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Home My WebLink AboutCT 05-08; STORM DRAIN REPORT; 2005-01-14STORM DRAIN REPORT FOR Carlsbad Research Center Carlsbad, California January 14, 2005 DWG No. Prepared By: PARTNERS Planning and Engineering 15938 Bernardo Center Drive San Diego, CA 92127 (858) 376-3444 Andrew J. Kann RCE 50940 Registration Expires 9-30-2005 TABLE OF CONTENTS SITE AND PROJECT DESCRIPTION page 1 METHODOLOGY page 1 EXISTING CONDITIONS page 1 DEVELOPED CONDITIONS page 1 EXISTING RUNOFF ANALYSIS page 1 DEVELOPED RUNOFF ANALYSIS page 2 CURB INLET DESIGN AND ANALYSIS page 2 CULVERT DESIGN AND ANALYSIS page 2 CHANNEL DESIGN AND ANALYSIS page 2 DETENTION BASIN DESIGN AND ANALYSIS page 3 RESULTS AND CONCLUSIONS page 3 LIST OF FIGURES FIGURE 1: VICINITY MAP page 4 FIGURE 2: PROPOSED HYDROLOGY MAP attached FIGURE 3: EXISTING HYDROLOGY MAP attached LIST OF APPENDICES Appendix 1: Runoff Coefficients Appendix 2: 100-Year Isopluvial Charts Appendix 3: Intensity - Duration Design Chart Appendix 4: Steady Uniform Flow in Open Channels Table 7-11 Appendix 5: Nomogram-Capacity, Curb Inlet at Sag Appendix 6: Handbook of Hydraulics Tables 7-4, 7-11 and 7-14 SITE AND PROJECT DESCRIPTION This storm drain report has been prepared as part of the Development Permit submittal requirements for the development of Carlsbad Research Center. The proposed development includes nine (9) office buildings with associated parking, landscaping and hardscape. The project site is located east of Interstate 5, west of El Camino Real and north of Palomar Airport Road and south of SR 78. See Figure No. I for Vicinity Map. See Figure 2 attached at the end of this report for the proposed drainage limits. See Figure 3 attached at the end of this report for the existing drainage limits. METHODOLOGY This drainage report has been prepared in accordance with current City of Carlsbad regulations and procedures. All of the proposed pipes, curb inlets and grass-lined swales were designed to intercept and convey the 100-year storm. The Modified Rational Method - was used to compute the anticipated runoff. See the attached calculations for particulars. The following references have been used in preparation of this report: County of San Diego Hydrology Manual, April, 1993. Handbook of Hydraulics, E.F. Brater & H.W. King, 6" Ed., 1976. EXISTING CONDITIONS: - The project site lies within the Carlsbad Research Center north of Faraday Ave. as mass graded pad. Runoff from the site currently follows natural drainage paths southwesterly to an existing, sump inlet per drawing _____ DEVELOPED CONDITIONS: The proposed development includes nine (9) office buildings with associated parking, landscaping and hardscape. Surface runoff from the site will be directed to either inlets fitted with the Fossil Filter TM Storm Water Filtration System or grass-lined swales for water quality purposes. In addition, on-site detention facilities will be located, where required, to reduce post development flows. EXISTING RUNOFF ANALYSIS: Runoff from the site currently follows the natural drainage path southwesterly to an existing sump inlet located on site. This flow enters the onsite private storm drain system and is conveyed to the public system in Faraday Ave. DEVELOPED RUNOFF ANALYSIS: All of the proposed pipes, inlets and grass-lined swales were designed to intercept and convey the 100-year storm. The runoff coefficients for the site were based on soil group D and ultimate improvements for the proposed site. A coefficient of 0.85 was used for all Basins. All of the proposed drainage culverts will be PVC and were sized using a Manning's 'n' coefficient of 0.013. Runoff from the site will be directed to one of five (5) desiltation basins spread throughout the project site. See the attached calculations for the particulars. CURB INLET DESIGN AND ANALYSIS: The proposed curb inlets are located in a sump condition. The curb inlets were sized utilizing the "Nomogram-Capacity, Curb Inlet at Sag" assuming a 10-inch curb face with a 6.2-inch curb opening at the inlet to determine the capacity per foot of opening (QIL) in cfs per foot. The clear opening length was then calculated using the following equation: LQ/(Q/L) where L = Length of clear opening in feet Q i oo/L = Capacity per foot of opening from Nomogram To obtain the inlet length as shown on the Grading Plans for this project, one foot was added to the clear opening lengths. CULVERT DESIGN AND ANALYSIS: The storm drain culverts were sized using King's handbook (Reference 3) Table 14 to verify capacity. For circular conduits: K' = Qn/[d'(8/3)s"(1/2)] where K' = Discharge Factor Q = Runoff Discharge (cfs) n = Manning's Coefficient d = Diameter of Conduit (ft) s = Pipe Slope (ft/fl) See the attached calculations for culvert sizing. CHANNEL DESIGN AND ANALYSIS The proposed trapezoidal grass lined channel within this project was sized using King's Handbook (Ref. 3), Table 7-11. For trapezoidal channels: V = QnhIbA(8/3)sl(1/2)1 where K' = Discharge Factor Q = Runoff Discharge (cfs) n = Manning's Coefficient b = Channel Bottom Width (ft) S = Channel Slope (ft/ft) Natural, vegetated lined channels are capable of withstanding erosion for velocities up to 5 fps. DETENTION BASIN DESIGN AND ANALYSIS: The proposed, localized, on-site detention facilities were sized utilizing the single- I hydrograph method. See the attached calculations for the design procedures utilized with the single-hydrograph method. The detention facilities for site have been designed to account for the increase in flow from the site. Basins A, B, C, D & E where sized to account for no I detentions in Basins F and G. The five on-site basins join via 18" storm drain pipes. The combination of the flows for the site does not exceed the pre-developed flows. Basin A is required to have 435 cf of storage and 450 cf is provided. Basin B is required to have 1538 I cf of storage and 1680 cf is provided. Basin C is required to have 2603 cf of storage and 2800 cf is provided. Basin E is required to have 1870 cf of storage and 2015 cf is provided. All detention basins are located and designed to provide a safe emergency overflow without I flooding the proposed buildings or causing damage to the on-site grading or improvements. I RESULTS AND CONCLUSIONS The site discharges a total of 14.5 cfs. The existing site discharge 8.8 cfs. Therefore, the site I design includes detention facilities to limit the total runoff to 8.8 cfs. The outflow from each detention basin was: Basin A = 1.8 cfs, Basin B = 0.6 cfs, Basin C = 0.6 cfs, Basin E = 0.9 cfs. I A Storm Water Management Plan will be prepared separately to discuss the impacts the proposed development will have on the storm water quality. The detention basins are I physically designed to allow for emergency overflow without flooding any adjacent on-site building. VICINITY MAP NOT TO SCALE VISTA CITY OF SAN MARCOS APPENDIX RUNOFF COEFFICIENTS (RATIONAL METHOD) DEVELOPED AREAS (URBAN) Coefficient. C Soil Group (1) Land Use A B C D Residential: Single Family .40 .45 .50 .55 Multi-Units .45 .50 .60 .70 Mobile Homes .45 .50 .55 .65 Rural (lots greater than 1/2 acre) .30 .35 .40 .45 Commercial ' 80% Impervious .70 .75 .80 .85 Industrial (2) 90% Impervious .80 .85 .90 .95 NOTES: Soil Group maps are available at the offices of the Department of Public Works. Where actual conditions deviate significantly from the tabulated imperviousness values of 80% or 90%, the values given for coefficient C, may be revised by multiplying 80% or 90% by the ratio of actual imperviousness to the tabulated imperviousness. However, in no case shall the final coefficient be less than 0.50. For example: Consider commercial property on D soil group. Actual imperviousness = 50% Tabulated imperviousness = 80% Revised C = 50 x 0.85 = 0.53 80 A-1 IV-A..9 APPENDIX IX CO.1Y OF SAN DIEGO DEPARTMENT OF SANITATION & inr irnr JflH FLOOD CONTROL 20.' ISOPLUVIJ1LS OF 100-YEAI 6410UR PnECcPITAT13 lctl ETS O PJ. ICH 451 45 20 LAC 35 301 30 MECCA 2 7 SAN CLI VENTE 3-u( 30 151 ! _ 35 ,,40 4 H 2 25 5\ _ 1' S&TSiir 330 100 (3)3 30 JZ \ )EL MA 43 R -- '1 r20 . (.,. 45 45 - Prepn .d by 20 -. 5' U.S. DEPARTMEN r OF COMMERCE ' ) / ••. — NATIONALOCEANIC AD AT. OSPIIERT C ADM1I3TRAON '\ ) i--2 ,'( ..' .' ".' .i $PC1A. STUDIES URA4CH. OFFICE OF II L)ROLOGY. NATIONAL WEATHER SERVICE . SAr 3°' 20 i 35 0 118' 45' 30' 15' 1170 151 30' 151 1,60 COUNTY OF SAN DIEGO DEPARTMENT OF SANITATION & 100-YEAR 24-1-10111 PRECIPITATION FLOOD CONTROL '20..'ISOPLtJVIPLS OF 100 -YEAR 24-11BUR PRECIPITATION IN 'E]TI1S OF AN WCII 12 j 100 C040- 1 35 I IA &180 70 30 SAN CL ME 41E 60 01 70 lu tito t4 55 L / C I T ')' O \\\ _ I70 40 DIt it 100 'D 0 P 'oYtcr (In fz 0 . \I9i i J.. 45, 665 U.S. DEPARTNIENI'OF COMMERCE e7 -cul.44 PECJAL STUDIES li}ANCII OYIICI OF NATIONAL OCEANIC AND AT. ONI-11CRIC AOMINts"rRATION 0454 II UIOL()GY. NArIoNAI WATIIER SERVICE SAr . V 0 c2 ( 65UO 5O 30' -i 1- I 1fl° 1,5' 301 16' 1170 I,';' 30' is' ii ° r., 'Tf1Trflhi:I ui-i ' ' Lt i-i-iiri;rhr.1 . I I Equation: I •= 7,44 p6 D -.645 I Intensity (In./Hr.) Qi i i p 6 Hr. Precipitation (In.), II. Il 1 L . 6 Directions for Application: 1) From precipitation naps determine 6 hr. and 24 hr. amounts for the selected frequency. These maps are printed in the County Hydrology Manual (10, 50 And 100 yr. maps included in th. Design and Procedure Manual). Duration (Mm.) f 2) Adjust 6 hr. precipitation (if necessary) so that it is within the range of 45% to 65% of IjIJJ.. Jj.jj:2I 41 the 24 hr. precipitation. (Not pp1icab1e hi; I to Desert) V r. 1 F ji u I 3) Plot 6 hr. precipitation on the right. side of the chart. Nil Draw a line through the point parallel to the ij(J iLi t:;1rD plotted lines. This line is the intensity-duration curve for !i;1I"S s1 9Ct the location being analyzed. I I I INTENSITY-DURATIO, ..SIGN CHART 4.0 5 Application Form: 3 1 5 Ln 0) Selected Frequency /2O yr. 2.5 1) p6 in., p24 f.r.'i %* It 2) Adjusted * P24 in. PIiiIIIii IN IN I ud I IRii1 4) I in/hr. ).0 *Not Applicable to Desert Region 30 40 50 1 2 . 3 4 5 6 1. APPENDIX XI IV-A-14 I I STEADY UNIFOHM FLOW IN OPEN CHAN N E L S 7-43 KI Table 7-11. Values of K' in Formula Q = Ws for Trapezoidal Channels D = depth of water b = bottom width of channel Side slopes of channel, ratio of horizontal to vertical b Ver- tical J-71 -1 3/4-1 1-1 1-1 2-1 23.-1 3-1 4-1 01 .00068 .00068 .00069.000691.00069-00069 .00069 .00069 .00070 .00070 02 .00213 .00215 .00216 .00217 .00218 .002201.00221 .00222 .00223 .00225 .03 .00414 .00419 .00423 .00426 .00428 .004331.00436 .00439 .00443 .00449 .04 .05 .00660 .00946 .00670 .00964 .0O79 .00fl9 .00685 .00991 .00691 .01002 .007001.00708 .010191.01033 .007 16 .01047 .00723 .01060 .00736 .01086 .06 .0127 .0130 .0132 .0134 .0136 .0138 .0141 .0143 .0145 .0150 .07 .0162 .0166 .0170 .0173 .0175 .0180. .0183 .0187 .0190 .0197 .08 .0200 .0206 .0211 .0215 .0219 .0225 .0231 .0236 .0240 .0250 .09 .0241 .0249 .0256 .0262 .0267 .0275 .0282 .0289 .0296 .0310 .10 .0284 .0294 .0304 .0311 .0318 .0329 .0339 .0348 .0358 .0376 .11 .0329 .0343 .0354 .0364 .0373 .0387 .0400 .0413 .0424 .0448 .12 .0376 .0393 '.0408 .0420 .0431 .0450 .0466 .0482 .0497 .0527 .13 .0425 .0446 .0464 .0480 .0493 .0516 .0537 .0556 .0575 .0613 .14 .0476 .0502 .0524 .0542 .0559 .0587 .0612 .0636 .0659 .0706 .15 .0528 .0559 .0585 .0608 .0627 .0662 .0692 .0721 .0749 .0805 .16 .0582 .0619 .0650 .0676 .0700 .0740 .0777 .0811 .0845 .0912 .17 .0638 .0680 .0716 .0748 .0775 .0823 .0866 .0907 .0947 .1026 .18 .0695 .0744 .0786 .0822 .0854 .0910 .0960 .1008 .1055 .1148 .19 .0753 .0809 .0857 .0899 .0936 .1001 .1059. .1115 .1169 .1277 .20 .0812 .0876 .0931 .0979 .1021 .1096 .1163 .1227 .1290 .1414 .21 .0873 .0945 .101 .106 .111 .120 .127, .135 .142 .156 .22 .0934 .1015 .109 .115 .120 .130 .139 .147 .155 .171 .23 .0997 .1087 .117 .124 .130 .141 .150 .160 .169 .187 .24 .1061 .1161 .125 .133 .140 .152 .163 .173 .184 .204 .25 .1125 .1236 .133 .142 .150 .163 .176 .188 .199 .222 .26 .119 .131 .142 .152 .160 .175 .189 .202 .215 .241 .27 .126 .139 .151 .102 .171 .188 .203 .218 .232 .260 .28 .132 .147 .160 .172 .182 .201 .217 .234 .249 .281 .29 .139 .155 .170 .82 .194 .214 .232 .250 .268 .302 .30 .146 .163 .179 .193 .205 .228 .248 .267 .287 .324 .31 .153 .172 .189 .204 .218 .242 .264 .285 .306 .347 .32 .160 .180 .199 .215 .230 .256 .281 .304 .327 .371 .33 .167 .189 .209 .227 .243 .271 .298; .323 .348 .396 .34 .174 .198 .219 .238 .256 .287 .316 .343 .370 .423 .35 .181 .207 .230 .251 .269 .303 .334 .363 .392 .450 .36 .189 .216 .241 .263 .283 .319 .353 .385 .416 .478 .37 .196 .225 .252 .275 .297 .336 .372 .406 .440 .507 .38 .203 .234 .263 .288 .312 .353 .392 .429 .465 .537 .39 .211 .244 .274 .301 .326 .371 .413 .452 .491 .568 .40 .218 .253 .286 .315 .341 .389 .434 .476 .518 .600 .41 .226 .263 .297 .328 .357 .408 .456 .501 .546 .633 .42 .233 .273 .309 .342 .373 .427 .478 .526 .574 .668 .43 .241 .283 .321 .357 .389 .447 .501. .553 .603 .703 .44 .248 .293 .334 .371 .405 .467 .525 .580 .633 .740 .45 .256 .303 .346 .386 .422 .488 .549 .607 .664 .777 CHART I-103.6C I.0.. 10 -II ...$ - 0 6- -10 0 6 u - 4 .7— z _-3 -z -J a -- .6- - Cn w - U. z z.5 _6 z 7 LL CL -7 U. 0 0. Z (%.5 o 0 LU - . 7 U. o - 0 LL U. 0 , 0 2 0 - 1-00, .1' A. z -.1 - U -.08 0. -.06 0 - .05 A z 0 .2-CL - .3 _.03 4sM • 3I?UCS O r.l.l .e?•r 4- depression LL..I (3) .15 ELEVATION SECTION REV. I CITY OF SAN DIEGO - 0ES1GN GUIDE I SHT. NO. NOMOGRAM-CAPACITY ,CURB INLET AT SAG 15 HANDBOOK OF HYDRAULICS for the Solution of Hydraulic Engineering Problem s Table 7-I-1. Values of K' for Circular ('ha iitiJs in (lie Formula Ep it (J = L) = depth of Wuter a' dj,,n•ter of channel D - .00 .01 .02 .03 .0 .00007..00031 .00074 .02 .03 .00 .07 :08 .09 .00238 .00222 .00328 .00435 .0000l'.0077? .1 .00967..0128 .Q142 .0167 .0105 .022.5..0257 J.0291 .0327 .0360 .2 .0406 J :( 04 ( 18 0402 .O37 .0383 0634 .0680 .0738 .0793 .0829 .3 .0907 06 .1027 .1089 .1153 .1218 .-12S-1 .1352 .1420 1.1491) .4 .2361 .033 .1705 .2770 .1854 .1020 .2003 .2082 .2160 .22-139 .5 .2:J2 .239 .247 .233 .203 .271 .279 .287 .293 .30.3 .6 .311 .319 .327 .333 .3.13 .350 .838 .361; .373 .30 .7 .188 .395 .402 .209 .426 .422 .429 ..135 .4-11 .4.27 .8 .453 .438 .463 .468 43 .477 .481 ..is .438 .491 .9 .494 .490 .497 .498 .493 .-198 .496 .492 .489 .483 1.01.463 -STEADY uNrrolt\r FLOW IN OI'EY CHANNELS 7-35 'fable 7-4. For Determining the Area a of the Cross Section of a Circular Cond uit Flowing Part Full depL1ioNiter dia;neter of channel . and C = the t.11)11130 V-3 Then a - a .01) .01 .02 .03 .04 .0.5 .00 .07 .os .0294 .09 .03.50 .0 .0000 .0013 .0037 .0069 .0205 .0147 .0192 .0242 .1 .0400 .0470 .0534 .0601) .0663 j)739 .0811 .0S35 .0901 .1039 .2 .1118 .1199 .1231 .1:16.5 .14-19 - 13:15 .i.2:l .1711 .ISUO .1891) .3 .1932 .2074 .2167 .2260 .2353 .2450 .2546 .2042 .2739 .28:111 .4 .2034 .3032 .3130 .3229 .3323 .3425 .3527 .3627 .3727 .3327 .5 .393 .403 .423 .423 .433 .443 .4.53 .462 .472 .432 .6 .492 .502 .512 .521 .531 .540 .550 .559 .569 .57S .7 .587 .596 .605 .624 .62.1 .632 .4-20 .640 .657 .600 .8 .04 .681 .689 697 .704 .712 .710 .72.5 .732 .733 .9 .75 .750 .756 .761 .766 .771 .773 .779 .782 .784 I I I I .- ------- - TEAl)Y UNIFORM FLOW IN OPEN CHANNELS 7-43 7-42 HANDBOOK OF HYDRAULICS Table 7-I1. Values of K' in Formula Q KI - Ws for K ' Table 7-10. Values of K in Formula Q DsH for Trapezoidal Channels D - depth of water b - bottom width of channel Trapezoidal Channels (Concluded) D - depth of water 8 - bottom width of channel Side elopes of channel, ratio of horisont1 to vertical Side elope, of channel, ratio of horizontal to vertical b e .290 .817 1.10 i- 1).f-j 1.00 21 23.-1 31 3.40 4'I 4.30 1.81 .643 1.37 2 41 2.91 1.82 .293 .640 .813 1.09 1.37 1.90 2.41 2.91 3.39 4.30 1.83 .291 .637 .810 1.09 1.37 1.90 2.41 2.90 3.39 4.38 1.84 .289 .634 .807 1.09 1.36 1,89 2.40 2.90 3.39 4.36 1.86 .280 .631 .804 1.08 1.30 1.89 2.40 2.90 3.38 4.34 1.80 .28.4 .628 .801 1.08 1.30 1.89 2.40 2.89 3.38 4.34 1.87 .282 .625 .797 1.08 1.36 1.88 2.30 2.89 3.38 4.34 1.88 .279 .522 .794 1.07 1.35 1.88 2.39 2.88 3.37 4.33 1.89 .277 .520 .791 1.07 1.36 1.88 2.39 2.88 3.37 4.33 1.90 .278 .617 .788 1.07 1.34 1.87 2.38 2.88 3.37 4.33 1.91 .273 .614 .786 1.06 134 1.87 2.38 2.87 3.36 4.32 1.02 .270 .812 .782 1.00 1.34 1.87 2.38 2.87 3.30 4.32 1.93 .208 .609 .779 1.00 1.33 1.88 2.37 2.87 3.30 4.32 1.94 .286 .606 .770 1.05 1.33 1.80 2.37 2.86 3.36 4.31 1.05 .264 .604 .774 1.06 1.33 1.80 2.37 2.88 3.36 4.31 1.00 .262 .801 .771 1.06 1.32 1.85 2.36 2.80 3.35 4.31 1.97 .200 .499 .788 1.04 1.32 1.85 2.30 2.85 3.34 4.30 1.98 .258 .498 .765 1.04 1.32 1.85 2.38 2.85 3.34 4.30 1.99 .280 .494 .762 1.04 1.31 1.84 2.35 2.85 3.34 4.30 2.00 .254 .491 .780 1.04 1.31 1.84 2.35 2.84 3.33 4.29 2.01 .252 .489 .787 1.03 1.31 1.84 2.35 2.84 3.33 4.29 2.02 2.03 .260 .248 .487 .484 .764 .752 1.03 1.03 1.30 1.30 1.83 1.83 2.34 2.34 2.84 2.84 3.33 3,32 4.29 4.28 2.04 .247 .482 .749 1.02 1.30 1.83 2.34 2.83 3.32 4.28 2.05 .245 .480 .746 1.02 1.30 1.82 2.33 2.83 3.32 4.28 2.00 .243 .471 .744 1.02 1.29 1.82 2.33 2.83 3.31 4.28 2.07 .241 .476 .741 1.02 1.29 1.82 2.33 2.82 3.31 4.27 2.08 .239 .473 .739 1.01 1.29 1.82 2.33 2.82 3.31 4.27 2.09 .237 .471 .730 1.01 1.28 1.81 2,32 2.82 3.31 4.27 2.10 .238 .409 .734 1.01 1.28 1.81 2.32 2.81 3.30 4.26 2.11 .234 .480 .732 1.000 1.28 1.81 2.32 2.81 3.30 4.28 2.12 .232 .484 .720 1.004 1.28 1.81 2.31 2.81 3.30 4.26 2.13 .231 .462 .727 1.001 1.27 1.80 2.31 2.81 3.29 4.26 2.14 .229 .480 .724 .999 1.27 1.80 2.31 2.80 3.29 4.26 2.16 .227 .468 .722 .998 1.27 1.80 .31 2.88 3.20 4.26 2.18 .220 .460 .720 .994 1.27 1.79 2.30 2.60 3.29 4.25 2.17 .224 .484 .718 .991 1.28 1.70 2.30 2.80 3.28 4.24 2.18 .223 .462 .715 .989 1.20 1.70 2.30 2.79 3.28 4.24 2.19 .221 .460 .713 .987 1.28 1.70 2.20 2.70 8.28 4.24 2.20 .219 .448 .711 .984 1.20 1.78 2.29 2.79 3.28 4.24 2.21 .218 .448 .709 .982 1.25 1.78 2.20 2.78 3.7 4.23 2.22 .210 .444 .708 .980 1.25 178 2.29 2.78 3.27 4.23 2.23 .215 .442 .704 .977 1.26 1.78 2.28 2.78 3.27 4.23 2.24 .213 .440 .702 .976 1.25 1.77 2.28 2.78 3.28 4.23 2.25 .212 .439 .700 .973 1.24 1.77 2.28 2.77 3.26 4.22 - .000 .001 .274 .500 .743 1.24 1.74 2.23 2.71 3.87 Vertic11 -13-14-4 .00068 .00068 .00000 .00009 .00009 .00069 .00009 .00060 .00070 .00d7 .01 .02 .00213 .00215 .00218 .00217 .00218 .00220 .00221 .00222 .00223 .0022 .03 .00414 .00419 .00423 .004.26 .004 28 .00433 .00436 .00430 .00443 .00440 .04 .00660 .00670 .00679 .00085 .00691 .00700 .00208 .007 10 .00723 .0073 .08 .0094(3 .00964 .00979 .00091 .01002 .01010 .01833 .01047 .01000 .0108l .00 .0127.. .0130 .0132 .0134 .0130 .0138 .0141 .0143 .0145 .0160 .07 .0102 .0180 .0170 .0173 .0176 .0180. .0183 .0187 .0190 .0197 .08 .OIOQ .0206 .0211 .0215 .0219 .0225 .0231. .0230 .0240 .0250 .00 .0241 .0249 .0250 .0202 .0267 .0275 .0282 .0280 .0290 .0310 .10 .0284' .0204 .0304 .0311 .0318 .0329 .0330 .0348 .0368 .0370 .11 .0329 .0343 .0354 .0304 .0373 .0387 .0400 .0413 .0424 .0448 .12 .0376 .0303 .0408 .0420 .0431 .0450 .0400 .0482 .0407 .0827 .13 .0425. .0446 .0464 .0480 .0403 .0510 .0537 .0550 .0575 .0613 .14 .15 .047f .0528 .0502 .0560 .0524 :0542 .0559 .0587 .0612 .0634 .0059 .0700 .0685 .0008 .0627 .0602 .0092 .0721 .0749 .0805 .10 .0582 .0619 .0650 .0676 .0700 .0740 .0777 .0811 .0846 .0912 .17 .0038 .0080 .0710 .0748 .0775 .0823 .0806 .0007 .0047 .1028 .18 .0005 .0744 .0786 .0822 .0854 .0010 .090Q .1008 .1058 .1148 .10 .0753 .0809 .0857 .0899 .0930 .1001 .1059 .1115 .1189 .1777 .20 .0812 .0870 .0031 .0970 .1021 .1096 .1103 .1227 .1290 .1414 .21 .0873 .0046 .101 .100 .111 .120 .127, .135 .142 .1641 .22 .0034 .1016 .100 .116 .120 .130 .139 .147 .166 .171 .23 .0007 .1087 .117 .124 .130 .141 .150 .100 .109 .187 .24 .1061 .1181 .125 .133 .140 .162 .103 .173 .184 .204 .25 .1125 .1230 .133 .142 .180 .103 .178. .188 .109 .222 .26 .119 .131 .142 .162 .100 .176 .180 .202 .216 .241 .27 .120 .139 .161 .102 .171 .188 .203. .218 .232 .200 .28 .132 .147 ,10) .172 .182 .201 .217 .234 .249 .281 .29 .130 .156 .170 .182 .104 .214 .232 .250 .208 .302 .30 .140 .163 .170 .193 .206 .228 .248 .207 .287 .324 .31 .153 .172 .189 .204 .218 .242 .264. .285 .300 .347 .32 .100 .180 .190 .216 .230 .260 .281 .304 .327 .371 .33 .167 .180 .200 .227 .243 .271 .208 .323 .348 .300 .34 .174 .198 .219 .238 .250 .287 .316 . .343 .370 .423 .36 .181 .207 .230 .261 .280 .303 .334 .303 .302 .460 .30 .180 .210 .241 .203 .283 .310 .353. .388 .410 .478 .37 .106 .225 .252 .276 .297 .330 .372 .406 .440 .607 .38 .203 .234 .283 .288 .312 .363 .302 .429 .406 .537 .39 .211 .244 .274 .301 .326 .371 .413 .462 .401 .668 .40 .218 .253 .286 .316 .341 .389 .434 .470 .618 .000 .41 .220 .203 .297 .328 .367 .408 .460 .601 .640 .033 .42 .233 .273 .300 .342 .373 .427 .478 . .620 .674 .4(4(8 .43 .241 .283 .321 .367 .380 .447 .601 .663 .003 .703 .44 .248 .203 .334 .371 .408 .407 .626 .680 .033 .740 .46 .250 .303 .340 .380 .422 .488 .649 .007 .004 .777 -- 4r€ . ------------ (c* () (.o')' -- I _crS -------------------- -- - _IIIIiI - ii HYDROLOGY SUMMARY Travel Time in Grass Swale Basin Area C L S0 Ti Ii Qi S n b K' fl/b D Area V L Tt Tc I Qf Remarks No. (ac) (ft) (ft\ft) (mm) (in/hr) (cfs) (%) (ft/ft) (ft) (ft/ft) (ft) (ac) (ft/sec) (ft) (mm) (mm) (in/hr) (cfs) 100-yr event Existing [1 4.00 0.656002.00 15.8 3.39 8.8 Sump Inlet Proposed Al 0.57 0.85 345 2.50 6.2 6.22 3.0 10.005 0.20 1 5.00 0.1166 0.20 1.00 6.00 0.50 90 2.99 9.15 4.82 2.3 Sump Catch Basin BI 0.20 0.85 170 1.50 5.1 7.00 1.2 Sump Catch Basin 132 0.27 0.85 200 1.00 6.4 6.09 1.4 Roof Drain Conf. 0.47 0.85 6.4 2.4 0.005 0.20 7.00 0.0379 0.10 0.70 5.39 0.45 154 5.76 12.16 4.01 1.6 Cl 1.11 0.85 400 1.00 9.0 4.87 4.6 0.005 0.20 7.00 0.0725 0.15 1.05 8.45 0.54 195 5.98 14.98 3.51 3.3 Sump Catch Basin Dl 0.13 0.85 150 1.00 5.5 6.68 0.7 0.005 0.20 17.00 0.0116 0.05 0.35 2.57 0.29 145 8.42 13.93 3.67 0.4 Sump Catch Basin El 0.66 0.85 255 1.00 7.2 5.63 3.2 0.005 0.20 7.00 0.0498 0.12 0.84 6.591 0.48 115 4.00 11.18 4.23 2.4 Sump Catch Basin Fl 0.15 0.85 110 1.00 5.0 7.11 0.9 0.9 On-Grade GI 0.91 0.85 475 1.00 9.8 4.61 3.6 3.6 Sump Inlet Total 14.5 565-sd Page 1 HYDROLOGY AND 1/17/2005 HYDRAULIC CALCS Confi. Sub- AREA "C" CA Sum I L (ft) S(%)l Ti TI Tc I Q L (ft) S (%) Dia. K' D\d Ca V NOTES Point Basin Ac. CA (Ovrind) (fg) (mm) (mm) mm. in/hr cfs (Pipe) (Pipe) (in) (fps) - 100-yr event B2 0.27 0.85 0.23 0.23 200 1.00 6.4 0.0 6.4 6.09 1.4 170.00 0.50 10 0.418 0.74 0.62 3.2 0.9 155.00 0.50 10 0.269 0.55 0.44 2.9 Basin E 1.3 218.00 0.50 12 0.239 0.51 0.40 3.2 BasinsD & E cfs come from hydro flow charts 1.9 65.00 0.50 12 0.349 0.64 0.53 3.6 Basins C, D & E 2.5 58.00 6.00 12 0.133 0.36 0.25 9.8 Basins B, C, D & E 4.3 43.00 5.88 18 0.078 0.27 1 0.17 11.2 Basins A, B, C, D & E 565-sd Page 2 DETEZ4TION STORAGE COMPUTATION PROCEDURE ,15'//Y SINGLE HYDROGRAPH FORM Input Variables (Urban Conditionsi Six hour precipitation amount (inches) P Time of concentration (mm.) T Coefficient of runoff C Basin area (acres) A Time to T peak t'2' - 2•OTCKD/(1 + K,) ja 1. 1072T, T. Time of hydrograph to begin T3 20 -T, Ts Time of hydrograph to end T8 Ta - 20 + 1.5 T, Peak flow Q, IT*- -CIA 7.44 P/T005 1-16' in. Surrounding flow (Q3) Depth of precipitation for 2 hours - 7.44 P/l200"5(2 hr.) D10 0.6785 P6 1.93 in. Depth of 4precipitation for hydrograph DK (PT)/5.83 in. Surrounding Intensity Is - 60(D12 - DH)/(120 - 2.5T) Is - in./hr. QCIaA Q. Outflow C T - /7- /'/ mm. I 7.44 P6/TO—&s- /-' in./hr. QN CIA QN 1. Plot on Hydrograph a. Draw line from surrounding flow intercept with beginning hydrograph limb to QK 2. Estimate volume needed for reservoir Determine preliminary reservoir dimensions Surrounding flow discharges directly through reservoir without detaining any storage 3. Size outlet works Outlet flow, Q less than or equal to QH Stay within the limits of the reservoir 4. Rout a. Refine reservoir dimensions and/or outflow facility . -- - DETENTION 8TORAGE COMPUTATION PROCEDURE - SINGLE HYDROGRAPH FORM 1)oi /1 L Input Variables (Urban Conditions Six hour precipitation amount (inches) P4 2. 7 Time of concentration (mm.) T Coefficient of runoff C Basin area (acres) A - /+ Time to peak Tr - 2.0TCKD/(l + K,) - 1. 1072T, T, Time of hydrograph to begin T3 -20-T T. Time of hydrogra'ph to end T5 -20+l.5T, T. Peak flow CIA Q7 IT, 7.44 P4/T0M$ '< / in. /hr. Surrounding flow (Q8) Depth of precipitation for 2 hours D120 - 7.44 P4/1200"(2 hr.) 1 D1 0.6785 P4 - 1gj in. Depth of precipitation for hydrograph DH (P4T"')/5.83 I-/i in. Surrounding Intensity 60(D10 - D)/(120 - 2.5T) in./hr. QCI3A Q 0.2 Plot Hvdrograh and Surrounding Flow i;a# (.a 4F1'Lk! W.3it I.) ,TJ1 Outflow C o.5$ T - ,/7Z mm. I - 744 P4/T40&5 in. /hr. QMCIA QN 1. Plot on Hydrograph a. Draw line from surrounding flow intercept with beginning hydrograph limb to QN 2. Estimate volume needed for reservoir Determine preliminary reservoir dimensions Surrounding flow discharges directly through reservoir without detaining any storage 3. Size outlet works Outlet flow, Q less than or equal to Q Stay within the limits of the reservoir 4. Rout a. Refine reservoir dimensions and/or outflow facility - &. DETENTION STORAGE COMPUTATION PROCEDURE SINGLE HYDROGRAPH TORN InDut Variables (Urban Conditions) Six hour precipitation amount (inches) P Time of concentration (mm.) To VA,e-k19 Coefficient of runoff C _.85 Basin area (acres) A Time to peak - 2.OTCKD/(]. + K,) - 1.1072T T, Time of hydrograph to begin T3 - 20 - T, T3 _13)i\ Time of hydrograph to end T5 -20+l.5T, TB Peak flow Q, CIA Q, IT, -7.44 P/T005 - 3'-/ in./hr. Surrounding flow (Q3) - Depth of precipitation for 2 hours D130 - 7.44 P/1200"5(2 hr.) D10 0.6785 P 1-3 in. Depth of 0precipitation for hydrograph DH - (PT")/5.83 - /-Z/ in. Surrounding Intensity Is - 60(D1 - DH)/(120 - 2.5T) Is - O A. '/c in. /hr. QCI3A Q i1!I4 (.xa FWon. T4r.) Outflow C - o-- T - //7 mm. I 744 P6/T,0-&s- 3-5I in. /hr. QNCIA QN 1.. Plot on Hydrograph a. Draw line from surrounding flow intercept with beginning hydrograph limb to QN 2. Estimate volume needed for reservoir a. Determine preliminary reservoir dimensions b Surrounding flow discharges directly through reservoir without detaining any storage 3. Size outlet works Outlet flow, Q less than or equal to Q Stay within the limits of the reservoir 4. Rout a. Refine reservoir dimensions and/or outflow facility -- - •F . I •• Ti •tó.. 2.Jo '/"T, lql .. . . •2'Y,? DETENTION 8TORAGE COMPUTATION PROCEDURE oii 1) SINGLE HYDROGRAPH FORM Input Variables (Urban Conditions) Six hour precipitation amount (inches) P4 Time of concentration (mm.) T. X'3 Coefficient of runoff C Basin area (acres) A Time to peak - 2.OTCKD/(l + K,) l. 1072T0 T, Time of hydrograph to begin T3 -20-T To Time of hydrogra'ph to end T2 1.\3 T3 -20+1.5T, Peak flow Q1 IT, =CIA -7.44 P4/T00'4' - in./hr. Surrounding flow (Q) Depth of precipitation for 2 hours D1 - 7.44 P4/1200"(2 hr.) D1 0.6785 P4 1-83 in. Depth of precipitation for hydrograph DR - (P4T00 )/5.83 I. ir8 in. Surrounding Intensity 60(D - DH)/(120 - 2.5T0) "/6 in./hr. Q- CIA Q I'14 (.p ;m iW-1I4 •flb irc Outflow C O.?S T - /J-?J mm. I - 744 P4/T00 - in./hr. 0 q - (4r CIA ____ 1. Plot on Hydrograph a. Draw line from surrounding flow intercept with beginning hydrograph limb to Q 2. Estimate volume needed for reservoir Determine preliminary reservoir dimensions Surrounding flow discharges directly through reservoir without detaining any storage 3. Size outlet works Outlet flow, Q less than or equal to QN Stay within the limits of the reservoir 4. Rout a. Refine reservoir dimensions and/or nuf low facility 'o T Sb 43;3 DETENTION STORAGE COMPUTATION PROCEDURE E SINGLE HYDROGRAPH FORM InDut Variables (Urban Conditions Six hour precipitation amount (inches) P Time of concentration (mm.) T Coefficient of runoff C Basin area (acres) A - '6 Time to peak 72-38 2.OTCKD/(1 + K,) - 1. 1072T, Time of hydrograph to begin 7~z T3 -20-T, 78 Time of hydrograph to end TB 2O+l.ST, Tit Peak flow Q—CIA IT, - 7.44 P/T °'45 — 'Y-2J in. /hr. Q, Surrounding flow (03) Depth of precipitation for 2 hours D1, - 7.44 p/1200MS(2 hr.) D1 , 0.6785 P f' in. Depth of precipitation for hydrograph DU (PT 0 )/5.83 - i.7 in. Surrounding Intensity is 60 (DIN - Dx)/(120 - 2.5T) it -t3 in./hr. Q3 C13A Q$ 1!1; (.a ;F -4àE1'ik! n-r .1-1! Outflow C — T - mm. I - 7.44 pd/T ° in. /hr. g (41 CIA QN 1. Plot on Hydroqraph a. Draw line from surrounding flow intercept with beginning hydrograph limb to Q 2. Estimate volume needed for reservoir Determine preliminary reservoir dimensions Surrounding flow discharges directly through reservoir without detaining any storage 3. Size outlet works Outlet flow, Q less than or equal to Q Stay within the limits of the reservoir 4. Rout a. Refine reservoir dimensions and/or outflow facility sksbAwd I I N RECEIVED FEB 18ZO O 5 I ENGINEE R I N G DEPARTM E N T I I Al