossing, is strictly prohibited by any persons. 8. Each lot will maintain a 30' wide vegetated buffer between all impervious areas and surface waters. 9. All roof drains shall terminate at least 30' from the mean high water mark of surface waters. 10. "Lots within CAMA's Area of Environmental Concern may have the permitted maximum built -upon area reduced due to CAMA jurisdiction with the AEC." DRAINAGE AREA TABLE for Farmstead Golf Course Brunswick County, NC Bassin Information Drainage Area Drainage Area Overall Site - Brunswick County, NC Section 1 - Total Project Area Receiving Stream Name i Hickmans Branch Hickmans Branch Receiving Stream Class C: Sw C: Sw Drainage Area 13,601,520 SF 1,738,336 SF Existing Impervious Area 116,211 SF 15,685 SF ,Proposed Impervious Area 521,165 SF 505,480 SF Impervious Area 1 4.69% 1 29.98% Impervious Surface Area Drainage Area 1 Drainage Area 2 On -Site Buildings 402,350 SF 390,350 SF On -Site Streets 159,324 SF 127,818 SF On -Site Parking 50,104 SF 0 SF On -Site Sidewalks 2,448 SF 0 SF Other On -Site (Cartpaths) 325,074 JSFJ 2,997 SF Off -Site 0 SF 0 SF Total: 1 561,674 JSFJ 521,165 SF Basin Information Drainage Area Drainage Area Drainage Area within Section 1 to Pond #1 Drainage Area within Section 1 to Pond #2 Receivinq Stream Name Hickmans Branch Hickmans Branch Receiving Stream Class C: Sw C: Sw Drainage Area 171721 SF 303325 SF Existing Impervious Area 0 SF 0 SF .Proposed Impervious Area 95531 SF 128248 SF Impervious Area 56% 42% Impervious Surface Area Drainage Area 3 Drainage Area 4 On -Site Buildings 36668 SF 66000 SF On -Site Streets 38863 SF 37248 SF On -Site Parking 0 SF 0 SF On -Site Sidewalks 0 SF 0 SF Other On -Site (Driveway52 20000 SFJ 25000 SF Off -Site 0 JSFJ 0 SF Total: 95531 1 SF 128248 1 SF (D m C cn C W co m 0 U W tm LU Ul (9 Q O Ul O, E 0 0 0 m m CO 0 o a o e a o 0 0 0 0 0 0 0 N m CO 0 0 0 0 0 0 0 0 O N m O m a E w 0 O N w Ln (D M N It N m ca O- Ql N .- N Zo R• L (D r l!"s m L m O co m C) V N E ¢ (o CD P,� (D ui CO _ M ai cn M co O O (2 4 N 0 H � � O z 0 C O �- O U a M mO c!)co(Dh 0 It U O LL N emu?-��Q00 VO' Q; _ (6 (n cm r m N N O m M (11 U C_ N N � (n (D M (f7 (D �o V (D O (0 N V O L, (!] IT m (D (D (D O EA m 4 m m o Q U N N (O+] Cl) N O O En O Y N V O co Ir . a R ri V ni o U) c o � E v o v 0 '- C,+- -Y co N cu 4 Ln m Ln (O O cl N M rn m V) M N (n r O Ln O Lo O m o((°�n COm0Nr-c r" Cc, (9 N LO (r7 ti co r W cc N Lo (n co,-LQ m ¢ 16720p,ririN.6-66 r Cl) (D m m K (D V - r O _ N CON N V (�D v ((o K2 0 c 0 m m `u N m m c f a 00 Q� C- N 4 N C Q coCl) coto N C, 'o 2 0 O m M O m 0 � r N r NM�n(0!-,mmp L D C C G G G C C G G r 3 0 0 0 0 0 0 a 0 0 0 0 Q .C--I-.-.1.12,E 0 0�:-.0 ~O a0i a0i au m N m U 0 V) 0 (A (n V) V) VJ Ln U) 0 C7