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Home My WebLink AboutCT 04-21; CARLSBAD VILLAGE TOWNHOMES; DRAINAGE STUDY; 2005-05-02DRAINAGE STUDY for Carlsbad Village Townhomes 2683 & 2687 Roosevelt St Carlsbad, CA prepared by: Tim Graves, P.E. 27003 (exp 3/31/01) 9373 Hazard Way, #101 San Diego, CA 92123 858.565.9512 5/2/05 I METHOD This drainage study was performed using the San Diego County Rational Method, as established by the San Diego County department of Pubic Works, Flood Control Division, Hydrology Manual, 2003. TIME PERIOD The time periods for calculation of design flows is: EXISTING CONDlTlONS(PRE-DEVELOPMENT) AND PROPOSED CONDITIONS (POST DEVELOPMENT) RATIONAL METHOD Theftational Method Formula is Q = C x I x A Q is the peak design discharge in cubic feet per second C Is the coefficient of runoff I is the rainfall intensity in inches per hour A is the tributary drainage area in acres Run-off Coefficients - Soil Group D Native 0.45 Landscaped Areas 0.45 Pavement 0.90 Roof Surfaces 0.90 DRAINAGE TABLE Summary of Results Area Existing Proposed "Pre-Development" "Post-Development' Q100 QIOO (CFS) (CFS) CHANGE % Sub-Basin "A: Drainage Area Run-Off Coef. D (Tc) QI 00 0.46 Ac 0.88 7.0 mm 5.30 in/hr 1.70 CFS 0.46 Ac 0.86 5.0 mm 6.59 in/hr 2.64 CFS +55.3% Note: Flow attenuation is proposed which will decrease the rate of discharge from the project area to 1.70 CFS. [] Narative: The proposed project is located on the west side of Roosevelt Street, between Laguna Drive and Beach Ave. Street drainage on Roosevelt flows in the gutter is conveyed past the site. The site has very mild slope. Runoff from existing roofs, hardscape & landscape is conveyed as sheet flow and in a gentle swale and discharged to private property to the west. The point of discharge for the proposed development will be maintained. Surface waters are convyed in a private storm drain system to the westerly boundary, filtered and discharged across the property line through a discharge manifold. The discharge manifold is 18" diameter PVC Win length with (45) 1-1/4" diameter outlet orifices distributed along its length (at approximately 16" o/c). Outlet orifices penetrate the base of the proposed retaining wall at the westerly boundary resulting in a dissipated discharge. The discharge from each orifice at the limiting head is 0.042 CFS (1.70 CFS Total) with a maximum discharge velocity of 4.9 FPS. In addition to resulting in a distributive discharge, the manifold's volume (160 CF) also serves as storage for peak flow attenuation. The project boundaries are coterminus with the existing drainage sub-basins: no alteration are proposed. Conclusion: The proposed project will result is a slight decrease in the peak run-off from thre project site (2.2% reduction) due to the increase in the amount of proposed landscapings +€.+t'ot&. mnA p14S4 COYdO tv dJa5iY. (mo-i iv40 ta.t41i3 orec*.S 44- ivh y&rd dsLiv.) Attachments: Hydrology - Existing Hydrology - Proposed 100 Yr -6 Hr Isopluvial 100 Yr -24 Hr Isopluvial Soil Classification Map Hydraulic Calculation of Private Storm Drain System Calculation of Travel Time (existing) Overland Flow Nomograph Open Channel (Swale) caic Hydraulic Analysis of Discharge Manifold Orifice Calculation Attenuation Volume Calculation Sub-Basin "An - Existing Runoff Coefficient Ci:= 0.9 Cp := 0.45 A=0.46 Run-off Coefficient - Soil Type 0 Al 6721 + 4163 Area of Impervious Surfaces (Roof, Patio, Pave, etc) Ap 800 + 8537 Area of Pervious Surfaces (Landscaping, natural, etc) A (Al + AP).AC Total area - Ac Al-Ac % Impervious Percentl := --- Ap.Ac % Pervious Percentp A C Cl.Percentl + Cp.Percentp Hydrology Manual 100 Year 6-Hour Precipitation lsopluvial Map 100 Year 24-Hour Precipitation Isopluvial Map Check for Mm/Max P6 0.45< - 0.56 <0.60 ..............Okay P24 Time of Concentration See Attached Nomograph - Overland Flow - 75' 6.40 minutes See attached Calc - Open Channel Flow - mild swale 0.60 minutes Total Travel Time 7.00 minutes Intensity -Duration Equation Design Intensity inches per hour Design Runoff Qioo cubic feet per second Percenti = 0.54 Percentp = 0.46 C = 0.69 P6:= 2.5 P24:= 4.5 P6:= P6 D:= 7.0 7.44 P6.0 0.645 = 5.30 Qtoo:= C.I.A Q1 0O = 1.70 Run-off Coefficient - Soil Type D Al 13895+ 4486 Area of Impervious Surfaces (Roof, Patio, Pave, etc) Ap := 1840 Area of Pervious Surfaces (Landscaping, natural, etc) A:= (Al + AP). AC Total area - Ac A1.Ac % Impervious Percentl Ap-Ac % Pervious Percentp A C Cl.Percentl + CpPercentp Hydrology Manual 100 Year 6-Hour Precipitation lsopluvial Map 100 Year 24-Hour Precipitation Isopluvial Map Check for Mm/Max 0.45< P6 = 0.56 <0.60 ..............Okay Time of Concentration See Hydraulic calculation of transit time in storm drain Use Tc = 5 minutes per Section 3.3.2 of Hydrology Maunal D:= if(D<5,5,D) Intensity -Duration Equation Design Intensity inches per hour Design Runoff 0100 cubic feet per second Sub-Basin "A" -_Proposed Runoff Coefficient Cl:= 0.9 Cp := 0.45 A = 0.46 Percefltl = 0.91 Percentp = 0.09 C = 0.86 P6= 2.5 P24:= 4.5 P6:= P6 49 Tc := - 60 D:= Tc D = 5.00 := 7.44 P6. D_ = 6.59 Q100:= C.I.A Qioo= 2.63 .-Ji - - T L ~ N -7 5 3 7 / 3 V -- I - / - 7. 3. $4 ' Jr * - • -' L 73 -7 - -. / --7 73 - - I . .1 L S 7. -- --- _I 4 N 134 -. . .137 1 •. \ 17 47 '4 -. 7 "i. U4 I i ..— -, 4 4' 3 ___'•_37 r - .--' fP / i. '1 -' I :i:-~Zl _- '- -- 'i'r,. -2( J .. -••. i .- 7 3 1* — _.,f. 7__' 33 7. - 333 \ \ll~ 1' s_k - 7, V - A 13 , 1;, :..f i ; . .3 - 4 -. - .,:-, . - :'i ,.;-ç. :- 73 ••.-7;s,..-.7-7 - 1,----:_ 1-7. .._#,., 737.- -1 I 7 3 5' 1 r 7--.ssS, -- .-7-s'/-717s '. -''-,'-k'3 '17,7 '' --:.:- -- I. F-' -11 - — % 4 13 3 7.117 I 7, 7, 7 s \ -- s7,I.. ',7,47, hi...' ..i\3i' -;77 3 77 •- 774. 7- _4V '7,4 7 '7- 13 -57 54 - 1.7., ..,. 7 7,.I45 .c . 737.47-5.3 .47.7.... -7 453- .54355 4-.-. --"5. 3 54 s.. . ..- , '4 ,i - ---'-' - ef') 53_1 st "S 5 3 13 3 4 743fr ., .1 ~4nlll 35 '5 \.- li :;-./1; ;7,.,.3 , 3 1 51 I 135 4 7 77- I - - 57 t 7-4 sV- S 1%, 4 " - 7. II '3 3 5 I ---7 .. . 5.. '3. i.3 - - . - - .' 57-.7 - -. . - ,R13s .. 3 _11.. .IS,. . - '4-, T. I - - •i. ;:: 1 , :., •• ' -: $3 - - ','7- - 3, 4--: 1 7. - .. -'I''7-'"- "-7 .7I'5••3' - -. . •5' -'s,'E°' 54'/S . . - 7-7-7- - --4• S - I zss3" " ,,- - - 13 4' -11 11 - L - 4 -7 1, 1 '3 -7 - - 4 's 'V4 , - (7,73 - ,,- - '-1,7, 1 7- - 3 - If 1 5 31 - 15 - 7 1 — ll -- / ' --F- '' - A/3,- - -:,Y-. .. - .3, - . j - 7.5 .5 . 71fr - '7. - - 4 - 5454 - . 'I. - - -- - SITE VICINITY MAP V c ., - 7. 3. - -73. 7- 544 - 4 - 7 7, CARLSBAD '-'j - ,3 /I' , ________ VILLAGE . . ' :-' _.,5 ,._7k$,\/73. -1. 31..:'_ - 11, TOWNHOMES -- ... BUENA VtS1A 36"cSPC/.5 DRAINAGE 56RCP MASTERPLAN :. 24ACP/28 36-RCP - . 24ACP/42 / t-V 24RCP]2 . ....7 . . . 18RC .. 36RF'c 56RCP' 48RCP r24R 36 RCP" 03% - 1BRCP/10% I (24MP) . r24/t8 I • -. . . 24RCP/4.1 - . RcW6.5%,... WRCP 1j 48 WRCP . J To 'RCP f. .. . •1 16.4% \ .. 42"RCP/5° - 42RCP 1BACPJ 24RCP 22.6% 36RCP ' \r 42R SiTE 36R----. • r 24R0. 45"RCP - 45RCP -. 27Rc2/1.0% '\ (24RCP/0.4) (2/0.4 . . 36"RCP - 36-RCP 06 cp/slo 33RCP AB 24RCP OR 360' J\ 4. B 2 6r6. 7~ fiAAkoBL 24RCP RCP 10 24 RCP iN co —1 CP 52% 18tOCP/I 8RCP 35RCP.i. f 6150 W10.5% r&4-RCPL. 1" OPEN CONC. DBI 48RCP/0.S% L 45 RCP—. . . - 45RCP •• DB3u 1BACP/26.5% 36 RC .• . \ .. . ,- iS'RCP/.4 - 0% \___.• 48"RCP 42RC IBRCP/1.97% . 54RCP—N • //RcP/o.4%) 3ORCP08)RCP - 18ACP 6cM\ coNçRE1a 2-4 0BL 24RCP -: 24RCP/21.07% . ) \4.I 15/ i cc 2.0%).T 24RCP/%.O% .— i ;ST. EAR OR 18RCP .. -. GHANHP-.." .• •.•' DD 09L 24RCP 24 18RCP/7.74% 8"RCP .1 BRCP BL oj%4 . x 15'ACP/68% \ . . tit (ERT}jN ciA'FNE1) . -. 15ACP/29% \ \>,: - ,c._. L5BR Rc1'i.2% a"RCP- DBL6X6 i8RcP/.5 \:( NHOLE K ASSUMED - .0 Ro os eve1-t --S-tre t SEW STMP .' MAIL BOX / LI—SEW STMP WM. WM . N3ow124.27t.\V /7. . .\ fl WW i- [ • V. e _-so 1__T °° _- V 100. 9BIVI CO o_. O. 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'. grading & drainage plan ft-A045PI e\E PM41 County of San Diego Orange Hydrology Manual County __ 3330' Riverside County Rainfall Isopluvials / 'ç---- 100 Year Ra:ll Event 6 HIS 15 - _______________ ______________ - - 33'19 OCE N. 470, SC I MWAS 1 33'00' SOLPNBEAC - DM 1. 0. 5% I TF1 32'45 .3.0 ______ 2 45' I EfiIL ' M ex C I w 3230' 3230' S 3 0 3 Miles b S County of San Diego Hydrology Manual __Oranqe_ County! Riverside County - 13 eo - O l' 13 IA 3115_- N 415 lou Year RaU Event UHours r5irC EP L iaunche 3300 OLNMII POi 'r r S1TY - Q - C CD f M. at g) -. ••-I..• ••••\'\ . • '. 3245 245 I GIS - N RAKRIAL A M e X 3230 -A S rh In County of San Diego 33-3 Orange Hydrology Manual S County J Riverside County 'I \_____ZP V Soil Hydrologic Groups 33•15 __ V JT j 33u15 / 1 VV V $ J I gd — E. Soil Groups Group A Group B — - V -, Group - Group 0 - 1. V Undetermined 33•oo' 3100' L_J Data Unavailable so.eee ____________________ V s.o co,iry 0 ;00 V V 'VVV'V - VV V5 V V 3 V _+•__j CD - I '4 4TSJV ji l i. VVVJ VV __ *V V ,..._, _________ V 1A1. i GIS PAKAIAL III! V --- . c aoec I 'vi,. mi A.d • V — M e x i £ 3230' s — .- 3 0 3Mlles _ S S Analysis of Circular Sec •Number...of_Pipes 3 dia Given [1r2(O - sin(0))l (2) 1.486 ri 2 (8))] I 2 Q •I—.r •(0—sin n[2 [ r.8 ] d1a1 := nj:= S1:= 0.50 6 0.013 0.01 Upper Reach of Private Storm Drain 1.20 8 0.013 0.01 Middle Reach 1.32 12 0.013 0.01 Lower Reach Results: 0.5 1.2 1.32 ' 0.561 1.208 3.563 "Qfull" 0.891 0.993 0.37 'Q/Qfull" Output = 3.23 3.947 4.198 4.413 6.507 5.057 0.736 0.813 0.421 "d/D" Time of concentration. Length of system L 185 Vav := 3.23 + 3.947 + 4.198Vav = 3.792 3 Tc:=_L Tc=48.791 sec Vav fps 2.50% slope 2.0 4zo 4z, 1.5 çS - 100 // 30 L:" 1,0 C, .75 .50 C, w LU c z t.0 LL-0 I 20 I LU o z I O' w I-U) rJ 'I Li 0 - LU C,) D - - 10 z o 0 of W LU F- 0 EXAMPLE: Given: Watercourse Distance (D) = 70 Feet Slope (s) =1.3% T = 1.8 (11.1-C)VD Runoff Coefficient (C)= 0.41 Overland Flow Time (T) = 9.5 Minutes SOURCE: Airport Drainage, Federal Aviation Administration, 1965 I" I G 1: R E Rational Formula - Overland Time of Flow Nomograph Open Channel: Flow Sections := 2 Number of Cross Sections for Analysis Section No. I At head of flow path Section No. 2 At bottom of flow path Basic Equation: (2) d [2.b+d.(cot((x)+cot(3))]1 Q = 1.486[d[2bd cot(a) .(--) )]][2 b+df_1 + I n (+ cot sin(a) sin (0) I Input: Flow Rate "n" Slope Bottom Left Bank Right Bank [CFS] Width Slope (V/H) Slope (V/H) Si := b1 P 0.01 0.02 0 0.02 0.02 0.01 0.02 0.02 0.02 Summary: 1.468 + 3.293 - = 2.381 Vav - fps ("No 1" "No 2") 0.1 2.6 0.037 0.107 "d (ft)" Output = 0.068 0.789 "Area (SF)" 3.691 14.723 "W (ft)" 1.468 3.293 'V (fps)" 160-75. 1 = 0.59 travel time - mm 2.381 60 g:= 32.2 H:= 1.5 V2 h:= H+ - 2-g Q:= C.A.Th N:= 54.12 16 N.Q = 1.7 Outlet Orifices -Entrance Control S .2 = 4.9 A Outlet pipe, square end, projecting into Manifold I.D. of outlet pipe (orifice) A=8.522x 10 ft2 - area oforifice ft/sec - Velocity Head ft/sec2 Static head on orifice h = 1.5 Height of Water Surface above Center of Entranc Q = 0.042 CFS N = 40.5 Number of Outlet Orifices (@ 16" 0/c - over 54 LF of maniflod) Combined discharge rate (Less than 1.7 cfs Q100 (existing) Maximum discharge velocity - FPS C:= 0.5 ID:= 1.25 2ID 7r A:= 144 1 S Attenuation Volume Required := 7 Qioo_existing 1.70 5 Q1ooproposed := 2.63 AQ := Qioo_proposed - QiOOexistin Qioo_existing - -60 00-proposed Time of Concentration (E)dsting) - minutes CFS Time of Concentration (Proposed) - minutes CFS zQ=0.93 CFS V=98.7 CF Lenath of 18'6 Pine Required for Attenuation L:= L=55.8 LF 1.5 1