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Home My WebLink AboutSW6170802 - Coldstream at Thrower (4)Stormwater Calculations For -Project: Coldstream at Thrower Fayetteville, IVC Owner: A Coldstream Developers, LLC Prepared by: ENGINEERING - SURVEYING - DESIGNING - DRAFTING Larry King & Associates, R.L.S., P.A. P.O. Box 53787 1333 Morganton Road, Suite 201 Fayetteville, North Carolina 28305 P. (9 10) 483-4300 F. (910) 483-4Q52 www.LKandA.com Firm License ##: C-887 P ¢ ` " Coldstream iea' Y Thrower �t•� Y`�r Oir e � SEAL s SEAL P t�X• R O Larry -'E Associates, P.O. Box 53787 1333 Morganton Road, Suite 201 Fayetteville, North Carolina 28305 P. (910) 483-4300 F. (910) 483-4052 www.LKandA.com Firm License #: C-887 Stormwater Narrative Wet Pond Design Criteria Time to Peak Calculations Drawdown Orifice Sizing Calculations Anti -Floatation Device Sizing Calculations Pond Volumes Average Depth Calculations SADA Chart Storm Pipe Sizing Caluclations Gutter Spread Calculations Wet Detention Basin Routing Misc. Erosion Control Calculations Soils Report Site Maps SC -1 SC -2 SC -3 SC -4 SC -5 SC -6 SC -7 SC -8 APPENDIX A APPENDIX B APPENDIX C APPENDIX D APPENDIX E STORMWATER NARRATIVE This project is a proposed 105 lot single-family subdivision on a 68 acre parcel. The parcel is surrounded by rural residential lots, single-family subdivisions and farmland. The project is zoned R-20, will receive water from the Fayetteville Public Works Commission and will be septic tank lots. This project utilizes a wet detention basin to treat stormwater runoff. BMP -1 BMP -4 serves as the treatment device for Phase 2 of the development. BMP -4 accepts 23.40 acres with 7.46 acres of impervious area made up of lots and roadways. The best management practice being utilized is a wet detention basin. The wet detention basin is controlled by a riser and barrel with a drawdown orifice that limits the release of the water quality volume to 2.55 days. DRAINAGE AREA NOTES: TOTAL DRAINAGE AREA-56.87ac (2,477,195 sf) IMPERVIOUS AREAS (TOTAL DRAINAGE AREA) STREETS — 206,070 sf 104 lots * 4000sf/lot = 416,000 TOTAL IMPERVIOUS- 622,070 sf = 14.28 ac _. BMP -1 Routing Results 1 -Yr 10 -Yr 100 -Yr Pre -Development 50.31 cfs 8 1. 01 cfs 108.08cfs Post -Entering Pond 65.67cfs 104.72cfs 138.4cfs Post -Exiting Pond 17.27cfs 24.96cfs 49.44cfs SC -1 ENGINEERING - SURVEYING - DESIGNING - DRAFTING Larry King Associates, R.L.S., P.A. P. (910) 483-4300 www.LKandA.com F. (910) 483-4052 St®rrnwater Wet Pond Design Criteria Project Name: P16-086 Coldstream at Thrower Outlet: BMP -1 Calculate Runoff Coefficient A= 56.87 acres 2,477,195 sf Watershed area Ai= 14.28 acres 622,070 sf Impervious area la= 0.25 Impervious fraction Rv=0.05+0.9*la Rv= 0.28 Runoff Coefficient Calculate Runoff Volume Required to be Controlled Rd= 1 in Design storm rainfall depth (typically 1" or 1.5") V=3630*Rd*Rv*A WQV= 56,977 cf Volume of runoff that must be 15.70 Ac in controlled for specified design storm Calculate Required Pond Surface Area for Permanent Pool Elevation SA/DA= 1.4 Based, - 4 Avg. Perm. Pool Depth **See Table 10-1,10-2,10-3 for SAIDA SA= 0.796 Ac - 34,681 sf Required Surface Area @ Perm Pool SC -2 ENGINEERING - SURVEYING - DESIGNING - DRAFTING Larry King & Associates, R.L.S., P.A. P. (910) 483-4300 www.LKandA.com F. (910) 483-4052 Time to Peak Calculations Project Name: P16-086 Coldstream at Thrower Outlet: BMP -1 Calculate Time to Peak & Volume of Runoff Qp _104.7; cfs DA= Rational C=' P= x.5.70 in (10yr/24hr storm) Cn=ab+cx^d a= 50.82581 b + x^d b= 1.461704 C= 165.6338 d= 1.350661 Cn= 67 x= Rational C S= 4.89 (1000/CN)-10 Q = 2.32 in Tp 54.80 min Volume of Runoff (10 Year Storm) Vol=1.39 * Qp * Tp Vol= 478,640 cf HVdrogra h Shane tc= 17, min Ascending limb= 3.22 Decending limb= 5.38 56.87, acres 0.35 M SC -3 ENGINEERING - SURVEYING - DESIGNING - DRAFTING Larry King & Associates, R.L.S., P.A. P. (910) 483-4300 www.LKandA.com F. (910) 483-4052 Drawdown Orifice Sizinq Calculations Project Name: P16-086 Coldstream at Thrower Outlet: BMP -1 Pond Storage= 64,774,cf Water Quality Volume Pond Depth(h)= 0.13333,,ft HO=H/3 Drawdown Time= -,,-2.5,days 2-5 days Cd 0.6 Coefficient of Discharge (typical 0.6) g= 32.2 ft/sec^2 Gravity The Orifice Equation Q= Cd A Sgrt(2 g h) Rearrange to solve for A, the minimum orifice area needed to meet drawdown requirements Q= 0.30 cfs Based on pond volume and desired drawd6wn time A= 0.17056 sf 24.56 si Number of Orifices Minimum diameter to meet area d= 5.59 inch diameter orifice Use: ' 6"' diameter orifice 0.1963 sf Check Outflow time Q= Cd A Sgrt(2 g h) Q= 0.35 cfs Drawdown time= 2.17 days OK SC -4 Project Name: Outlet: ENGINEERING - SURVEYING - DESIGNING - DRAFTING Larry King & Associates, R.L.S., PA. P. (910) 483-4300 www.LKandA.com F. (910) 483-4052 Anti -Flotation Sizing Calculations P16-086 Coldstream at Thrower BMP -1 Riser Diameter = ° in (circular) Dimensions of Riser= 4! ft Depth of pond = _ Tft _ � Required Factor of Safety = 1:3 Cross Sectional Area of Riser Circular = 0.00 sf Rectangular= 16 sf Volume of Water Displaced Depth of pond * Cross-sectional area 112 cf Weight of Water Displaced (assuming weight of water = 62.4 Ib/cf) 62.4 * Volume of water Displaced 6988.80 Ib Minimum Weight of Anti-Flotaton Device FS * WoW Displaced 9085.44 Ib Riser Base Provided 7 ft x , _ -'`7f x _ �_ _ �1.5'ft (depth) Weight of concrete assumed 150 Ib/cf Weight of Base Provided = 11025.00 lb FS Provided = 1.58 OK SC -5 Project Name: P16-086 Coldstream at Thrower Outlet: BMP -1 ENGINEERING - SURVEYING - DESIGNING - DRAFTING Larry King & Associates, R.L.S., P.A. P (910) 483-4300 www.LKcindA.com F. (910) 483-4052 Pond Volume Calculations Perm Pool Permanent Pool Volume total Stage Elev. Diff Contour Area Incr. Vol. Accum. Vol. (ft) ft) (sf) (c c 143 00 31,924 0 0 144 10 34,386 33,155 33,155 145 10 48,815 41,601 74,756 146 10 52,873 50,844 125,600 147 1.0 57,101 54,987 180,587 147 5 05 59,274 29,094 209,680 148 05 66,779 31.513 241.19A ENGINEERING - SURVEYING - DESIGNING - DRAFTING Larry King & Associates, R.L.S., P.A. P (910) 483-4300 www.LKcindA.com F. (910) 483-4052 Pond Volume Calculations Perm Pool Forebay Volume total Stage Elev. Diff Contour Area Incr. Vol. Accum. Vol. ft ft s(of) c c 143 0 0 0 1 0 0 144 1.0 0 0 0 145 10 11,875 5,938 5,938 146 1.0 13,287 12,581 18,519 147 1.0 14.775 14, 031 32,550 1475 0 5 15,546 7,580 40,130 j48 148 0.5 18,230 8,444 574 ENGINEERING - SURVEYING - DESIGNING - DRAFTING Larry King & Associates, R.L.S., P.A. P (910) 483-4300 www.LKcindA.com F. (910) 483-4052 Pond Volume Calculations Perm Pool Temporary Pool Volume total Stage Elev. Diff Contour Area Incr. Vol. Accum. Vol. ft it s c c 148 00 66,779 0 0 148.5 05 73,542 35,080 35,080 148.9 04 74,929 29,694 64,774 146 10 57,497 55,931 158, ENGINEERING - SURVEYING - DESIGNING - DRAFTING Larry King & Associates, R.L.S., P.A. P (910) 483-4300 www.LKcindA.com F. (910) 483-4052 Pond Volume Calculations Perm Pool 20% 57,325;f Required Perm Pool Elev. Temp Pool Elev fb Main Pool Volume total Stage Elev. Diff Contour Area incr. Vol. Accum. Vol. ft ft s en (c 143 00 48,315 0 0 144 10 51,303 49,809 49,809 145 10 54,364 52,834 102,d432 146 10 57,497 55,931 158, 147 1.0 60,704 59,101 217, 1475 05 62,331 30,759 248 148 05 67,858 32,547 280 20% 57,325;f Required Perm Pool Elev. Temp Pool Elev fb main total 0 31,924 31,924 34,386 34,386 11,875 36,940 48,815 13,287 39,586 52,873 14,775 42,326 57,101 15,546 43,728 59,274 18,230 48,549 66,779 M SC -6 ENGINEERING - SURVEYING - DESIGNING - DRAFTING Larry King & Associates, R.L.S., P.A. P. (910) 483-4300 www.LKandA.com F. (910) 483-4052 Project Name: P16-086 Coldstream at Thrower Outlet: BMP -1 Calculate Average Depth Option 1 Volume of Perm Pool= Cf Area of Perm Pool= sf Calculated Average Depth= #DIV/01 ft Calculate Averaqe Depth Option 2 Area @ Pond Bottom= 31,924 sf Main Pond Only Area @ Bottom of Shelf= 59,274 sf Main and Forebay Area @ Permanent Pool= 66,779 sf Main and Forebay Depth= 5.0 ft Calculated Average Depth= 4.32 ft "'fregeteition rani shown da,,: Average depth of permanent pool to use in the SADA tables (ft) �yarnt_ yool , 'Freebocarcd & hardened Option 1: d°, = emergerngy overj?ow �par»� yO°j not shayivr: sr� *_ �b,:3 p Option 2:, cl=[0, 25,x �1-+-' � + � -� � x Depth 'Side slope stabilized l�� yea 2 per PE jttdpn,6?;t'Vegetated - Temporaryl-,Qol Permanent pool Side slope` .Bottom of vegetated shelf, ,w3.1 Outlet above * , I Forebay Bottom of and Sediment Vegetated I I Side'slo = es 'temporary p`ool'"'" p � , , p . Glean -'out top elevation) slielf , , loft, 10:1 I ; �' 1 Outlet orifice Sediment clean-out bottom elevation ,xwSide slope , r „j r L, �. f'! :',%''sem 1 .,��. -�4„ `�' Fx ,,, ""t ;;..' � , • - x i - a..pa". t a ',,"c t' e=s elfarl:i.o'rY":"r:..<f1.xeAclu<t'ti t ,�: ,,,;, ",c„s.�•; "l:z.•�..,,,,x-4 a'= ;L�' FTa�`e$a,`".>t -r.�. r• ,S^,zsy>,^,. ,, :-',;'`f '`y`,< :r'✓r: r'-iit�-, j. ,�� `� .°�;:.`��.��' r`.-,a,�,ttl• � a� l a1�' � rn sal'sl�� f� i;�clu_da ! � �:�'i�� b. Yr.<x. +%. �}"-''U .eZ, 4;, T"�-t 12M-•V,tAtf �Q.« y''.>1�'RQ9t YA� !4''+L^�{y NZ`•1 Y; \'�� - r -,`. s _� �• 'w�� ;��a`}<}_,��-,5��'�F�k'}fel`r��:�.„c”3.Y�'d'r�i.�+b,`�`-�?��'?:�k,�.�;?AYiC�;°��Yc�1>,kYi�T',seu�#�nF�31�'$t�l=r� a�,fn'�,��'�,t}2:t�'s�rilj+�.•(��": �' "iy Y{� ''",adz fl`M�aiik;i?iirrt lua'}3'ittelF.'F�Jof�elQi:J`" T= .3 `; w r5 .F' ��5,>��,:i�;:-411 ,x'SS. E SC -7 SC -8 Green: Interpolated value not in BMP Manual Percent Impervious Cover 24% 3.0 1.66 3.5 1.50 4.0 1,34 Table 10-3: PiedmontlMountains Permanent Pool Avera e Depth 4.5 5.0 5.5 1 6.0 6.5 17.0 1 1.20 1.16 1.10 1.06 0.98 0.88 90% ft 7.5 0.88 8.0 0.88 8.5 0.78 9.0 0.78 25% 1.70 1.55R�. 1.25 1.20 1.15 1.10 1.00 0.90 0,90 0.90 -0.80 0.80 26% 1.74 1.60 1.46 1.30 1.24 1.20 1.14 1.02 0.92 0,92 0.92 0.82 0.82 27% 1.78 1.65 1.52 1.35 1.28 1.25 1.18 1.04 0,94 0,94 0.94 0.84 0.84' 28% 1.82 1.70 1.58 1.40 1.32 1,30,1. 22 1.06 0.-9610.96 0.96 0.86 0.86 29% 1.86 1.75 1.64 1.45 1.36 1.35 1.26 1.08 0.98 0.98 0,98 0.88 0.88 30% 11.90 1.80 1.70 1.50 1.40 1.40 1.30 1.10 1.00 1.00 1.00 0.90 0.90 31% 1.96 1.85 1.73 1.54 1.44 1.43 1.33 1.15 1.05 1.04 1.03 0.93 0.92 32% 2.02-1.90 1.76 1.58 1.48 1.46 1.36 1.20 1.10 1.08 1..06 0.96 0.94 33% 2.08 1,95 1.79 1.62 1.52 1.49 1.39 1.25 1.15 1,12 1.09 0.99 0.96 34% 2.14 2.00 1.8211.6611:56 1.52 1.42 1.30 1.20 1,16 1.12 1.02 0.98 35% 2,20 2.05 1.85 1.70 1.60 1.55 1.45 1.35 1.25 1.20 1,15 1.05 1.00 36% 2.26 2,10 1.88 -1.7411.64 1.58 1.48 1.40 1.30 1.24 1.-18 1,08 1.02 37% 2.32 2.15 1.91 1.7811 w6 8 1.61 1.51 1.45 1,35 -1.28 1.21 1.11 1.04 38% 2.38 2.20 1.94 1.82 1.72 1.64 1.54 1.50 1.40 1.32 1.24 1,14 1.06 39% 2.44 2.25 1.97 1.86 1.76 1.67 1.57 1.55 1.45 1.36 1.27 1.17 1'.08 40% 2.50 2.30 2.00 1.90 1.80 1.70 1.60 1.60 1.50 1.40 1.30 1.20 1.10 41% 2.55 2.35 2.05 -1.94 1.82 1.72 1.63 1.62 1.52 1.42 1.33 1.23 1.14 42% 2.60 2,40 2:10 1.98 1.84 1.74 1.66 1.64 1.54 1.44 1.36 1.26 1.18 43% 2.65 2.45 2,15 2.02 1.86 1.76 1,69 1.66 1.56 1,46 1.39 1.29 1.22 44% 2.70 2.50 2.20 2.06 1.88 1.78 1,72 1.68 1.58 1.48 1.42 1.32 1.26 45% 2.75 2,55 2.25 2.10 1.90 1.80 1.75 1.70 1.60 1.50 1.45 1.35 1.30- 46% 2.80 2.60 2.30 2,14 1.92 1.82 1,78 1.72 1.62 1.52 1.48 -1.38 1.34 47% 2.85 2.65 2.35 2.18 1.94 1.84 1.81 1,74 1.64 1.54 '1.51 1.41 1.38 48% 2.90 2.70 2.40 2.22 1.96 1.86 1.84 1.76 1.66 1.56 1.54 1.44 1.42 49% 2.95 2.75 2.45 2.26 1.98 1.88 1.87 1.78 1.68 1.58 1.57 1.47 1.46 50% 300 2.80 2.50 2.30 2.00 1.90 1.90 1.80 1.70 1.60 1.60 1.50 1.50 51% 3.05 2.84 2.53 2.34 2.05 1.95 1.93 1.83 1..72 1.63 1.62 1.53 1.52 52% 3.10 2.88 2.56 2.38 2.10 2,00 1:96 1.86 1.74 1,66 1.64 1.56 1.54 53% 3.15 2.92 2.59 2.42 2.15 2.05 1.90 1'.89 1,76 1.69 1,66 1.59 1.56, 54% 3.20 2.96 2.62 2.46 2.20 2.10 2.02 1.92 1.78 1.72 1.68 1.62 1-.58 55% 3.25 3:00 2.65 2.50 2.25 2.15 2.05 1.95 1.80 1.75 1.70 1.65 1.60 56% 3.30 3.04 2.68 2.54 2.30 2.20 2.08 1.98 1.82 1.78 1.72 1.68 1.62 , 57% 3.35 3.08 2.71 2.58 2.35 2.25 2.11 2.01 1.84 1,81 1.74 1.71 1.64' 58% 3.40 3,12 2.74 2.62 2.40 2.30 2.14 2.04 1.86 1.84 1.76 1.74 1.66 59% 3.45 3,16 2.77 2.66 2.45 2.35 2.17 2.07 1.88 1.87 1.78 1.77 1.68 60% 3.50 3.20 2.80 2.70 2.50 2.40 2.20 2.10 1.90 1.90 1.80 1.80 1.70 61% 3.55 3.25 2,85 2.74 2.53 2.43" 2:23 2.13 1.93 1.92 1.82 1.82 1.72 62% 3.60 330 2.90 2.78 2.56 2.46 2.26 2.16 1.96 1.94 1,84 1:84 1.74 63% 3.65 3.35 2.95 2.82 2.59 2.49 2.29 2.19 1.99 1.96 1.86 1.86 1.76 64% 3.70 3.40 3.00 2.86 2.62 2.52 2.32 2.22 2.02 1.98 1.88 1.88 1.78' 65% 3.75 3.45 3.05 2.90 2.65 2.55 2.35' 2:25 2.05 2.00 1.90 1.90 1.80 66% 3.80 3.50 3.10 2.94 2.68 2.58 2.38 2.28 2.08 2.02 1.92 1.92 1:82. 67% 13.85 3,55 3,15 2.98 2.71 2.61 2.41 2.31 2.11 2.04 1,94 1.94 1.84 68% 3.90 3,60 3,20 3.02 2:74 2.64 2.44 2.34 2.14 2,06 1.96 1.96 1.86 69% 3.95 3.65 3,25 3.06 2.77 2.67 2.47 2,37 2.17 2.08 1,98 1,98 1.88 70% 4.00 3.70 3.30 3.10 2.80 2.70 2.50 2.40 2.20 2.10 2.00 2.00 1.90 71% 4-.0513.7413.3513.1412.85 2.73 2.53 2.43 2.24 2.13 2.03 2.01 1.91 SC -8 Hydriflow Plan View C 9 -CBS A� 35 kk lF C562 - C 61 71 65 �� C861 - 0660 9564-4.rm CB64 73 67 861 36 ;` t CS 9 37 CB70 - C 6 72. x'_+70 Project file: Coldstream at Thrower.strn No. Lines: 73 07-18-2017 Hydraflow Storm Sewers 2003 0) (13 CL dh c0 to h (D LO 'V' M N O W W to O LO N M N N C (D (D (D O (D O (fl O O M M co Cl) Cl) M co Cl) M M M J m U m U m U m U m U m U m U m U m U m U 00 U m U m U m U m U m U m U m U m U m U m U O (3) 00 h (O U) It Cl) N O O W h O LO V M N O I� h O (D (D O O M O (D (D V' Cl) Cl) M M M Cl) M V M N CD In to m m 00 m m 00 m m m no m m m m m m m m °T° U U U U U U U U U U U U U U U U U U U U U n O _ W (D N (D Ce) N M h h V V (D tO M V r r It O O O) Q) C E O OO r tO W r O N V O q) til O 6 N N 6 co co 4 N N LO to (O Uo to LO I` U) (D to O U') to U) to LO Uj U) LO to Uj to U) to LO U7 to to tO LO tO U7 to tO LO to tO g U) (] r r T r r r r T r N N Y O O O O O O O LO O O O O LO O O O O O O to O O O O 0 o O O o O LO (• M O CD LO O r o to O to V T r r T r O T r r r r r T r T T r r T r r 3^ M M M Cl) Cl) M Cl) Cl) Cl) M M M M M M Cl) M Cl) M CO Cl) C O O O O O O O O O O O O O O O O O O O O O > O O O O O O O O O O O O O O O O O O O O O M h rL O m U N d .fl E a J N tr+ tO to Ln to c0 co to U) O0 tO U) co OO 00 M M M (0 ,a. 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() () () (D () o o () (D 0 0 0 0 0 () (D 0 () o o (> n n o n o n n o .o .o m -0 n C o a o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 = o o o U U D U ami m � to O to o O CD N OO Lo Ntn N h tT L d e y 0) O h 6 -tO N v O 6 O d' N O to D) O O O N N O C7 O W W 9i O 'V' O) m - F- m d! ^ to to to toN M O V; to O to to Cn CD, r E C 00 00 co co V 0 O O 00 to 0) M 00 M r CO (n O O N Q) J N N N N T r r T 00 N tT r N N r N N r M N M �) N .d C O to It co r O d' M NO 00 to O CO h O to <t M CO M N M M U ' T V' V V � V' Cl) Cl) co Cl) M Cl) M U_ U C N O D) co r (D tO T M NO O) (A r Co tO V' M N tD O J to to to V <i' Ir Nr V' d V' -t co co M M M M Cl) M 4. Page 3 Line Alignment Flow Data Physical Data Line ID No. Dnstr Line DO Junc Known Drng Runoff Inlet Invert Line Invert Line Line N J -loss Inlet/ line length angle type Q area coeff time Ei Dn slope EI Up size type value coeff Rim El No. (ft) (deg) (cis) (ac) (C) (min) (ft) (°/,) (ft) (in) (n) (K) (ft) 31 30 28.5 0.0 Comb 0.00 048 0.42 5.0 148.60 0.25 148.67 42 Cir 0.013 1.50 155.67 CB46 - CB45 30 29 239.2 -26.1 Comb 0.00 039 0.42 50 148.00 025 14860 48 Cir 0 013 1.50 155.67 CB45 - DI 44 29 28 124.3 26.2 DrGrt 0.00 0.21 0.42 50 147.69 0.25 148.00 48 Cir 0.013 0.70 153.20 D144 - D131 28 End 244.6 89.0 DrGrt 0.00 2.15 0.42 5.0 145.91 0.24 146.50 54 Cir 0.013 1.50 152.20 D131 - HW30 27 24 285 -95.0 Comb 0.00 022 0.42 5.0 151.09 0.35 151.19 15 Cir 0.013 1.00 154.59 CB27 - CB24 26 25 28.5 -90.1 Comb 0.00 022 0.42 5.0 151.81 039 151.92 15 Cir 0.013 1.00 154.84 CB26 - CB25 25 24 1347 -5.8 Comb 000 1.10 0.42 5.0 151.09 0.35 151.56 18 Cir 0.013 1.50 154.84 CB25 - C624 24 23 132.7 -19.8 Comb 000 0.53 0.42 5.0 150.13 0.35 150.59 24 Cir 0.013 1 50 154.59 CB24 - CB23 23 22 70.3 32.8 Genr 0.00 0.71 042 5.0 149.88 0.36 150.13 24 Cir 0.013 0.70 154.34 CB23 - CB22 22 21 182.8 21.3 Comb 0.00 1.73 0.42 5.0 148.63 0.41 149.38 30 Cir 0 013 0.70 153.77 C822 - DI 21A 21 End 31.7 134.0 MH 0.00 0.00 0.42 5.0 148.59 0.13 148.63 30 Cir 0.013 0.45 153.75 D121A- HW21 20 15 28.4 89.9 Comb 000 0.68 042 5.0 151.08 0.39 151.19 15 Cir 0.013 1.00 15459 CB14 - CB11 19 14 28.6 90.0 Comb 0.00 2.03 0.42 7.0 149.63 -0.39 149.52 15 Cir 0.013 1.00 154.04 CB15 - CB12 18 13 286 83.5 Comb 0.00 1 11 0.42 5.0 150.97 0.39 151.08 15 Cir 0.013 1.00 154.48 CB16 - CB13 17 16 28.5 87.6 Comb 0.00 1.10 0.42 50 151.81 0.39 151.92 15 Cir 0.013 1.00 155.32 CB9 - CB -10 16 15 145.6 -0.1 Comb 000 0.22 0.42 5.0 151.08 0.50 151.81 15 Cir 0.013 1.50 155.32 C810 - CB11 15 14 109.6 0.0 Comb 0.00 0.13 0.42 5.0 149.95 1.03 151.08 24 Cir 0.013 1.50 15459 CB11 - CB12 14 13 87.0 -6.6 Comb 0.00 0.07 0.42 5.0 148.92 030 149.18 30 Cir 0.013 1.50 154.04 CB12 - CB13 13 2 152.1 -96.7 Comb 0.00 0.13 042 5.0 148.46 0.30 148.92 30 Cir 0.013 1 50 154.48 CB13 - CB3 12 6 28.5 81.0 Comb 0.00 0.41 042 5.0 151.68 0.39 151.79 15 Cir 0.013 1 00 155.19 CB20 - C87 11 5 28.5 90.0 Comb 000 0.66 3 0.42 5.0 151.64 0.39 151.75 15 Cir 0.013 1.00 155.15 CB19 - C86 Project File: Coldstream at Thrower.stm Number of lines: 73 Date: 07-18-2017 Hydraflow Storm Sewers 2003 b Page 4 Line Alignment Flow Data Physical Data Line ID No. Line DO Junc Known Drng Runoff Inlet Invert Line Invert Line Line N J -loss Inlet/ line 7(ft)Dnstr length angle type Q area coeff time EI Dn slope EI Up size type value coeff Rim EI No, (deg) (cfs) (ac) (C) (min) (ft) (%) (ft) (in) (n) (K) (ft) 10 4 28.5 20.6 Comb 0.00 0.32 0.42 5.0 151.35 0.39 151 46 15 Cir 0.013 1.00 154.86 CB18 - CB5 9 2 153.1 98.3 Comb 0.00 0.36 0.42 5.0 151.51 0.30 151 97 15 Cir 0 013 1.00 155.37 CB17 - CB3 8 7 29.3 83.7 Comb 0.00 1.67 0.42 7.0 151.18 0.41 151.30 15 Cir 0.013 1.00 15500 CB16 - CB8 7 6 161.2 -12.1 Comb 0.00 1.22 0.42 5.0 14992 0.50 150.73 24 Cir 0.013 1.50 155.00 CB8 - CB7 6 5 172.2 -6.7 Comb 0.00 1.10 0.42 50 149.34 0.34 149.92 30 Cir 0.013 1.50 155.19 CB7 - CB -6 5 4 95.0 -69.4 Comb 000 0.38 0.42 5.0 148.99 0.37 149.34 30 Cir 0.013 1.50 155.15 CB6 - CB -5 4 3 123.3 74.4 Comb 0.00 0.10 0.42 5.0 148.56 0.35 148.99 30 Cir 0.013 1.25 154.86 CB5 - CB4 3 2 28.5 -0.1 Comb 0.00 1 11 0.42 5.0 148.46 0.35 148.56 30 Cir 0.013 1.25 154.65 CB4 - CB3 2 1 244.3 -4.7 Comb 0.00 0.43 0.42 5.0 146.61 0.35 147.46 42 Cir 0.013 1.50 154.65 C133 - D12 1 End 322.3 -1795 DrGrt 0.00 0.78 0.42 5.0 145.47 0.35 14661 42 Cir 0.013 0.50 155.00 D12 - HW1 i Project File: Coldstream at Thrower.stm Number of lines: 73 Date: 07-18-2017 Hydraflow Storm Sewers 2003 Page 1 Station Len Drng Area Rnoff Area x C Tc Rain Total -Cap Vel Pipe Invert Elev HGL Elev Grnd / Rim Elev Line ID coeff (1) flow full Line To Incr Total Incr Total Inlet Syst Size Slope Up Dn Up Dn Up Dn Line (ft) (ac) (ac) (C) (min) (min) (in/hr) (cfs) (cfs) (ft/s) (in) (%) (ft) (ft) (ft) (ft) (ft) (ft) 73 63 28.5 0.99 0.99 0.42 0.42 0.42 50 50 8.0 3.33 4.01 2.72 15 0.39 150.24 150.13 154.32 154.25 155.96 155.96 CB71 - CB61 72 69 28.5 022 0.22 0.42 0.09 0.09 50 5.0 8.0 074 453 060 15 0.49 153.42 153.28 155.55 155.55 156.82 156.82 CB70 - CB67 71 67 93.5 0.26 0.26 0.42 0.11 0.11 5.0 5.0 8.0 088 4.58 0.71 15 0.50 152.76 152.29 154.81 154.79 156.16 155.47 CB69 - CB65 70 69 72.6 0.47 0.47 0.42 020 0.20 5.0 5.0 8.0 1 58 4.08 129 15 0.40 154.13 153.84 155.59 155.55 157.53 156.82 CB68 - CB67 69 68 72.6 0.83 1.52 0.42 0.35 0.64 5.0 5.9 7.7 492 7.39 2.78 18 050 153.12 152.76 155.37 155.21 156.82 156.13 CB67 - CB66 68 67 92.7 0.35 1.87 0.42 0.15 0.79 5.0 6.4 7.6 595 6.27 3.37 18 0.36 152.76 152.43 155.09 154.79 156.13 15547 C866 - CB65 67 66 28.5 0.98 3.11 0.42 0.41 1.31 50 7.2 7.3 9.57 24.30 1 95 30 0.35 151.17 151.07 154.70 154.69 155.47 15547 CB65 - CB64 66 65 53.9 0.24 3.35 0.42 0.10 1.41 5.0 7.4 7.3 10.22 24.34 2.08 30 0.35 151.07 150.88 154.61 154.58 155.47 155.24 CB64 - CB63 65 64 28.5 1.56 4.91 0.42 0.66 2.06 7.0 7.8 7.1 14.74 39.50 2.09 36 0.35 150.54 150.44 154.50 15449 155.24 155.24 CB63 - CB62 64 63 153.5 0.91 5.82 0.42 0.38 2.44 5.0 8.1 7.1 17.32 29.97 2.45 36 0.20 150.44 150.13 154.35 154.25 155.24 155.96 C862 - CB61 63 35 161.0 1.09 7.90 0.42 0.46 3.32 5.0 9.1 6.8 2266 4485 2.36 42 020 15013 149.81 154.12 154.04 155.96 156.78 CB61 - CB50 62 60 53.2 0.50 0.50 0.38 019 0.19 5.0 5.0 8.0 1.52 4.60 1.27 15 0.51 151.85 151.58 152.99 152.97 155.25 155.04 C640 - CB38 61 60 61.9 0.44 0.44 0.38 0.17 017 5.0 5.0 8.0 1 34 4.57 1.21 15 0.50 152.03 151 72 152.99 152.97 15543 155.04 CB39 - CB38 60 57 285 0.97 1.91 0.42 0.41 0.76 5.0 5.9 7.7 5.89 7.36 346 18 0.49 151.33 151.19 15268 152.61 155.04 155.04 C638 - CB35 59 58 28.5 0.83 0.83 0.42 035 0.35 5.0 5.0 8.0 2.79 401 2.44 15 0.39 152.11 152.00 153.18 153.14 155.51 155.51 CB37 - CB36 58 57 60.6 0.27 1.10 0.42 0.11 0.46 5.0 5.2 7.9 3.67 4.62 3.98 15 0.51 152.00 151 69 152.84 152.61 155.51 155.04 CB36 - C835 57 53 303.1 0.20 3.21 0.42 0.08 1.31 5.0 6.1 7.7 10.04 13.38 3.46 24 0.35 150.69 149.63 152.29 151 73 155.04 154.89 CB35 - CB32 56 55 28.5 1.41 1.41 0.38 0.54 0.54 7.0 70 7.4 395 6.52 2.35 18 0.39 151.50 151.39 152.82 152.80 155.20 155.20 C634 - CB33 55 53 330.0 0.35 1.76 0.42 0.15 0.68 5.0 72 7.3 5.00 7.43 3.20 18 0.50 151.39 149.74 152.50 151.73 15520 154.89 CB33 - CB32 54 53 28.5 1.51 1.51 038 0.57 0.57 50 5.0 8.0 4.60 652 3.99 18 039 151.19 151 08 152.12 152.01 154.89 154.89 C841 - CB32 53 2$ 292.2 0.43 6.91 0.42 0.18 2.75 5.0 92 6.8 18.71 22.51 5.13 30 0.30 149.38 148.50 151.12 150.24 154.89 152.20 CB32 - CB31 Project File: Coldstream at Throwecstm Number of lines: 73 Run Date: 07-18-2017 NOTES: Intensity = 107.51 / (Inlet time + 15.00) " 0.87; Return period = 10 Yrs. Hydraflow Storm Sewers 2003 ',., � I. �� ,, i ^r .� �"'!. - ',✓'�` �.° a °.is ,.��.� .e :r' ;..i '� Page 2 Station Len Drng Area Rnoff Area x C Tc Rain Total Cap Vel Pipe Invert Elev HGL Elev Grnd / Rim Elev Line ID coeff (1) flow full Line To Incr Total Incr Total Inlet Syst Size Slope Up On Up On Up On Line (ft) (ac) (ac) (C) (min) (min) (in/hr) (cfs) (cfs) (ft/s) (in) (%) (ft) (ft) (ft) (ft) (ft) (ft) 52 45 28.5 0.15 0.15 0.42 0.06 0.06 5,0 5.0 8.0 0.51 4.01 0.70 15 0.39 155.28 155.17 155.94 155.94 158.68 158.68 CB74 - CB55 51 44 235 089 0.89 042 0.37 0.37 5.0 5.0 8.0 3.00 4.53 2.44 15 0.49 153.08 152.94 154.74 154.68 156.48 156.48 CE72 - CB59 50 48 28.5 0.17 0.17 0.42 0.07 0.07 5.0 5.0 8.0 0.57 419 1.30 15 0.42 156.05 155.93 156,49 156.48 159.45 159.45 CB57 - CB56 49 47 28.5 0.20 0.20 042 0.08 0.08 5.0 5.0 8.0 0.67 4.01 1.24 15 0.39 154.76 154.65 155.28 155.28 158.16 158.16 CB73 - CB60 48 45 141.2 0.12 0.29 0.42 0.05 0.12 5.0 6.0 7.7 0.94 4.74 2.03 15 0.54 155.93 155.17 15632 15594 159.45 15868 CB56 - CB55 47 44 143A 0.13 0,33 0.42 0.05 0.14 50 5.9 7.7 1.07 4.58 2.20 15 0.50 154.65 153.93 155.06 154.68 15816 156.48 CB60 - CB59 46 43 73.0 0.53 0.53 0.42 0.22 0.22 50 50 8.0 1.78 4.07 1.51 15 0.40 152.27 151 98 153.37 153.32 155.67 155.38 CB -78 - CB77 45 42 108.4 0.11 055 0.42 0.05 0.23 5.0 M 6.8 1.58 4.56 2.53 15 0.50 155.17 15463 155.68 155.50 158.68 158.12 C855 - CB54 44 41 89.4 1.37 2.59 042 0.58 1.09 5.0 8.5 7.0 7.58 13.32 2.41 24 0,35 152.18 15187 154.55 15445 156.48 156.76 CB59 - CB58 43 40 285 1.43 1,96 0.42 060 0.82 5.0 5.8 7.7 6.37 7.36 4.54 18 049 151.73 151.59 152.83 152.71 155.38 155,38 CB77 - CB76 42 38 95.0 0.18 0.73 0.42 0.08 0.31 5.0 10.2 6.6 2.01 4.59 1.98 15 0.51 154.63 15415 155.46 155,39 158.12 15770 CB54 - CB53 41 35 198.0 0.58 3.17 0.42 024 1.33 5.0 9.1 68 909 13,35 2.89 24 0.35 151.87 151.18 154.36 154.04 156.76 156.78 C658 - CB50 40 30 231.9 064 2.60 0.42 0.27 1 09 50 6.0 77 8.40 13.45 3.93 24 0.35 151.09 150.27 152.23 151.77 155.38 155.67 CB76 - CB45 39 38 28.5 055 0.55 0.42 0.23 0.23 5.0 5.0 8.0 1.85 4.53 1.57 15 0.49 154.30 154.16 155.40 155.39 157.70 157.70 C875-CB53 38 37 181.8 0.56 1.84 0.42 0.24 0.77 5.0 11.1 6.4 4.92 6.23 3.51 18 0.35 15402 15338 155.04 15461 157.70 159.50 CB53 - D152 37 36 210.3 0.00 1.84 0.42 0.00 0.77 5.0 12.0 6.2 4.77 6.19 2.99 18 0.35 153.38 152.65 154.53 15414 159.50 156.78 D152 - CB51 36 35 28.5 1.71 3.55 0.42 0.72 1 49 7.0 13.2 60 8.89 13.39 2.85 24 0.35 152.15 152.05 154M 154.04 156.78 156.78 CB51 - CB50 35 34 193.6 0.51 15.13 0.42 0.21 6.35 50 13.3 5.9 3770 50.10 3.92 42 025 149.81 149.33 153.68 153.41 156.78 157.50 CB50 - D149 34 33 30.9 0.00 15.13 0.42 0.00 6.35 50 14.0 5.8 36.88 51.22 3.83 42 0.26 149.33 149.25 153.15 153.11 157.50 15750 D149 - D148 33 32 200.8 0.00 15.13 0.42 0.00 6.35 50 14.2 5.8 36.75 50.21 3.82 42 025 149.25 14875 152.86 152.60 157.50 155.75 D148 - CB47 32 31 32.1 0,46 15.59 0.42 0.19 6.55 5.0 149 5.7 3701 50.20 3.85 42 0.25 148.75 148.67 152.25 152.21 155.75 155.67 CB47 - CB46 Project File: Coldstream at Thrower.stm Number of lines: 73 Run Date: 07-18-2017 NOTES. Intensity = 107.511 (Inlet time + 15.00) A 0.87; Return period = 10 Yrs. Hydraflow Storm Sewers 2003 Page 3 Station Len Drng Area Rnoff Area x C Tc Rain Total Cap Vel Pipe Invert Elev HGL Elev Grnd / Rim Elev Line ID coeff (1) flow full Line To Total Inlet Syst Size Slope Up Dn Up Dn Up Dn 7orTotal (ft) (ac) (C) (min) (min) (in/hr) (cfs) (cfs) (ft/s) (in) (%) (ft) (ft) (ft) (ft) (ft) (ft) 31 30 28.5 0.48 16,07 0.42 0.20 6.75 50 15.1 56 38.01 4986 4,17 42 0.25 148.67 148.60 151,80 151.77 155.67 155.67 CB46 - CB45 30 29 239,2 0.39 19.06 0.42 0.16 8.01 5.0 15.2 56 44.94 71.94 5.27 48 0.25 148.60 148.00 151.04 150.72 155.67 15320 CB45 - DI 44 29 28 124.3 0.21 19.27 0.42 0.09 8.09 5.0' 162 5.5 44.15 71 75 5.57 48 0.25 148.00 147.69 15036 150.16 153.20 152.20 D144 - D131 28 End 244.6 2.15 28.33 0.42 0.90 11.74 5.0 16.7 5.4 63.11 96.58 6.95 54 0.24 146.50 145.91 14929 148.19 152.20 0.00 D131 - HW30 27 24 28.5 0.22 0.22 0.42 0.09 0.09 5.0 5.0 8.0 0,74 3.83 0.83 15 0.35 151.19 151,09 152.00 151.99 154.59 154.59 CB27 - CB24 26 25 28.5 0.22 0.22 0.42 0.09 0.09 5.0 5.0 8.0 0.74 4.01 0.74 15 0.39 151,92 151.81 152.82 152.81 154.84 154.84 CB26 - CB25 25 24 134,7 1.10 1.32 0.42 0.46 055 5.0 5.8 7.8 4.30 6.20 379 18 0.35 151.56 151.09 152.48 152.01 154.84 15459 CB25 - CB24 24 23 132.7 0.53 2.07 0.42 0.22 0.87 5.0 6.7 7.5 6.50 1332 3.34 24 0.35 150.59 150.13 151.65 151.49 154.59 154.34 CB24 - CB23 23 22 70.3 0.71 2.78 0.42 0.30 1.17 5.0 7.7 7.2 8.38 13.48 4.52 24 036 150.13 149.88 151.27 151.02 154.34 15377 CB23 - CB22 22 21 182.8 1.73 4.51 0.42 0.73 1.89 5.0 8.1 7.1 13.38 26.27 4.83 30 0.41 149.38 148.63 150.61 150.21 153.77 153.75 C622 - DI 21A 21 End 31.7 000 4.51 042 0.00 1.89 5.0 92 6.8 12.87 1457 494 30 013 148.63 148.59 15008 14979 153.75 0.00 D121 - HW21 20 15 28,4 0.68 0.68 0.42 029 0.29 50 5.0 8.0 2.29 4.02 1.87 15 0.39 151.19 151.08 152.59 15256 154.59 154.59 CB14 - CB11 19 14 28.6 2.03 2.03 042 0.85 0.85 7.0 7.0 7,4 6.29 0.00 5.13 15 -0.39 149.52 149.63 151.70 151.43 154.04 154.04 CB15 - CB12 18 13 28.6 1.11 1.11 0.42 0.47 0.47 5.0 5.0 8.0 3.74 4,01 3.71 15 0.39 151.08 15097 152.04 151.93 154.48 154,48 CB16 - CB13 17 16 28.5 1.10 1.10 0.42 0.46 0.46 5.0 5.0 8.0 3.70 4.01 3.02 15 0.39 151.92 151.81 15363 15354 155.32 155.32 CB9 - CB -10 16 15 145.6 0.22 1.32 0.42 0.09 0.55 5.0 5.2 8.0 4.41 4.57 3.60 15 0.50 151.81 151.08 153.24 152.55 15532 154.59 CB10 - CB11 15 14 109.6 0.13 2.13 0.42 0.05 0.89 5.0 5.8 7.7 6.92 22.97 3.80 24 1.03 151.08 14995 15201 151.43 154.59 15404 CB1 i - CB12 14 13 870 0.07 4.23 042 0.03 1,78 5.0 7,1 7A 13.07 22.43 2.95 30 0.30 149.18 148.92 151.21 151.15 154.04 15448 CB12 - CB13 13 2 152.1 0,13 5.47 042 0.05 230 5.0 7.6 7.2 16.54 22.56 4.23 30 0.30 148.92 148.46 15068 150.44 154.48 15465 CB13 - CB3 12 6 285 0.41 0.41 0.42 0.17 0.17 5.0 5.0 8.0 1.38 4.01 2.96 15 0.39 151.79 151.68 15230 15219 155.19 155.19 C620 - CB7 11 5 28,5 0.66 0.66 0.42 0.28 0.28 5.0 5.0 8.0 2,22 4.01 3.35 15 0.39 151,75 151.64 152.42 152.31 155.15 155.15 CB19 - CB6 i Project File: Coldstream at Throwecstm Number of lines: 73 Run Date: 07-18-2017 NOTES: Intensity = 107 51 / (Inlet time + 15.00) " 0.87; Return period = 10 Yrs. Hydraflow Storm Sewers 2003 Page 4 Station Len Drng Area Rnoff Area x C Tc RainTotal Cap Vel Pipe Invert Elev HGL Elev Grnd 1 Rim Elev Line ID coeff (I) flow full Line To Incr Total Incr Total Inlet Syst Size Slope Up On Up On Up On Line (ft) (ac) (ac) (C) (min) (min) (in/hr) (cfs) (cfs) (ftls) (in) (%) (ft) (ft) (ft) (ft) (ft) (ft) 10 4 28.5 0.32 0.32 042 0.13 0.13 5.0 5.0 8.0 1.08 4.01 2.77 15 0.39 151.46 151.35 151.90 151.79 154.86 154.86 CB18 - C135 9 2 153.1 0.36 0.36 0.42 0.15 0.15 5.0 5.0 8.0 1.21 3.54 2.61 15 0.30 151.97 151.51 152.47 152.02 155.37 154.65 CB17 - C133 8 7 29.3 1.67 1 67 0.42 070 0.70 7.0 7.0 7.4 5.18 4.14 4.22 15 0.41 151.30 151 18 152.76 152.57 155.00 155.00 C816 - CB8 7 6 161 2 1.22 2.89 0.42 0.51 121 5.0 7.1 7.3 8.92 16.03 309 24 0.50 150.73 149.92 152.31 152.10 155.00 155.19 CB8 - CB7 6 5 172.2 1.10 4.40 0.42 0.46 1 85 5.0 8.1 7.1 13.09 23.80 2.95 30 0.34 149.92 149.34 151.86 151.73 155.19 155.15 CB7 - CB -6 5 4 95.0 0.38 5.44 0.42 0.16 2.28 5.0 9.1 6.8 15.56 24.89 3.39 30 0.37 149.34 148.99 151.44 151.35 155.15 154.86 CB6 - CB -5 4 3 123.3 0.10 586 0.42 0.04 2.46 5.0 9.6 6.7 16.47 24.22 3.60 30 035 14899 148.56 151.07 150.92 154.86 154.65 CB5 - CB4 3 2 28.5 1.11 697 0.42 0.47 2.93 5.0 10.2 6.6 19.18 24.31 4.66 30 0.35 148.56 148.46 150.49 150.44 154.65 15465 CB4 - CB3 2 1 244.3 0.43 13.23 0.42 0.18 5.56 5.0 10.4 6.5 36.25 5935 4.85 42 0.35 147.46 146.61 14975 14950 154.65 155.00 CB3 - D12 1 End 322.3 0.78 14.01 0.42 033 588 5.0 11.4 6.3 37.02 59.84 4.23 42 035 146.61 145.47 149.33 148.97 15500 0.00 D12 - HW1 Project File: Coldstream at Thrower Sim Number of lines: 73 Run Date: 07-18-2017 NOTES, Intensity = 107 51 1(Inlet time + 15.00) ^ 0.87; Retum period = 10 Yrs. Hydraflow Storm Sewers 2003 Hydraulic Grade Line Computations Page 1 Line Size Q Downstream Len Upstream Check JL Minor coeff loss Invert HGL Depth Area Vel Vel EGL Sf Invert HGL Depth Area Vel Vel EGL Sf Ave Enrgy elev elev head elev elev elev head elev Sf loss (in) (cfs) (ft) (ft) (ft) (sgft) (ft/s) (ft) (ft) N (ft) (ft) (ft) (ft) (s9ft) (fUs) . (ft) (ft) N N (ft) (K) (ft) (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) (18) (19) (20) (21) (22) (23) (24) 73 15 333 150.13 154.25 1.25 1 23 2.72 0.11 154.36 0 267 28.5 150.24 154.32 1.25 1.23 2.72 0.11 154.44 0.266 0.267 0.076 1.00 011 72 15 0.74 153.28 155.55 1.25 1 23 060 001 155.56 0.013 28.5 153.42 15555 1 25 1.23 060 0.01 155.56 0.013 0.013 0.004 1 00 0.01 71 15 0.88 152.29 154.79 1.25 1.23 0.71 0.01 154.80 0 018 93.5 152.76 15481 1.25 1.23 0.71 0.01 154.82 0.018 0.018 0.017 1 00 0.01 70 15 1 58 153.84 155.55 1.25 1.23 1 29 003 15558 0.060 72.6 154.13 155.59 1.25 123 1 29 003 155.62 0.060 0.060 0.044 1.00 003 69 18 492 152.76 15521 1.50 1.77 2.78 0.12 155.33 0.219 72.6 153.12 155.37 1 50 1.77 2.78 0.12 15549 0 219 0.219 0 159 1.50 0.18 68 18 5.95 15243 154.79 1.50 1 77 3.37 018 154.97 0 321 927 152.76 155.09 1 50 1 77 3.37 0.18 155.26 0 321 0.321 0.297 0.70 012 67 30 9.57 151.07 154.69 2.50 491 1.95 0.06 15475 0.054 28.5 151.17 15470 2.50 491 1 95 0.06 154.76 0.054 0.054 0 016 1 50 009 66 30 1022 150.88 154.58 250 4.91 2.08 007 15465 0.062 53.9 151 07 15461 250 4.91 2.08 0.07 15468 0 062 0.062 0.033 1 10 0.07 65 36 1474 150.44 154.49 300 7.07 2.09 0.07 154.56 0.049 28.5 15054 154.50 3.00 7.07 2.08 0.07 154.57 0.049 0 049 0.014 1.10 0.07 64 36 17.32 150.13 154.25 3.00 7.07 2.45 0.09 15434 0 067 154 15044 15435 300 707 245 0.09 154.44 0.067 0.067 0.104 1.50 0.14 63 42 22.66 149.81 154.04 3.50 9.62 2.36 0.09 154 12 0.051 161 150.13 154.12 3.50 962 236 0.09 15420 0.051 0 051 0.082 1.50 013 62 15 1.52 151 58 152.97 1.25 1 23 1.24 0.02 152.99 0 056 532 151 85 15299 1.14 1.18 1.30 003 153.02 0.048 0 052 0.028 1.00 003 61 15 1 34 151.72 152.97 125 1 23 1.09 0.02 15299 0 041 61 9 152.03 15299 0.96 1 01 1.33 0.03 153.01 0.050 0 045 0.028 1.00 003 60 18 5.89 151.19 152.61 1.42 1 73 3.40 0 18 152.79 0.272 28.5 151 33 15268 1 35 1.67 3.52 0.19 15287 0.277 0 275 0.078 1 50 0.29 59 15 2.79 15200 153.14 1.14 1.17 2.38 0.09 153.23 0.163 28.5 15211 153.18 1 07 1 12 250 0.10 153.28 0.175 0 169 0.048 1.00 0.10 58 15 3.67 151.69 152.61 0.92 097 378 0.22 152.84 0.403 60.6 15200 15284 0.84 0.88 4.18 0.27 153.11 0 512 0.457 0.277 1.10 030 57 24 10.04 149.63 151.73 200 3.14 3.20 0.16 151.89 0 197 303 15069 152.29 1.60 2.69 3.73 0.22 15251 0.206 0.202 0.611 1 50 0.32 56 18 3.95 151.39 152.80 1.41 1.72 2.30 0.08 15288 0.123 28.5 151.50 15282 1.32 1.65 2.40 0.09 152.91 0.127 0.125 0.036 1.00 0.09 55 18 5.00 14974 151.73 1.50 1 77 2.83 0.12 151.86 0 227 330 151.39 152.50 1.11 1 40 3.57 0.20 15270 0.282 0.254 0.840 1 50 0.30 54 18 4.60 151 08 152.01 0.93' 1.15 3.99 0.25 152.26 0.383 28.5 151 19 152.12 0.93 1.15 4.00 0.25 15237 0 386 0 384 0 110 1.00 025 53 30 18.71 1 148.50 15024 1 74* 3.65 5.12 041 150.65 0.301 292 149 38 151.12 1.74 365 5.13 041 151.53 0 302 0.301 0 880 1.50 061 Project File. Coldstream at Thrower.stm FNumber of lines: 73 -T Run Date 07-18-2017 NOTES. * Normal depth assumed., ** Critical depth assumed. HydraFlow Storm Sewers 2003 Page 2 Line Size Q Downstream Len Upstream Check JL Minor coeff loss Invert HGL Depth Area Vel Vel EGL Sf Invert HGL Depth Area Vel Vel EGL Sf Ave Enrgy elev elev head elev elev elev head elev Sf loss (in) (cfs) (ft) (ft) (ft) (sgft) (ft/s) (ft) (ft) N (ft) (ft) (ft) (ft) (sgft) (ft/s) (ft) (ft) N N (ft) (K) (ft) (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) (18) (19) (20) (21) (22) (23) (24) 52 15 0,51 155.17 155.94 0,77 0.80 0.63 0.01 155.95 0.012 28.5 155.28 155.94 0.66 0.66 0.76 0.01 155.95 0.020 0.016 0.005 1.00 0.01 51 15 3.00 152.94 154.68 1.25 1.23 2.44 0.09 154.78 0.215 28.5 153.08 154.74 1.25 1.23 2.44 0.09 154.84 0.215 0.215 0.061 1.00 0.09 50 15 0.57 155.93 15648 055 0.52 1.10 0.02 156.50 0.049 28.5 156.05 156.49 0.44 0.38 1.50 0.04 156.52 0.115 0.082 0 023 1.00 0.04 49 15 0.67 154.65 155.28 0.63 0.62 1.09 0.02 155.29 0.043 28.5 15476 155.28 0.52 0.49 1.38 0.03 155.31 0 081 0.062 0.018 1.00 0.03 48 15 0.94 155.17 155.94 0.77 0.80 1.17 0.02 155.96 0.043 141 155.93 156.32 0.39** 0.32 2.89 013 156.45 0.484 0.263 n/a 1.25 0.16 47 15 1.07 153,93 154.68 0.75 0.77 1.39 0.03 154.71 0.060 143 154.65 155.06 0.41** 0.36 3.02 0.14 155.21 0.490 0.275 n/a 150 0.21 46 15 1.78 151.98 153.32 1.25 1.23 1.45 0.03 153.35 0.076 73.0 152.27 15337 1.10 1.14 1.56 0.04 153.41 0.069 0.073 0.053 1.00 0.04 45 15 1.58 154.63 155.50 0.87 0.92 1.73 0.05 155.55 0.086 108 155.17 155.68 0.51 0.47 3.34 0.17 155.86 0.483 0.284 0.308 150 026 44 24 7.58 151.87 154.45 2.00 3.14 2.41 0.09 154.54 0.112 89.4 152.18 154.55 2.00 3.14 2.41 0.09 154.64 0.112 0.112 0100 1.50 014 43 18 6.37 151.59 152.71 1.12 1.42 4.50 0.31 153.03 0.446 28.5 151.73 152.83 1.10 1,39 4.59 0.33 153.16 0.468 0.457 0.130 1.50 0.49 42 15 2.01 154.15 15539 1.24 1.22 1.64 0.04 155.43 0.089 950 154.63 155,46 0.83 0.87 2.32 0.08 155.55 0.158 0.123 0 117 050 0.04 41 24 9.09 151.18 154.04 2.00 3.14 2.89 0.13 154.17 0.162 198 151.87 154.36 2.00 3.14 2.89 013 154.49 0.161 0.162 0 320 0,70 009 40 24 8.40 150.27 151.77 1.50 2.53 3.32 0.17 151.94 0.166 232 151.09 152.23 1.14 1,85 4.54 0.32 152.55 0.358 0.262 0.607 1.50 048 39 15 1.85 154.16 155.39 1.23 1.22 1.52 0.04 155.42 0.074 28.5 154.30 155.40 1.10 1.14 1.62 0.04 155.44 0.074 0.074 0.021 1.00 0.04 38 18 4.92 153.38 15461 1.23 1.55 3.18 0.16 154.76 0.220 182 154.02 155,04 1,02 1,28 3.84 023 155.27 0 338 0 279 0.507 1.50 0.34 37 18 4.77 152.65 154.14 1.49 1.76 2.70 011 154.25 0.191 210 153.38 154.53 1.15 1.46 3.27 017 154.70 0.235 0.213 0 448 0.45 008 36 24 889 15205 154,04 1.99 3.14 2.83 0.12 154.16 0 144 28.5 15215 154.07 1 92 3.10 2.86 0.13 154.20 0.135 0.139 0 040 0.50 0.06 35 42 37.70 149.33 153.41 3.50 9.62 3.92 0.24 153.64 0.140 194 149.81 153.68 3.50 9.62 3.92 0.24 15392 0.140 0.140 0.272 1.50 0.36 34 42 36.88 149.25 153.11 3.50 9.62 3.83 0.23 15334 0.134 30.9 149.33 153.15 3.50 9.62 3.83 0.23 153.38 0.134 0.134 0.041 1.10 0.25 33 42 36.75 148.75 152.60 3.50 9.62 3.82 0.23 152.82 0.134 201 149.25 152.86 3.50 9.62 3,82 023 153,09 0.133 0.133 0 268 1,10 025 32 42 37.01 148.67 152.21 3.50 9.62 3.85 0.23 152.44 0.135 32.1 148.75 152.25 3.50 9.62 3.85 023 152.48 0.135 0.135 0.043 1 50 0.35 Project File* Coldstream at Thrower.stm Number of lines: 73 Run Date: 07-18-2017 NOTES- * Normal depth assumed., ** Critical depth assumed. Hydraflow Storm Sewers 2003 Hydraulic Grade Line Computations Page 3 Line Size Q Downstream Len Upstream Check JL Minor coeff loss Invert HGL Depth Area Vel Vel EGL Sf Invert HGL Depth Area Vel Vel EGL Sf Ave Enrgy elev elev head elev elev elev head elev Sf loss (in) (cfs) (ft) (ft) (ft) (sqft) (ft/s) (ft) (ft) N (ft) (ft) (ft) (ft) (sgft) (ft/s) (ft) (ft) N (°!a) (ft) (K) (ft) (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) (18) (19) (20) (21) (22) (23) (24) 31 42 38.01 148.60 151.77 3.17 9.16 4.15 0.27 152.04 0 125 28.5 148.67 151 80 313 9.08 419 0.27 152.07 0.126 0.126 0 036 1.50 0.41 30 48 4494 148.00 150.72 2.72 9.09 4.94 0.38 151.10 0.151 239 14860 151.04 2.44 8.03 5.60 0.49 151.53 0.206 0.179 0 428 1.50 0.73 29 48 44.15 14769 150.16 247 813 543 0.46 150.61 0.193 124 14800 150.36 2.36 773 5.71 0.51 150.87 0.219 0.206 0.256 0.70 0.36 28 54 63.11 145.91 14819 2.28 8.09 7.80 095 149.14 0.394 245 146.50 149.29 2.79 10.36 6.09 0.58 149.87 0206 0.300 0.734 1 50 0.86 27 15 074 151.09 151.99 0.90 0.95 0.78 0.01 152.00 0.017 28.5 151 19 152.00 0.81 0.84 0.88 0.01 15201 0.023 0.020 0.006 1.00 0.01 26 15 0.74 151.81 152.81 1.00 1.06 0.70 0.01 152.82 0.014 28.5 151.92 152.82 0.90 094 079 0.01 152.83 0.018 0 016 0.004 1 00 001 25 18 4.30 151.09 15201 0.92* 1.14 3.78 022 152.23 0.347 135 151.56 152.48 092 1.13 379 0.22 152.70 0.350 0.348 0.469 1.50 0.34 24 24 6.50 150.13 151.49 1.36 2.28 2.85 013 151 62 0.126 133 150.59 151 65 1.06 1.70 383 0.23 151.88 0 269 0.198 0.263 1.50 034 23 24 8.38 149.88 151.02 1.14* 1.86 4.51 0.32 151.34 0 353 70.3 150.13 151.27 1.14 1.85 4.53 032 151.59 0.357 0 355 0 250 070 022 22 30 13.38 148.63 15021 158 327 409 0.26 150.47 0.201 183 14938 150.61 1.23 240 557 0.48 151 09 0.451 0.326 0.597 0.70 0.34 21 30 1287 14859 149.79 1.20 233 552 0.47 150.26 0 453 31.7 148.63 15008 1.45 2.95 437 030 150.37 0.243 0.348 0 110 0.45 0.13 20 15 2.29 151.08 152.55 1.25 1.23 1.87 005 152.61 0 126 284 151.19 15259 1 25 1 23 1.87 005 152.64 0.126 0 126 0 036 1 00 0.05 19 15 6.29 149.63 15143 1 25 1.23 5.13 041 151.84 0.950 286 14952 151.70 1.25 1.23 5.13 0.41 152.11 0.950 0.950 0.271 1.00 0.41 18 15 3.74 150.97 151.93 0.96* 1.01 3.71 0.21 152.14 0.385 28.6 15108 152.04 0.96 1.01 3.71 0.21 152.25 0.384 0.385 0.110 1.00 0.21 17 15 370 151 81 153.54 1.25 1 23 3.02 0.14 15368 0.329 28.5 151.92 153.63 1.25 1.23 3.02 0.14 153.77 0.329 0.329 0.094 1 00 0.14 16 15 4.41 151.08 152.55 1.25 1 23 360 0.20 152.76 0.468 146 151.81 153.24 1.25 1.23 360 0.20 153.44 0.467 0.467 0 680 1 50 030 15 24 6.92 149.95 151.43 1.48 2.49 2.78 0.12 151.55 0.117 110 15108 152.01 0.93'* 1.43 4.83 0.36 152.37 0.478 0.297 n/a 1.50 0.54 14 30 13.07 148.92 151.15 2.23 4.62 2.83 0.12 151.27 0.090 87.0 149.18 151.21 203 4.26 3.06 0.15 151 35 0 103 0 097 0 084 1.50 0.22 13 30 16.54 14846 15044 ` 1.98 4.17 3.97 0.25 15068 0.174 152 14892 150.68 1.76 3.69 4.49 031 15099 0.230 0.202 0.307 1.50 0.47 12 15 1.38 151.68 152.19 0.51- 0.47 2.96 0.14 152.32 0 384 28.5 151 79 152.30 0.51 0.47 2.96 014 152.43 0.383 0.384 0.109 1.00 0.14 11 15 2.22 151.64 152.31 067- 0.66 3.35 0 17 152.48 0.385 28.5 151.75 152.42 0.67 0.66 3.35 0.17 152.59 0 384 0.384 0.110 1 00 017 Project File: Coldstream at Thrower.stm Number of lines. 73 Run Date. 07-18-2017 NOTES. * Normal depth assumed., - Critical depth assumed. Hydraflow Storm Sewers 2003 Page 4 Line Size 4 Downstream Len Upstream Check JL Minor coeff loss Invert NGL Depth Area Vel Vel EGL Sf Invert HGL Depth Area Vel Vel EGL Sf Ave Enrgy elev elev head elev elev elev head elev Sf loss (in) (cfs) (ft) (ft) (ft) (sGft) fts) (ft) (ft) N (ft) (ft) (ft) I (ft) (soft) (ft/s) (ft) (ft) N (%) (ft) (K) (ft) (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) (18) (19) (20) (21) (22) (23) (24) 10 15 1.08 151.35 151.79 0.44' 0.39 2.77 0.12 151.91 0.385 285 151.46 151 90 0.44 0.39 2.77 012 152.02 0.387 0 386 0110 1.00 012 9 15 1.21 151.51 152.02 0.51* 0.47 2.60 0.11 152.12 0.296 153 151.97 152.47 0.50 0.46 2.61 0.11 152.58 0.301 0.298 0.457 1.00 0.11 8 15 5.18 151.18 152.57 1.25 1.23 4.22 0.28 152.85 0.643 29.3 151.30 152.76 1.25 1.23 4.22 0.28 153.04 0.643 0.643 0.188 1.00 028 7 24 8.92 149.92 152.10 200 3.14 2.84 0.13 152.23 0.156 161 150.73 152.31 1.58 2.67 3.34 0.17 152.49 0.166 0.161 0 259 1.50 0.26 6 30 13.09 14934 151.73 2.39 4.84 2.71 0.11 151.85 0.089 172 149.92 151.86 1.94 4.09 3.20 0.16 152.02 0.113 0.101 0.174 1.50 0.24 5 30 15.56 148.99 151.35 2.36 4.80 3.24 0.16 151.51 0.124 95.0 14934 151.44 2.10 4.41 353 019 151.64 0.138 0.131 0.125 1.50 029 4 30 16.47 148.56 150.92 2.36 4.80 3.43 0.18 151.11 0.139 123 148.99 151.07 208 4.36 3.77 0.22 151.29 0.157 0.148 0.183 1 25 0.28 3 30 19.18 148.46 150.44 1.98 4.17 4.60 033 150.77 0.234 285 148.56 150.49 1.93 4.07 4.71 035 15084 0 246 0 240 0.068 1 25 0.43 2 42 36.25 14661 149.50 289 8.49 4.27 0.28 149.78 0 128 244 147.46 149.75 2.29 6.67 5.44 0.46 150.21 0.223 0.175 0.429 1.50 0.69 1 42 37.02 145.47 148.97 3.50 9.62 3.85 0.23 149.20 0135 322 146.61 149.33 2.72 8.03 4.61 0.33 149.66 0.150 0.143 0.460 0.50 0.17 Project File: Coldstream at Thrower.stm FlNumber of Imes: 73 Run Date: 07-18-2017 NOTES: ` Normal depth assumed., - Critical depth assumed. Hydraflow Storm Sewers 2003 Hydraflow HGL Computation Procedure e Page I General Procedure: Hydraflow computes the HGL using the Bernoulli energy equation. Manning's equation is used to determine energy losses due to pipe friction. In a standard step, iterative procedure, Hydraflow assumes upstream HGLs until the energy equation balances. If the energy equation cannot balance, supercritical flow exists and critical depth is assumed at the upstream end. Col. -I The line number being computed. Calculations begin at Line 1 and proceed upstream. Col 2 The line size. In the case of non -circular pipes, the line rise is printed above the span. Col. 3 Total flow rate in the line. Col. 4 The elevation of the downstream invert. Col. 5 Elevation of the hydraulic grade line at the downstream end. This is computed as the upstream HGL + Minor loss of this line's downstream line. Col. 6 The downstream depth of flow inside the pipe (HGL - Invert elevation) but not greater than the line size. Col. 7 Cross-sectional area of the flow at the downstream end. Col. 8 The velocity of the flow at the downstream end, (Col. 3 / Col. 7). Col. 9 Velocity head (Velocity squared / 2g). Col. 10 The elevation of the energy grade line at the downstream end, HGL + Velocity head, (Col. 5 + Col. 9). Col. 11 The friction slope at the downstream end (the S or Slope term in Manning's equation) Col. 12 The line length. Col. 13 The elevation of the upstream invert. Col. 14 Elevation of the hydraulic grade line at the upstream end. Col. 15 The upstream depth of flow inside the pipe (HGL - Invert elevation) but not greater than the line size. Col. 16 Cross-sectional area of the flow at the upstream end. Col. 17 The velocity of the flow at the upstream end, (Col. 3 / Col. 16). Col. 18 Velocity head (Velocity squared / 2g). Col. 19 The elevation of the energy grade line at the upstream end, HGL + Velocity head, (Col. 14 + Col. 18) . Col. 20 The friction slope at the upstream end (the S or Slope term in Manning's equation). Col. 21 The average of the downstream and upstream friction slopes. Col. 22 Energy loss. Average Sf/100 x Line Length (Col. 21/100 x Col. 12). Equals (EGL upstream - EGL downstream) +/- tolerance. Col. 23 The junction loss coefficient (K). Col. 24 Minor loss. (Col. 23 x Col. 18). Is added to upstream HGL and used as the starting HGL for the next upstream line(s). � ' "" ' ray rt ;!'• ,fix FI x Page 1 Line Inlet ID Q = Q Q Q Junc Curb Inlet Grate Inlet Gutter Inlet Byp No CIA carry capt byp type line Ht L area L W So W SW Sx n depth spread depth spread Dep No (cfs) (cfs) (cfs) (cfs) (in) (ft) (sqft) (ft) (ft) (ft(ft) (ft) (ft/ft) (ft/ft) (ft) (ft) (ft) (ft) (in) 73 CB71 - CB61 1 66 0.25 1 87 004 Comb 6.0 6.00 0.00 6.00 2.00 0.018 2.00 0.030 0.035 0.013 0.19 5.71 0.29 3.64 2.00 65 72 CB70 - C867 0.37 0.00 0.37 0.00 Comb 6.0 3.00 0.00 3.00 2.00 0.010 2.00 0.030 0.035 0.013 0.11 3.43 0.18 1.52 2.00 66 71 CB69 - CB65 0.44 0.00 0.44 0.00 Comb 6.0 300 0.00 300 2.00 0.010 2.00 0.030 0 035 0 013 0.12 3.71 0.19 1.61 2.00 67 70 CB68 - CB67 079 000 0.79 0.00 Comb 6.0 300 0.00 3.00 2.00 0 010 200 0.030 0.035 0.013 0.15 4.57 0.24 2.07 2.00 69 69 CB67 - CB66 1.39 0.00 1.36 0.04 Comb 6.0 300 0.00 3.00 2.00 0.010 2.00 0.030 0.035 0.013 0.18 543 0.29 358 2.00 68 68 CB66 - CB65 0.59 0.04 0.62 0.00 Comb 6.0 3.00 0.00 3.00 2.00 0.010 2.00 0.030 0.035 0.013 0.14 4.29 0.22 1 85 2.00 67 67 CB65 - CB64 1.64 0.00 1.64 0.00 Comb 6.0 6.00 6.00 6.00 2.00 Sag 2.00 0.030 0.035 0.000 -0.03 -0.89 0.15 1.27 2.00 Off 66 CB64 - CB63 0.40 000 0.40 0.00 Comb 6.0 3.00 3.00 3.00 2.00 Sag 2.00 0.030 0.035 0.000 -0.10 -3.22 0.08 0.68 2.00 Off 65 CB63 - CB62 2.62 0.04 2.66 0.00 Comb 60 6.00 6.00 6.00 2.00 Sag 2.00 0.030 0 035 0.000 0.02 078 0.20 1.69 2.00 Off 64 CB62 - CB61 1 53 0.09 1.61 0.00 Comb 6.0 6.00 6.00 6.00 2.00 Sag 2.00 0.030 0.035 0.000 -0.03 -0.89 0.15 1.27 2.00 Off 63 CB61 - CB50 1.83 0.01 1.75 0.09 Comb 60 6.00 0.00 6.00 2.00 0.005 2.00 0 030 0.035 0.013 0.23 686 0.36 5.41 200 64 62 CB40 - C838 0.76 0.00 0.76 0.00 Comb 6.0 3.00 000 3.00 2.00 0.005 2.00 0.030 0.035 0.013 0.17 5.14 0.27 2.87 2.00 60 61 CB39 - CB38 0.67 000 0.67 0.00 Comb 6.0 6.00 0.00 6.00 2.00 0.010 2.00 0.030 0.035 0.013 0.14 4.29 0.22 1.89 2.00 60 60 CB38 - CB35 1.63 0.00 1.63 0.00 Comb 6.0 3.00 3.00 3.00 2.00 Sag 2.00 0.030 0.035 0.000 001 044 0.19 1.61 2.00 Off 59 CB37 - CB36 1.39 0.00 1.39 0.00 Comb 60 300 3.00 300 200 Sag 2.00 0 030 0.035 0.000 -0.01 -0.22 0.17 1.44 2.00 Off 58 CB36 - C835 0.45 000 0.45 0.00 Comb 6.0 3.00 300 3.00 200 Sag 2.00 0.030 0.035 0.000 -0.10 -3.22 0.08 0.68 2.00 Off 57 CB35 - CB32 0.34 0.00 0.34 0.00 Comb 6.0 3.00 3.00 3.00 2.00 Sag 2.00 0.030 0.035 0.000 -011 -3.56 0.07 059 2.00 Off 56 CB34 - CB33 2.14 0.00 2.14 0.00 Comb 6.0 6.00 6.00 6.00 2.00 Sag 2.00 0.030 0.035 0.000 0.00 0.11 0.18 1.52 2.00 Off 55 CB33 - C632 0.59 0.00 0.59 0.00 Comb 6.0 3.00 3.00 3.00 2.00 Sag 2.00 0.030 0.035 0.000 -0.08 -2.56 0.10 0.85 2.00 Off 54 CB41 - CB32 2.29 0.00 2.29 0.00 Comb 6.0 600 6.00 6.00 2.00 Sag 2.00 0.030 0 035 0.000 0.01 0.44 0.19 1.61 2.00 Off 53 CB32 - CB31 0.72 0.�0 0.72 0.00 Comb 6.0 3.00 3.00 3.00 2.00 Sag 2.00 0.030 0.035 0.000 -0.07 -2.22 0.11 093 2.00 Off 52 CB74 - CB55 0.25 0.00 0.25 0.00 Comb 6.0 3.00 0.00 3.00 2.00 0.005 2.00 0.030 0.035 0.013 0.11 3.43 -T 0.18 1 50 2.00 39 Project File: Coldstream at Th rower -I n lets, stm 1-0-F File: THROWER-NCDOT INLETS.IDF Number of lines: 73 Run Date: 07-18-2017 NOTES. Inlet N -Values = 0.016 ; Intensity = 3.97 / (Inlet time + 0.10) A 0.00; Return period = 5 Yrs. ; * Indicates Known Q added Hydraflow Storm Sewers 2003 Page 2 Line Inlet ID Q = Q Q Q Junc Curb Inlet Grate Inlet Gutter Inlet Byp No CIA carry capt byp type line Ht L area L W So W SW Sx n depth spread depth spread Dep No (cfs) (cfs) (cfs) (cfs) (in) (ft) (sgft) (ft) (ft) (ft/ft) (ft) (ftift) (ftift) (ft) (ft) (ft) (ft) (in) 51 CB72 - CB59 1.49 0.00 1.49 0.00 Comb 6.0 6.00 6.00 6.00 2.00 Sag 2.00 0.030 0.035 0.000 -0.04 -1.22 0.14 1 18 2.00 Off 50 CB57 - C856 0.29 0.00 0.29 0.00 Comb 6.0 3.00 000 3.00 2.00 0.005 2.00 0 030 0 035 0.013 0.12 3.71 0.19 1.57 2.00 52 49 CB73 - C860 0.34 0.00 0.34 0.00 Comb 6.0 3.00 0.00 300 2.00 0.005 2.00 0.030 0.035 0.013 012 3.71 020 1.66 2.00 51 48 CB56 - CB55 020 0.00 0.20 0.00 Comb 6.0 3.00 0.00 3.00 2.00 0.005 2.00 0.030 0.035 0.013 0.10 3.14 0.16 1.38 2.00 45 47 CB60 - CB59 0.22 0.00 0.22 000 Comb 6.0 3.00 0.00 3.00 2.00 0.018 2.00, 0.030 0.035 0.013 0.08 257 0.13 1.12 2.00 44 46 CB78 - CB77 0.89 0.00 0.88 0.01 Comb 6.0 3.00 0.00 3.00 2.00 0.005 2.00 0.030 0.035 0.013 0.18 5.43 0.28 3.30 200 43 45 CB55 - CB54 0.18 0.00 0.18 0.00 Comb 6.0 3.00 0.00 3.00 2.00 0.005 2.00 0.030 0.035 0.013 0.10 3.14 0.16 1.34 2.00 42 44 CB59 - CB58 230 0.02 2.32 0.00 Comb 6.0 6.00 6.00 6.00 2.00 Sag 2.00 0.030 0.035 0.000 0.01 0.44 0.19 1.61 2.00 Off 43 CB77 - CB76 2.40 001 2.41 0.00 Comb 6.0 6.00 6.00 6.00 200 Sag 2.00 0 030 0.035 0.000 0.01 0.44 0.19 1.61 2.00 Off 42 CB54 - CB53 0.30 0.00 0.30 0.00 Comb 6.0 3.00 0.00 3.00 2.00 0 005 2.00 0.030 0.035 0.013 0.12 3.71 0.19 1.61 200 38 41 C658 - CB50 0.97 0.00 095 0.02 Comb 6.0 3.00 0.00 3.00 2.00 0.005 200 0 030 0.035 0 013 0.18 5.43 0.29 3.55 2.00 44 40 CB76 - CB45 1 07 0.00 1.07 0.00 Comb 6.0 3.00 3.00 3.00 2.00 Sag 2.00 0.030 0.035 0.000 -0.04 -1.22 0.14 1.18 2.00 Off 39 CB75 - CB53 0.92 0.00 0.92 0.00 Comb 6.0 3.00 300 3.00 2.00 Sag 2.00 0.030 0 035 0.000 -0.05 -1.56 0.13 1.10 200 Off 38 CB53 - D152 0.94 000 0.94 0.00 Comb 60 3.00 3.00 3.00 2.00 Sag 2.00 0.030 0.035 0.000 -0.05 -1.56 0.13 1.10 2.00 Off 37 D152 - CB51 0.00 0.00 0.00 0.00 MH 00 0.00 0.00 0.00 0.00 Sag 0.00 0 000 0.000 0.000 0.00 0.00 0.00 000 0.00 Off 36 CB51 - CB50 2.87 000 2.63 025 Comb 6.0 6.00 000 6.00 2.00 0.005 2.00 0 030 0.035 0.013 0.28 8.29 0.41 687 2.00 73 35 CB50 - D149 0.86 0.00 0.84 0.01 Comb 6.0 3.00 0.00 3.00 2.00 0.005 2.00 0.030 0.035 0.013 018 5.43 0.28 3.18 2.00 63 34 D149 - D148 0.00 0.00 0.00 0.00 DrGrt 0.0 0.00 3.00 3.00 2.00 Sag 2.00 0.035 0.035 0.000 0.00 2.00 0.00 2.00 0.00 Off 33 D148 - CB47 0.00 0.00 0.00 0.00 DrGrt 0.0 0.00 3.00 3.00 2.00 Sag 2.00 0 035 0.035 0.000 0.00 2.00 0.00 2.00 000 Off 32 CB47 - CB46 0.77 0.00 077 0.00 Comb 6.0 300 000 3.00 200 0 005 2.00 0.030 0.035 0.013 0.17 5.14 027 2.92 2.00 31 31 CB46 - C845 0.81 000 0.81 0.00 Comb 6.0 3.00 3,00 3.00 2.00 Sag 2.00 0.030 0.035 0.000 -006 -1.89 0.12 1 01 2.00 Off 30 CB45 - D144 0.65 0.00 0.65 0.00 Comb 60 3.00 3.00 3.00 2.00 Sag 2.00 0.030 0.035 0.000 -0.08 -2.56 0.10 0.85 2.00 Off Project File: Coldstream at Th rower -I n lets. stm I -D -F File: THROWER-NCDOT INLETS.IDF Number of lines: 73 Run Date: 07-18-2017 NOTES: Inlet N -Values = 0.016; Intensity = 3.97 / (Inlet time + 0.10) ^ 0.00; Return period = 5 Yrs. ; * Indicates Known Q added Hydraflow Storm Sewers 2003 Page 3 Line Inlet ID Q = Q Q Q Junc Curb Inlet Grate Inlet Gutter Inlet Byp No CIA carry capt byp type line Ht L area L W So W SW Sx n depth spread depth spread Dep No (cfs) (cfs) (cfs) (cfs) (in) (ft) (sgft) (ft) (ft) (ft/ft) (ft) (ft/ft) (ftlft) (ft) (ft) (ft) (ft) (in) 29 D144 - D131 0.35 0.00 0.34 0.02 DrGrt 0.0 0.00 0.00 3.00 2.00 0.005 2.00 0.035 0.035 0.013 0.14 10.00 0.14 10.00 0.00 28 28 D131 - HW30 3.61 0.02 3.62 000 DrGrt 00 0.00 3.00 3.00 2.00 Sag 2.00 0.035 0.035 0.000 0.31 19.70 0.31 19.70 0.00 Off 27 CB27 - CB24 0.37 0.00 0.37 0.00 Comb 6.0 3.00 023 1.00 2.00 Sag 2.00 0.030 0.035 0.000 0.09 2.86 0.09 2.86 000 Off 26 CB26 - CB25 0.37 0.00 0.37 0.00 Comb 6.0 3.00 3.00 3.00 2.00 Sag 2.00 0.030 0.035 0.000 -011 -3.56 0,07 0.59 2.00 Off 25 CB25 - CB24 1 85 001 1.86 0.00 Comb 6.0 3.00 3.00 3.00 2.00 Sag 2.00 0 030 0 035 0.000 0.02 0.78 0.20 1.69 2.00 Off 24 C624 - C623 0.89 000 0.88 001 Comb 6.0 3.00 0.00 300 2.00 0.005 2.00 0 030 0.035 0.013 018 5.43 0.28 3.30 2.00 25 23 CB23 - CB22 1.19 000 0.89 0.30 Comb 6.0 1.99 000 1.99 2.00 0.005 2.00 0.030 0.035 0.013 0.20 6.00 019 5.83 0.00 22 22 CB22 - D121 2.90 0.30 3.20 0.00 Comb 6.0 6.00 6.00 6.00 2.00 Sag 2.00 0.030 0.035 0.000 0.05 1.78 0.23 1.94 2.00 Off 21 D121A- HW21 0.00 0.00 000 000 MH 00 0.00 000 0.00 0.00 Sag 0.00 0.000 0.000 0 000 0.00 0.00 0.00 000 000 Off 20 OB14 - CB11 1.14 0.09 1.17 006 Comb 60 3.00 0.00 3.00 2.00 0.005 2.00 0.030 0.035 0.013 0.20 6.00 0.31 4.21 2.00 19 19 CB15 - CB12 3.41 0.26 367 0.00 Comb 6.0 6.00 6.00 6.00 2.00 Sag 2.00 0.030 0.035 0.000 0.07 2.38 0.25 2.38 2.00 Off 18 CB16 - CB13 1,86 0.00 1.66 0.20 Comb 6.0 3.00 0.00 3.00 2.00 i 0.005 2.00 0.030 0.035 0.013 0.23 6.86 0.36 5.47 2.00 19 17 CB9 - CB10 1.85 0.00 1.76 009 Comb 60 6.00 000 6.00 2.00 0 005 200 0.030 0.035 0 013 023 6.86 0.36 544 2.00 20 16 CB10 - CB11 037 0.00 0.37 000 Comb 60 3.00 0.00 3.00 2.00 0.005 2.00 0.030 0.035 0.013 0.13 4.00 020 1.72 2.00 15 15 CB11 - CB12 022 0.00 0.22 0.00 Comb 6.0 300 0.00 3.00 2.00 0.005 2.00 0.030 0.035 0.013 0.11 3.43 017 1.42 200 14 14 CB12 - C313 0.12 0.00 0.12 0.00 Comb 6.0 3.00 3.00 3.00 2.00 Sag 2.00 0.030 0.035 0.000 -0.14 -4.56 0,04 0.34 2.00 Off 13 CB13 - CB3 022 000 0.22 0.00 Comb 60 3.00 0.00 3.00 2.00 0.005 2.00 0 030 0 035 0.013 0,11 3.43 0.17 1.42 2.00 14 12 CB20 - C87 0.69 0.00 0.69 000 Comb 6.0 3.00 3.00 3.00 2.00 Sag 2.00 0.030 0.035 0 000 -0.07 -2.22 0.11 0.93 2.00 Off 11 CB19 - CB6 1.11 0.00 1.07 0.04 Comb 6.0 3.00 0.00 3.00 2.00 0.005 2.00 0.030 0.035 0.013 0.19 5.71 0.30 3,92 2.00 10 10 CB18 - CB5 0.54 0.04 0.57 000 Comb 6.0 3.00 3.00 3.00 2.00 Sag 2.00 0 030 0 035 0.000 -0.08 -2.56 0.10 0.85 2.00 Off 9 CB17 - CB3 0.60 0.�0 0.60 0.00 Comb 6.0 3.00 000 3.00 2.00 0 005 2.00 0 030 0 035 0.013 0.15 4.57 0.25 2.27 2.00 2 8 CB16 - CB8 2.81 0.00 2.81 000 Comb ,f 6.0 6.00 6.00 600 2.00 Sag 200 0.030 0.035 0.000 0.03 1.11 0.21 1.77 2.00 Off Project File: Coldstream at Thrower-Inlets.stm I -D -F File: THROWER-NCDOT INLETS.IDF Number of lines: 73 Run Date: 07-18-2017 NOTES: Inlet N -Values = 0.016 ; Intensity = 3.97 / (Inlet time + 0.10) ^ 0.00; Return period = 5 Yrs. ; * Indicates Known Q added Hydraflow Storm Sewers 2003 Page 4 Line Inlet ID Q = Q Q Q Junc Curb Inlet Grate Inlet Gutter Inlet Byp No CIA carry capt byp type line Ht L area L W So W SW Sx n depth spread depth spread Dep No (cfs) (cfs) (cfs) (cfs) (in) (ft) (sqft) (ft) (ft) (ft/ft) (ft) (ft/ft) (ftift) (ft) (ft) (ft) (ft) (in) 7 C138 - CB7 2.05 0.00 2.05 0.00 Comb 6.0 6.00 6.00 6.00 2.00 Sag 2.00 0.030 0.035 0.000 -0.01 -0.22 0.17 1.44 200 Off 6 CB7 - C86 1.85 0.00 1.85 0.00 Comb 6.0 6.00 600 600 2.00 Sag 2.00 0 030 0.035 0.000 -0.02 -0.56 0.16 1.35 2.00 Off 5 C66 - CB5 0.64 0.00 0.64 000 Comb 6.0 300 0.00 3.00 2.00 0.005 2.00 0.030 0.035 0.013 0.16 4.86 025 2.41 2.00 4 4 C135 - CB4 0.17 0.00 0.17 0.00 Comb 6.0 3.00 3.00 3.00 2.00 Sag 2.00 0.030 0.035 0.000 -0.14, -4.56 0.04 0.34 200 Off 3 C84 - C63 1.86 0.00 1.86 0.00 Comb 60 600 6.00 600 200 Sag 2.00 0.030 0.035 0.000 -0.02 -056 0.16 1 35 2.00 Off 2 CB3 - D12 0.72 0.00 0.72 0.00 Comb 60 3.00 3.00 3.00 2.00 Sag 2.00 0.030 0.035 0.000 -0.07 -2.22 Oil 0.93 200 Off 1 D12 - HW1 1.31 0.00 1.31 0.00 DrGrt 0.0 0.00 300 3.00 2.00 Sag 2.00 0.035 0.035 0.000 016 10.97 0.16 10.97 0.00 Off Project File: Coldstream at Thrower-Inlets.stm I -D -F File: THROWER-NCDOT INLETS.IDF Number of lines: 73 Run Date: 07-18-2017 NOTES: Inlet N -Values = 0.016, Intensity = 3.971(Inlet time + 0.10) ^ 0.00; Return period = 5 Yrs. ; * Indicates Known Q added HydraFlow Storm Sewers 2003 Hydraflow Hydrographs by Intelisolve Coldstream at Thrower.gpw Wednesday, Jul 19 2017, 2:13 PM Hydrograph Return Period Recap...................................................................... 1 SummaryReport.................................................................................................:............... 2 HydrographReports........................................................................................................... 3 Hydrograph No. 1, Rational, Pre Dev............................................................................... 3 Hydrograph No. 2, Rational, Post Dev-Inflow................................................................... 4 Hydrograph No. 3, Reservoir, BMP -1 Outflow.................................................................. 5 PondReport................................................................................................................. 6 SummaryReport................................................................................................................. 7 HydrographReports........................................................................................................... 8 Hydrograph No. 1, Rational, Pre Dev............................................................................... 8 Hydrograph No. 2, Rational, Post Dev-Inflow................................................................... 9 Hydrograph No. 3, Reservoir, BMP -1 Outflow................................................................ 10 PondReport............................................................................................................... 11 100 -Year SummaryReport............................................................................................................... 12 HydrographReports......................................................................................................... 13 Hydrograph No. 1, Rational, Pre Dev............................................................................. 13 Hydrograph No. 2, Rational, Post Dev-Inflow................................................................. 14 Hydrograph No. 3, Reservoir, BMP -1 Outflow................................................................ 15 PondReport............................................................................................................... 16 Hyd. Hydrograph Inflow Peak Outflow (cfs) Hydrograph No. type Hyd(s) description (origin) 1 -Yr 2 -Yr 3 -Yr 5 -Yr 10 -Yr 25 -Yr 50 -Yr 100 -Yr 1 Rational ------- 50.31 ------- ------- ------- 81.01 ------- ------- 10808 Pre Dev 2 Rational ------- 65.67 ------- ------- ------- 10472 ------- ------- 13840 Post Dev-Inflow 3 Reservoir 2 17.27 ------- ------- ------ 24.96 ------- ------- 4944 BMP -1 Outflow Proj. file: Coldstream at Thrower.gpw Wednesday, Jul 19 2017, 2:13 PM Hydraflow Hydrographs by Intelisolve Hyd. No. Hydrograph type (origin) Peak flow (cfs) Time interval (min) Time to peak (min) Volume (cult) Inflow hyd(s) Maximum elevation (ft) Maximum storage (cult) Hydrograph description 1 Rational 50.31 1 21 63,395 ---- ------ ------ Pre Dev 2 Rational 6567 1 55 288,020 ---- ------ ------ Post Dev-Inflow 3 Reservoir 17.27 1 122 271,546 2 150.80 213,588 BMP -1 Outflow Coldstream at Thrower.gpw Return Period: 1 Year Wednesday, Jul 19 2017, 2:13 PM Hydraflow Hydrographs by Intelisolve M Hydraflow Hydrographs by Intelisolve Wednesday, Jul 19 2017, 2:13 PM Hyd. No. I Pre Dev Hydrograph type = Rational Peak discharge = 50.31 cfs Storm frequency = 1 yrs Time interval = 1 min Drainage area = 56.870 ac Runoff coeff. = 0.3 Intensity = 2.949 in/hr Tc by User; = 21.00 min OF Curve = Thrower.IDF Asc/Rec limb fact = 1/1 Q (cfs) 60.00 50.00 40.00 30.00 20.00 10.00 Pre Dev Hyd. No. 1 -- 1 Yr Hydrograph Volume = 63,395 cult Q (cfs) 60.00 50.00 40.00 30.00 20.00 10.00 0.00 -V I I i i i I I I 10.00 0.0 0.1 Hyd No. 1 0.2 0.3 0.3 0.4 0.5 0.6 0.7 0.8 Time (hrs) 3 Hydrograph Plat. Hydraflow Hydrographs by Intelisolve Hyd. No. 2 Post Dev-Inflow Hydrograph type = Rational Storm frequency = 1 yrs Drainage area = 56.870 ac Intensity = 3.299 in/hr OF Curve = Thrower.IDF Q (cfs) 70.00 60.00 50.00 40.00 30.00 20.00 10.00 Post Dev-Inflow Hyd. No. 2 -- 1 Yr Wednesday, Jul 19 2017, 2.13 PM Peak discharge = 65.67 cfs Time interval = 1 min Runoff coeff. = 0.35 Tc by User = 17.00 min Asc/Rec limb fact = 3.22/5.38 ----- - ---- 0.00 0.0 Hydrograph Volume = 288,020 cuft 0.3 0.7 1.0 1.3 1.7 2.0 2.3 Hyd No. 2 Q (cfs) 70.00 60.00 50.00 4000 30.00 20.00 0.00 2.7 Time (hrs) 4 5 Hydraflow Hydrographs by Intelisolve Wednesday, Jul 19 2017, 2:13 PM Hyd. No. 3 BMP -1 Outflow Hydrograph type = Reservoir Peak discharge = 17.27 cfs Storm frequency = 1 yrs Time interval = 1 min Inflow hyd. No. = 2 Max. Elevation = 150.80 ft Reservoir name = BMP -1 Max. Storage = 213,588 cuft Storage Indication method used I W 0 _ MA Hydrograph Volume = 271,546 cuft Q (cfs) Hyd. No. 3 --1 Yr Q (cfs) 70.00 - 70.00 60.00 60.00 50.00 50.00 40.00 40.00 30.00 30.00 20.00 20.00 10.00 m 10.00 0.00 0.00 0 4 8 13 17 21 25 29 33 38 42 Hyd No. 3 Hyd No. 2 Time (hrs) Hydraflow Hydrographs by Intelisolve Wednesday, Jul 19 2017, 2:13 PM Pond No. 1 - BIP -1 [Bl [C] [D] Pond Data = 2400 6.00 17.00 Pond storage is based on known contour areas. Average end area method used. Stage I Storage Table = 24.00 6.00 17.00 Stage (ft) Elevation (ft) Contour area (sqft) Incr. Storage (cuft) Total storage (cult) 0.00 148.00 66,779 0 0 0.50 14850 73,542 35,080 35,080 100 149.00 75,277 37,205 72,285 2.00 150.00 78,791 77,034 149,319 300 15100 82,362 80,577 229,896 4.00 152.00 58,989 70,676 300,571 500 15300 89,672 74,331 374,902 6.00 154.00 93,413 91,543 466,444 Culvert I Orifice Structures [A] [Bl [C] [D] Rise (in) = 2400 6.00 17.00 0.00 Span (in) = 24.00 6.00 17.00 0.00 No. Barrels = 1 1 3 0 Invert EI. (ft) = 147.50 148.00 148.90 0.00 Length (ft) = 80.00 0.50 0.50 0.00 Slope (%) = 0.50 001 0.00 0.00 N -Value = .013 .013 .013 .000 Orif. Coeff. = 0.60 0.60 0.60 000 Multi -Stage = n/a ,Yes Yes No Stage (ft) 600 5.00 4.00 3.00 2.00 100 0 00 Weir Structures [A] [B] [C] [D] Crest Len (ft) = 16.00 30.00 0.00 0.00 Crest El. (ft) = 152.50 15325 0.00 0.00 Weir Coeff. = 3.33 2.60 0.00 0.00 Weir Type = Riser Broad --- Multi-Stage = Yes No No No Exfiltration = 0 000 in/hr (Contour) Tailwater Elev. = 0.00 It Note Culvert/Orifice outflows have been analyzed under inlet and outlet control Stage I Discharge Stage (ft) 600 500 4.00 3.00 200 1.00 0 00 0.00 900 18.00 27.00 36.00 45.00 54.00 63.00 72.00 81 00 90.00 Total Q Discharge (cfs) C Hyd. No. Hydrograph type (origin) Peak flow (cfs) Time interval (min) Time to peak (min) Volume (cuft) Inflow hyd(s) Maximum elevation (ft) Maximum storage (cuft) Hydrograph description 1 Rational 81.01 1 21 102,079 ---- ------ ------ Pre Dev 2 Rational 104.72 1 55 459,305 ---- ------ ------ Post Dev-Inflow 3 Reservoir 24.96 1 124 440,673 2 152.56 342,167 BMP -1 Outflow Coldstream at Thrower.gpw Return Period: 10 Year Wednesday, Jul 19 2017, 2:13 PM Hydraflow Hydrographs by Intelisolve Hydrograph i€.fit Hydraflow Hydrographs by Intelisolve Wednesday, Jul 19 2017, 2:13 PM Hyd. No. I Pre Dev Hydrograph type = Rational Peak discharge = 81.01 cfs Storm frequency = 10 yrs Time interval = 1 min Drainage area = 56.870 ac Runoff coeff. = 0.3 Intensity = 4.749 in/hr Tc by User = 21.00 min OF Curve Thrower.IDF Asc/Rec limb fact = 1/1 Q (cfs) 90.00 80.00 70.00 60.00 50.00 40.00 30.00 20.00 10.00 0 00 Pre Deer Hyd. No. 1 -- 10 Yr Hydrograph Volume = 102,079 cult 0.0 0.1 0.2 0.3 0.3 0.4 0.5 0.6 0.7 Hyd No. 1 Q (cfs) 90.00 80.00 70.00 60.00 50.00 - - 40.00 30.00 20.00 10.00 0.00 0.8 Time (hrs) 9 Hydrograph Plot Hydraflow Hydrographs by Intelisolve Hyd. No. 2 Post Dev-Inf low Hydrograph type = Rational Storm frequency = 10 yrs Drainage area = 56.870 ac Intensity = 5.261 in/hr OF Curve = Thrower.IDF Q (cfs) 120.00 100.00 :1 11 60.00 40.00 20.00 Wednesday, Jul 19 2017, 2:13 PM Peak discharge = 104.72 cfs Time interval = 1 min Runoff coeff. = 0.35 Tc by User = 17.00 min Asc/Rec limb fact = 3.2215.38 Hydrograph Volume = 459,305 cuft Poet Dev-Inflow Hyd. No. 2 -- 10 Yr Al -- -------- ------ - ------- Q (cfs) 120.00 11 it 40.00 20.00 0.00 0.00 0.0 0.3 0.7 1.0 1.3 1.7 2.0 2.3 2.7 Hyd No. 2 Time (hrs) �" 3 s�` i"� # �� ,•ori �� ' `l �`�'' � (#� Hydraflow Hydrographs by Intelisolve Wednesday, Jul 19 2017, 2.13 PM Hyd. No. 3 BMP -1 Outflow Hydrograph type = Reservoir Peak discharge = 24.96 cfs Storm frequency = 10 yrs Time interval = 1 min Inflow hyd. No. = 2 Max. Elevation = 152.56 ft Reservoir name = BMP -1 Max. Storage = 342,167 cuft Storage Indication method used. Q (cfs) 120.00 100.00 111 i� 20.00 0.00 0 4 7 Hyd No. 3 BMP -1 Outflow Hyd. No. 3 -- 10 Yr Hydrograph Volume = 440,673 cuft Q (cfs) 120.00 100.00 :1 1I 40.00 20,00 0.00 11 15 18 22 26 29 33 37 40 Hyd No. 2 Time (hrs) Pond Report Hydraflow Hydrographs by Intelisolve Wednesday, Jul 19 2017, 2:13 PM Pond No. 1 - 13MP-1 Pond Data Pond storage is based on known contour areas. Average end area method used. Stage I Storage Table Stage (ft) Elevation (ft) 0.01 Contour area (sgft) Incr. Storage (cuft) Total storage (cult) _ .013 .013 0.00 148.00 Orif. Coeff. 66,779 0.60 0 0 Multi -Stage = n/a 0.50 148.50 No Exfiltration = 0.000 in/hr (Contour) Tailwater Elev. = 0.00 It 73,542 35,080 35,080 1.00 149.00 75,277 37,205 72,285 2.00 150.00 78,791 77,034 149,319 3.00 15100 82,362 80,577 229,896 4.00 15200 58,989 70,676 300,571 5.00 153.00 89,672 74,331 374,902 6.00 154.00 93,413 91,543 466,444 Culvert I Orifice Structures Weir Structures [A] [B] [C] [D] [A] [Bl [C] [D] Rise (in) = 24.00 6.00 17.00 0.00 Crest Len (ft) = 16.00 30.00 000 000 Span (in) = 24.00 6.00 1700 0.00 Crest El. (ft) = 152.50 15325 0.00 0.00 No. Barrels = 1 1 3 0 Weir Coeff. = 3.33 2.60 0.00 0.00 Invert El. (ft) = 147.50 148.00 148.90 0.00 Weir Type = Riser Broad --- --- Length (ft) = 80.00 0.50 050 0.00 Multi -Stage = Yes No No No Slope (%) = 0.50 0.01 0.00 0.00 N -Value _ .013 .013 .013 .000 Orif. Coeff. = 060 0.60 0.60 0.00 Multi -Stage = n/a Yes Yes No Exfiltration = 0.000 in/hr (Contour) Tailwater Elev. = 0.00 It Stage (ft) Stage I Discharge 6.00 5.00 ---- ---_- -- - --- - 4.00 2.00 1.00 00 Note. Culvert/Onfice outflows have been analyzed under inlet and outlet control Stage (ft) 6.00 5.00 400 3.00 2.00 1.00 000 0.00 9.00 18.00 27.00 36.00 45.00 54.00 63.00 7200 81.00 90.00 Total Q Discharge (cis) IF Hyd. No. Hydrograph type (origin) Peak flow (cfs) Time interval (min) Time to peak (min) Volume (cult) Inflow hyd(s) Maximum elevation (ft) Maximum storage (cult) Hydrograph description 1 Rational 108.08 1 21 136,184 ---- - --- ------ Pre Dev 2 Rational 138.40 1 55 607,009 ---- ------ ------ Post Dev-Inflow 3 Reservoir 49.44 1 113 586,836 2 153.60 429,422 BMP -1 Outflow Coldstream at Thrower.gpw Return Period: 100 Year Wednesday, Jul 19 2017, 2:13 PM Hydrafiow Hydrographs by intelisolve Hydrograph Plt it Hydraflow Hydrographs by Intelisolve Hyd. No. I Pre Dev Hydrograph type = Rational Storm frequency = 100 yrs Drainage area = 56.870 ac Intensity = 6.335 in/hr OF Curve = Thrower.IDF Q (cfs) 120.00 4x.00 20.00 Pre Dev Hyd. No. 1 --100 Yr Wednesday, Jul 19 2017, 2:13 PM Peak discharge = 108.08 cfs Time interval = 1 min Runoff coeff. = 0.3 Tc by User = 21.00 min Asc/Rec limb fact = 1/1 Hydrograph Volume = 136,184 cuft Q (cfs) 120.00 100.00 80.00 60.00 20.00 0.0 0.1 0.2 0.3 0.3 0.4 0.5 0.6 0.7 0.8 Hyd No. 1 Time (hrs) 13 Hydrograph sl:lt Hydraflow Hydrographs by Intelisolve Hyd. N®. Post Dev-Inflow Hydrograph type = Rational Storm frequency = 100 yrs Drainage area = 56.870 ac Intensity = 6.953 in/hr OF Curve = Thrower.IDF Q (cfs) 140.00 120.00 100.00 80.00 60.00 40.00 20.00 0.00 " ' 0.0 0.3 Hyd No. 2 Wednesday, Jul 19 2017, 2.13 PM Peak discharge = 138.40 cfs Time interval = 1 min Runoff coeff. = 0.35 Tc by User = 17.00 min Asc/Rec limb fact = 3.22/5.38 Hydrograph Volume = 607,009 cult Post Dev-Inflow Hyd. No. 2 --100 Yr 0.7 1.0 1.3 1.7 2.0 2.3 Q (cfs) 14000 120.00 100.00 80.00 60.00 40.00 20.00 0.00 2.7 Time (hrs) 14 Hydraflow Hydrographs by Intellsolve Wednesday, Jul 19 2017, 2:13 PM Hyd. No. 3 BMP -1 Outflow Hydrograph type = Reservoir Peak discharge = 49.44 cfs Storm frequency = 100 yrs Time interval = 1 min Inflow hyd. No. = 2 Max. Elevation = 153.60 ft Reservoir name = BMP -1 Max. Storage = 429,422 cuft Storage Indication method used. Hydrograph Volume = 586,836 cuft Q (cfs 14000 120.00 100.00 .* 11 11-91111111 40.00 BMP -1 Outflow Hyd. No. 3 --100 Yr 0.00 0 Q (Cfs) 140.00 120.00 W1i1 I� 40.00 20.00 rrra 3 5 8 11 13 16 19 21 24 27 vvL Hyd No. 3 Hyd No. 2 Time (hrs) `tai M�:'(��', Hydraflow Hydrographs by Intelisolve Wednesday, Jul 19 2017, 2:13 PM Pond No. 1 - BMP -9 [B] [C] [D] Pond Data = 24.00 6.00 17.00 Pond storage is based on known contour areas. Average end area method used. Stage / Storage Table = 24.00 6.00 17.00 Stage (ft) Elevation (ft) Contour area (sqft) Incr. Storage (cuft) Total storage (cult) 0.00 14800 66,779 0 0 0.50 148.50 73,542 35,080 35,080 1.00 149.00 75,277 37,205 72,285 2.00 150.00 78,791 77,034 149,319 3.00 151 00 82,362 80,577 229,896 400 152.00 58,989 70,676 300,571 5.00 153.00 89,672 74,331 374,902 6.00 154.00 93,413 91,543 466,444 Culvert / Orifice Structures [A] [B] [C] [D] Rise (in) = 24.00 6.00 17.00 000 Span (in) = 24.00 6.00 17.00 0.00 No. Barrels = 1 1 3 0 Invert EI. (ft) = 147.50 148.00 148.90 0.00 Length (ft) = 8000 0.50 0.50 0.00 Slope (%) = 0.50 0.01 0.00 0.00 N -Value = .013 .013 .013 .000 Orif. Coeff. = 0.60 0.60 0.60 000 Multi -Stage = n/a Yes Yes No Stage (ft) 6.00 5.00- 4.00- 3.00 .004.003.00 2.00 1.00 0 00 Weir Structures [A] [B] [C] [D] Crest Len (ft) = 16.00 30.00 0.00 0.00 Crest EI. (ft) = 152.50 153.25 0.00 0.00 Weir Coeff. = 3.33 2.60 0.00 0.00 Weir Type = Riser Broad --- --- Multi-Stage = Yes No No No Exfiltration = 0.000 in/hr (Contour) Tailwater Elev. = 0.00 ft Stage / Discharge Note, Culvert/Orifice outflows have been analyzed under inlet and outlet control T_ T Stage (ft) 6.00 5.00 4.00 3.00 2.00 1.00 0 00 0.00 900 18.00 27.00 36.00 45.00 5400 63.00 72.00 81.00 90.00 Total Q Discharge (cfs) User Input Data Calculated Value Ikefor pe, Designed By: JAN, PE' Date: = 6/28/2017 Checked By: Date Company: =Larry King & Assoc. - Project Name: Coldstone at Thrower Project No.: -?16-086 - Site Location (City/Town) Fayetteville, NC Culvert Id. FES -92193 Total Drainage Area (acres) Step 1. Determine the tailwater depth from channel characteristics below the pipe outlet for the design capacity of the pipe. If the tallwater depth is less than half the outlet pipe diameter, it is classified Minimum tall-t-Vatef condition - If it is greater than half the pipe diameter. it iY classified maxinitin-i condition. Pipes that outlet onto wide flat areas with no defined channel are, assiuned to have a inininnini tallwater condition unless reliable flood stage elevations show otherwise. Outlet pipe diameter, D,, (in.) Tailwater depth (in.) Minimum/Maximum tailwater? Discharge (cfs) Velocity (ft./s) 18 0 Min TW- Fig 8'.06a)- 5.5 -3.2 Step 2. Based on the tallwater condition-, deterinifled in step 1, enter Figure 8.06a or Figure 8.06b, and determine d,, riprap size and miniminn apron length (L,,). The d,,, size is the, median stone size in a tip; ell -graded riprap apron. Step 3. Determine apron width at the pipe outlet, the apron shape, and the apron width at the outlet end from the same figure used in Step 2. Minimum TW Maximum TW Figure .Figure -1qu f6 8,06b, jp� Riprap d6o, (ft.) 0.3 Minimum apron length, La (ft.) 10 Apron width at pipe outlet (ft.) 4.5_ 4.5 Apron shape Apron width at outlet end (ft.) 11.5 1.5 Step 4. Determine the tnaxinnuin stone diameter: X (150 Minimum TW Max Stone Diameter, dmax (ft.) 0.45 Stell 5. Detetnutne theapron thickness: Apron Thickness(ft.) Apron thickness = -1.5 x Minimum TW 0.675 Maximum T11i1 0 Maximum TVI/ 0 Step 6. Fit the riprap apron to the site by making it level for the tnnitnitnttun length, L,, from Figure 8.06a or Figure 8.06b. Extend the apron farther doiN,nstreatn and along chmuiel barnks tuitil stability is assured. Keep the apron as straight as possible andalign it v-,ith the flow of the receiving streatnt. ivlake any necessary alipunernt betids near the pipe outlet so that the entrance into the receiving stream is straight. Sonne locations may require lining of the entire chatunel cross section to aisure stabilit-: It may be necessary to uncrease the size of riprap where protection of the channel side slopes is necessary (Appe div 8.05). ' 441ere overfalls exist at pipe outlets or flows are excessive, a plunge pool should be considered, see page 8.06.8. Userinput Data Calculated Value Reference -Data" . Designed y: AN, PE Date: 6/28/2017 Checked By: Date: Company: Larry King & Assoc. Project Dame: Coldstone at Thrower Project No.: P16-086 Site Location (City/Town) Culvert Id. Total Drainage Area (acres) Fayetteville, NC HW -1 Step 1. Determine the tailwater depth frons channel characteristics below the pipe outlet for the design capacit3, of the pipe_ If the tailwater depth is less than half the outlet pipe diailleter it is classified nlininiuni tailwater conditioll. If it is greater than half the pipe diameter, it is classified 111axllllu111 co dltloil. Pipes that outlet onto wide -fiat areas with no defined channel are assullled to slat=e a min11 uni tailwater condition unless reliable flood stage elevations show otherwise. Outlet pipe diameter, Do (in.) Tailwater depth (in.) Minimum/Maximum tailwater? Discharge (cfs) Velocity (ft./s) 42 8.5 Min TW (Fig. 8.06a) 45 6.2 Step 2. Based on the tailwater conditions determined in step 1, enter Figure 8.06a or Figure 8.06b, and determine dye, riprap size and minimum apron length (Lai. The d,r size is the lmediatistone :size in a well -graded riprap apron. Step 3. Determine apron width at the pipe outlet, the apron shape, and the apron width at the outlet end from the sante figure used in Step 2. Minimum TW Fi-0i a 8.06a Riprap d50, (ft.) Maximum TW °.'Figure'8.'06b 0.2 1-1 Minimum apron length, La (ft.) Apron width at pipe outlet (ft.) 10.5 Apron shape Apron width at outlet end (ft.) 3.5 Step 4. Determine the iiiaxinitim stone dimneter: dmax=1.5xd., Minimum TW Max Stone Diameter, dmax (ft.) 0 Step 5. Determine the apron thiciciess: Apron Thickness(ft.) Apron thickness = 'I S x dr„,,. Minimum Til 0 16 10.5 9.9 Maximum TW 0.3 Maximum TW 0.45 Step 6. Fit the riprap apron to the, site by nialcilig it level for the minimum length, L, , f -om Figure 8.06a or Figure 8.06b. Extend the apron farther c ownstrealn and along chalinel balilcs tultil stability is asstwed. Veep the apron as straight as possible and alibi it kvith the flow of the receiving strealn. itial e any nec:essar}` allgllliielit heti S near the pipe outlet so that the entrallce into the receiving stleain is straight. �olYie locations may require liiiillg of the entire el1a121]el cross section to assure stability It may be necessary to increase the size of riprap where protection of the chatulel 51de slopes is necessary (Appondix 8.05). Where ovetfalls exist at pipe outlets or flows are excessive, a plunge pool should be considered, see page 8.06.8. 11 User Input Designed By: JAN, PE Date: 612k0`17 Checked By: Date: Company: Larry King & Assoc, Project Name: ;Coldstone at Thrower Project No.: - P16-086 - - Site Location (CitylTown) Fayetteville, NC Culvert Id. HW -21 Total Drainage Area (acres) Step 1. Deters -nine the tail,"rater depth from channel characteristics below tl-e pipe outlet for the design capacit-,r of the pipe. If the tailwater depth is less tl-an half the outlet pipe dianieter, it is classified iiiinlnnum taillvater Conditioll. If it is greater than half the pipe dituneter. it is classified. in milituu condition, Pipes that outlet onto wide flat areas lVith no defined channel are assnnnned to have a nninii-hili- tailwater condition -unless reliable flood stage elevations shote othenvise. Outlet pipe diameter, Do (in.) Tailwater depth (in.) Minimum/Maximum tailwater? Discharge (cfs) Velocity (ft./s) 30 5.4 Min TW (Fig. 8.06a) 15 5 Step 2. Based on the tailwater conditions deternRiled in Step 1, enter Figure 8.06a or Figure 8.06b, and deterinnine d,,, riprap size and minimum apron length (L�,). The di; size is the median stone size in a well -graded riprap apron. -Step 3. Determine apron-vidth at the pipe outlet, the apron shape, and the apron ..=-titin at the outlet el-rl from the wine figure used in Step 2. Minimum TW Figure 8.06a Riprap d50, (ft.) Maximum TW ,,Figure 8.06b, 0,2; 12 Minimum apron length, L., (ft.) Apron width at pipe outlet (ft.) 7.5 7.5 Apron shape Apron width at outlet end (ft.) 2.5 7.3 Step 4. Determine the, inalminiuln stone diculleter: C[M.lx —'1 .5 x cl,,, Minimum TW Max Stone Diameter, dmax (ft.) 0 Step 5, Determine the apron thicloiess-, Apron Thickness(ft.) Apron thickness = -1.5 x cl... Minimum TW 0 Maximum TW 0.3 Maximum TW 0.45 Step 6. Fit the riprap apron to the site by making it level for the nlininitini length, L, ffoill Figure 8-06a of Figure 8.06b. Extend the apion faillier downstream and along channel banicr, until stability is assured. Keep the apron as straight as possible andaligpi it with the flow of the receiving Stream N4ake any necessm-yaligniiient bends near the pipe outlet so that the entrance into the receiving streati-i is -i;traight. Some locations ii-tay require lining of the entire clumiliel. cross section to assure stabiliry It nlav be necessary to increase the size of f1prap where protection of the channel side slopes is necessmy (4ppenclix 8.05). NX17here overfalls e,,ust at pipe outlets or flows are excessive, a plunge pool should be considered, see page 8.06.8. 12 M User Input Data, Calculated Value Designed By: JAN, PE Date: -6/28i2017 Checked By: 'Date: Company: Iairry King & Assoc, Project Name: -Coldstone at Thrower Project No.: P16-086 Site Location (City/Town) Fayetteville,- NC Culvert Id. HW-30_ TotalDrainage Area (acres) Step 1. Determine the tailwater depth from channel characteristics below the - Pipe Outlet for the design capacity of the pipe. If the tailwater depth is le -ss than half the outlet pipe diainetef, it is classified minl'tuuni tailwater condition. If it is greater than, half the pipe diaiiieter, it is classified in-imu'11111n condition. Pipes that outlet onto wide flat areas with no defined channel are assuined to have a iiiiiiiiiiiiiii tailwater condition unless reliable flood stage elevation's show otherwise. Outlet pipe diameter, Do (in.) Tailwater depth (in.) Minimum/Maximum tailwater? Discharge (cfs) Velocity (ft,/s) 54 -8 Min TW (Fig. 8.06a) 82, -6.76 Step 2. used on the tailwater conditions determined in step 1, enter Figure 9.06a or Figure S. 06b, and deterinine (150 riprap size and minimum apron length (L,). The d� size is the mediaii stone size in a well -graded riprip apron. Step 3. Determine apron width at the pipe outlet, the apron shape, and the apron width at the outlet end from the same figure used in Step 2. Minimum TW Maximum TW ure 8 06a. a Figure 8.06b- Riprap d50, (ft.) Minimum apron length, L. (ft.) Apron width at pipe outlet (ft.) 13.5 13.5 Apron shape Apron width at outlet end (ft.) 4.5 12.5 Step 4. Determine the maxiinuin stone diameter: dn.ax = 1,5 x d., Minimum TW Max Stone Diameter, dmax (ft.) 0 Step 5. Deternuine the apron thiclaiess- Apron Thickness(ft.) Apron thickness = 1,C) x d,,.,,, Minimum TW 0 Maximum TIT 0.6 Maximum TIT 0.9 Step 6. Fit the riprap apron to the site by making it level for the i-nininitim length, La, Froin Figme &06a or Figuie 8.06b� Extend the apron farther downstream and along , chaiiiiel banks tuitil stability is assured. Keep the apron as straight as possible and align it with the flow of the receiving stream. Make wiy necessary aligimient bends near the pipe outlet so that the entrance into the, receiving stream, is, straight. Some locations may require linuila of the entire channel cross section to assure stability. It illay ire necessary to U"Icrease the size of r1prap -k%rhere protection of the channel side slopes is necessary (4ppenclix 8.05). N71iere o-verfalls exist at pipe outlets or flows are excessive, a pluilge pool should be considered. we page 8.06.8. C, 20 M t5outheasstern Sdfl & En%v"oronrneniftal Associates, Inc. P.O. Box 9321 Fayetteville. NO 28311 Phone/Fay (910) 822-4540 Email mike@southeasternsoil.com February 28, 2017 Ms. born Epler Larry King & Associates, RLS, PA 1333 Morganton Road, Suite 201 Fayetteville. NC 28305 Re: Hydraulic conductivity (permeability) analysis & seasonal water table determination (SHWT) for potential stormwater retention areas, Coldstream at Thrower Development, Cumberland County, North Carolina Dear Ms. Epler, An evaluation of soil properties and hydraulic conductivity (Ksat) has been conducted at your request on portions of the aforementioned property. The purpose of the investigation was to determine soil water table depths (SHWT) based on soil profiles. In addition, Ksat was to be provided at a depth of at least 2.0 feet above the SHWT elevation for use with stormwater retention basin design. Saturated hydraulic conductivity of the unsaturated zone -",as measured in a similar method as described in the Soil Science Society of America Journal, Vol. 53, no 5, Sept. - Oct. 1989, "A Constant Permeameter for Measuring Saturated Hydraulic Conductivity of the Vadose Zone" and Comparison of the Glover Solution with the Simultaneous Equations Approach for Measuring Hydraulic Conductivity." This consists of advancing a small diameter bore hole to a predetennined depth (typically 2 feet above SHWT). At this depth, a constant head (pressure) was established and maintained. Flow measurements were made at timed intervals after flow stabilized. Soils at the proposed basin site are most similar to the Norfolk (borings 1, 2, 6, 7, 8, 9 & 503) and Rains soil series (borings 3, 4, 5 & 502). Seasonal High Water Table (SHWT) as determined by evidence of colors of chroma 2 or less (and/or concentrations of high redox mottles) was encountered at depths ranging from 0 to 70 inches below the ground surface (see chart attached). SOiL/SITE EVALUATION o SOIL PHYSICAL ANALYSIS e LAND WEISUBDIVISION PLANNING ^ iNETLANQS GROUNDWATER DRAINAGE/MOUNDING . SURFACEISUBSURFACE WASTE TREATMENT SYSTEMS, EVALUATION & DESIGN Three compact constant head pernieameter (CCHP) tests were conducted at depths of at least 2.00 feet above the SHWT level. The measured Ksat rates ranged between 0.089 and 0.517 cm/hr (equivalent to 0.035 to 0.203 inches/hour). The attached map shows locations of the sample points as well as Ksat locations. It should be noted that the reported SHWT does not necessarily reflect the elevation of static groundwater (due to variations irr groundwater recharge rates, annual rainfall, drought conditions, etc.). The data presented in this report are limited by a number of considerations. The primary consideration is that soil formations can be hi gl-dy variable. The soils found on this site can be subject to inchisions of other soil types, perched water, artesian conditions and/or layers of undulating low permeability clay seams. These and other soil conditions can have an effect on the steady state of ground-vater flow. To the extent possible, we have identified the soil types that i; ll impact the flow of groundwater, and have provided a professional opinion as to the depth of SHWT- I trust this is the information you require at this time. Sincerely, lflike Laker NC Licensed Soil Scientist #1030 �r�i"tom �' 700 Southeastern WH & EnvironmentalAssociates, Inc. P.O. Box 0321 Fayetteville, NG 28311 Phone/Fax (310) 822-4540 Email mike@southeasternsall.com SI NVT depths, Coldstream at Thrower Development, Cumberland County, North Carolina BORING S1J[WT DEPTH (inch2s) Observed Watcr Ljnches) 1 70 100 2 63 94 3 28 38 4 0 27 5 5 68 6 21 81 7 34 87 8 37 88 9 48 87 502 18 77 503 59 101 SOIUSITE EVALUATION v SOIL PHYSICAL ANALYSIS ? LAND USE/SUBDIVISION PLANNING < WETLANDS GROUNDWATER DRAINAGE/MOUNDING e SURFACE/SUBSURFACE WASTE TREATMENT SYSTEMS, EVALUATION & DESIGN � � of En v k irnn� As da � � ® P.O. Box 9321 Fayetteville, NC 28311 Phone/Fax (910) 822-4540 Email mike@southeasternsoil.corn Measured Ksat Rates, Smith Packett, rockfish Road, Cumberland County, NC .A SOIUSITE EVALUATION o SOIL PHYSICAL ANALYSIS • LAND USE/SUBDIVISION PLANNING . WETLANDS GROUNDWATER DRAINAGEIMOUNDING • SURFACEJSUBSURFACE WASTE TREATMENT SYSTEMS. EVALUATION & DESIGN Ksat Ksat Location Depth in cm/hr in/lir 1 46 0.517 0.203 2 39 0.089 0.035 503 35 0.122 0.048 .A SOIUSITE EVALUATION o SOIL PHYSICAL ANALYSIS • LAND USE/SUBDIVISION PLANNING . WETLANDS GROUNDWATER DRAINAGEIMOUNDING • SURFACEJSUBSURFACE WASTE TREATMENT SYSTEMS. EVALUATION & DESIGN Southeastern Soy & Environmental Associates, Mc. P.O. Box 9321 Fayetteville, NC 28311 Phone/Fax(910)822-4540 Email mike@southeasternsoil.com Typical Proflle Description for Coldstream at Thrower (Borings 1, 2 & 503), Cumberland County, North Carolina This map unit consists of well drained soils on uplands. These soils formed in loamy marine sediments. Slopes range fi-om 0 to 2 percent. ZD Ap - 0 to 10 inches; dark yellowish brown (I OYR 4/4) loamy sand; weak fine granular structure; very friable; many fine roots; abrupt smooth boundary. Btl - 10 to 38 inches; yellowish brown (1 OYR 5/6) sandy clay loam; moderate medium subangular blocky structure; firm; slightly sticky, slightly plastic; clay coating and bridging of sand grains; many fine roots; abrupt smooth boundary. Bt2 - 38 to 62 inches; yellowish brown (I OYR 5/6) sandy clay foam; few medium prominent strong brown (7.5YR 516) mottles; weak medium subangular blocky structure; firm; slightly sticky, slightly plastic; few thin clay films on faces of peds and pores; common fine roots; gradual wavy boundary_ BC - 62 to 70 inches; light yellowish brown (1 OYR 6/4) sandy clay loam; many medium prominent red (2.5YR 518) and yellow (I OYR 7/8) mottles; massive; firm; gradual wavy boundary. CI- 70 to 88 inches; light yellowish brown (I OYR 6/4) sandy clay loam; many medium prominent red (2.5YR 5/8), yellow (I OYR 7/8) and light gray (I OYR 7/1) mottles; massive; firm; gradual wavy boundary. C2 - 88 to 105 inches; light gray (l OYR 7/1) sandy loam; many inedium prominent brownish yellow (I OYR 6/6) mottles; massive structure; firm. SHIFT @ 70 inches in boring 1 (surface IOYR 7/1) SHWT @ 63 inches in boring 2 (surface 1 OYR 7/1) SHWT @ 59 inches in boring 503 (surface 10YR 7/1) A 501118ITE EVALUATION , SOIL PHYSICAL ANALYSIS e LAND USE/SUBDIVISION PLANNING • WETLANDS GROUNDWATER DRAINAGEIMOUNDING • SURFACEISUBSURFACE WASTE TREATMENT SYSTEMS, EVALUATION & DESIGN o � tern Solt & EnvironmientalAssoclates, Inc.. P.O. Box 9321 Fayetteville, NC 28311 Phone/Fax (910) 822-4540 Email tnka@southeasternsoil.com Typical Profile Description for Coldstream at Thrower (Borings 3, 4, 5 & 502), Cumberland County, North Carolina This map unit consists of poorly drained soils that formed in loamy sediments on uplands. Slope is less than 2 percent. Seasonal hibh water table (SHWT) is at or near the original surface. A - 0 to 10 inches; dark grayish brown (I OYR 4/2) sandy loam; weak fine granular structure; very friable; common fine and medium roots; abrupt smooth boundary. Btgl - 10 to 34 inches; light brownish bray (I OYR 6/2) sandy clay loam; few fine faint brownish yellow (I OYR 616) mottles; weak fine subangular blocky stricture; firm; gradual wavy boundary. Bt,,,? - 34 to 54 inches; gray (I OYR 6/1) sandy clay loam; many medium prominent yellowish brown (10YR 5/8) mottles; weak fine subangular blocky structure; firm; gradual wavy boundary. BCg - 54 to 74 inches; gray (I OYR 6/1) and light yellowish brown (I OYR 6/4) sandy loam; weak medium subangular blocky structure; very friable. SHWT @ 28" (1 OYR 7/2) in boring 3 SHWT a 0" (10YR 3/1) in boring 4 SHWT @ 5" (tOYR 4/2) in boring 5 SHWT @ 18" (1 OYR 5/1) in boring 502 SOIUSITE EVALUATION ® SOIL PHYSICAL ANALYSIS • LAND USE/SUBDIVISION PLANNING ^ WETLANDS GROUNDWATER DPAINAGE/MOUNDING o SURFACE/SUBSURFACE WASTE TREATMENT SYSTEMS, EVALUATION & DESIGN Southeastem Soil & EnvironmentalAssociates, Inc. P.O. Box 9321 Fayetteville, NC 28311 Phone/Fax (910) 822-4640 Ernaii mike@southeasternsoil.com Typical Profile Description for Coldstream at Thrower (Borings 6, 7, 8 & 9), Cumberland County, North Carolina This map unit consists of -fell drained soils on uplands. These soils formed in loamy marine sediments. Slopes range from 2 to 5 percent. Ap - 0 to 10 inches; dark yellowish brown (10YR 4/4) loamy sand; weak fine granular structure; very friable; many fine roots; abrupt smooth boundary. Bt - 10 to 34 inches; yellowish brown (I OYR 5/6) sandy clay loam: moderate medium subangular blocky structure; firm; slightly sticky, slightly plastic; clay coating and bridging of sand grains; many tine roots; abrupt smooth boundary. Bt2 - 34 to 47 inches; brownish yellow (1 OYR 6/6) sandy clay loam; many medium prominent gray (10YR 6/1) and few medium prominent yellowish red (5YR5/8) mottles; Nveak medium subangular blocky structure; firm; slightly sticky, slightly plastic; few thin clay films on faces of peels and pores; common kine roots; gradual wavy boundary_ BC - 47 to 60 inches; gray (l OYR 6/1) sandy loam; many medium prominent olive yellow (2.5Y 6/8) and yellow (1 OYR 7/8) mottles; massive; friable; gradual wavy boundary. CI- 60 to 84 inches; brownish yellow (l OYR 6/6) sandy loam; many medium prominent red (2.5YR 518), yellow (1 OYR 7/8) and light Dray (1 OYR 7/1) mottles; massive; firm; gradual wavy boundary. C2 - 84 to 112 inches: mixed mottled red (2.5YR 418), brownish yellow (l OYR 616) and light gray (I OYR 7/1) coarse sand; massive structure; friable. SHWT @ 21 inches in boring 6 (surface I OYR 7/1) SHWT Via; 34 inches in boring 7 (surface 10YR 7/1) SHWT @ 37 inches in boring 8 (surface I OYR 7/1) SHWT @ 48 inches in boring 9 (surface I OYR 7/1) SOIUSITE EVALUATION - SOIL PHYSICAL ANALYSIS 0 LAND USEISUBDIVISION PLANP41NG a WETLANDS GROUNDWATER DRAINAGEIMOUNDING ® SURFACEISUBSURFACE WASTE TREATMENT SYSTEMS, EVALUATION & DESIGN .---_o &---E-n- viro-nme- Mai- Assom"tes, Inc. P.O. 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