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HomeMy WebLinkAboutCDP 2016-0006; MFD-01; PRELIMINARY HYDROLOGY CALCULATIONS; 2017-09-15r· -------l RECORD COPY ' JX;/l.-'1)8/11 -· Initial Date L-----------··-----· Victor Rodriguez-Fernandez, PE. 1283 E Main St., Ste 109, El Cajon, CA, 92021 engineervictorrf@aol.com PH: (760) 357-2434 PRELIMINARY HYDROLOGY CALCULATIONS for 2637 JEFFERSON ST., CARLSBAD CDP 2016-0006 Victor Rodriguez-Fernandez, RCE 35373 September 15, 2017 9-19. l} ' Description Existing property is a flat 0.25 Acre residential lot draining with about a I% slope towards the West towards an existing multi-family development that is accepting the existing flows with an exisitng retaining wall. Existing structures and pool to be demolished. No offsite drainage flows were observed. The project proposes 4 Apartment Units structure with permeable pavers driveway and landscaping. There will be an increase of 742 SF of impermeable surface ( from 4152 SF to 4894 SF). The drainage proposed will be directed towards the same west property line. There will be no increase of flows by mitigating the imperviousness surfaces increase by providing permeable pavers to increase the Time of Concentration of the flows and decrease the peak flow for the south side and a proposed 3" Landscape pond to provide sheet flow as before over the north side tributary area. The expected proposed conditions maximum runoff for the north side of 0.15 CFS will be less than the existing conditions runoff of 0.25 CFS, for the south side proposed 0.09 CFS will be less than existing of0.23 CFS. For the previous existing pool concrete areas draining to the back of the property, similar conditions are proposed with similar 0.0 I Acre tributary areas. In summary, the proposed project proposes to simulate existing conditions and increase of runoff will not be expected. The portion of ground between the existing retaining wall and the property line will receive the same or less peak runoff from the site as before. CALCULATIONS: EXISTING CONDITIONS NORTH AREA C = 0.55 (Per Table 2 for Single Family) L=150' S = (58.3-56.8)/150' =I% Al =0.11 Ac. 1/2 1.8 x (I.I-C) x (L) Tc -----------------------------(Fig. 3-3) 1/3 s 1/2 J.8 X (J.J-0.55) X (150) Tc -----------------------------= 12.1 Min > I = 4.2 (Fig. 3-1) 1/3 (I) Q I 00 = CIA= 0.55 x 4.2 x 0.11 = 0.25 CFS over 25' > 0.0 I CFS/FT Sheet Flow SOUTH AREA C = 0.55 (Per Table 2 for Single Family) L=l 90' S = (58.0-56.8)/190' = 0.6% A2 = 0.12 Ac. 1/2 1.8 X (1.1-0.55) X (190) Tc -----------------------------16.2 Min > I= 3.46 (Fig. 3-1) 1/3 (0.6) Q 100 =CIA= 0.55 x 3.46 x 0.12 = 0.23 CFS CENTER AREA A3 = 0.01 Ac Assume 1=7.0 in/hr (highest chart value for P=2.8) Q 100 =CIA= 0.95 x 7.0 x 0.01 = 0.07 CFS sheet flow PROPOSED CONDITIONS Total Tributary Area= 0.25 Ac C = 0.70 (Per Table 2 for Multi-Units) NORTH AREA A3 = 0.07Ac LO= 20' S = 3% To= 6.4/(90/20) = 1.4 min. (used value per Table 3-2 for MDR 14.5 DU/Ac) LI= 110' S = (57.7-57.0)/110 = 0.6% 1/2 1.8 X (0.40) X (J JO) Tel -----------------------------= 15.7 Min (Fig. 3-3) 1/3 (0.6) Tc2 = Time to fill 3" Landscape pond Assuming Tc= 18.4 min. > Intensity= 3.18 in/hr (Fig. 3-1) Landscape Pond storage Area= (50+30)/2 x 0.3= 12 CF Q3 =CIA= 0.70 x 3.18 x 0.07 = 0.156 CFS Tc2 = 12CF I 0.156 CFS= 77 Sec.= 1.3 min Total Tc= 1.4 + 15.7 + 1.3 = 18.4 min. > Intensity= 3.18 in/hr (Fig. 3-1) Q 100 =CIA= 0.70 x 3.18 x 0.07 = 0.15 CFS > 0.15/15' = 0.01 Sheet Flow over proposed Landscape Pond = 0.01 (existing) OK SOUTH AREA The initial AO=O.O 14 Ac, To= 6.4/(90/30) = 2.1 min. (used value per Table 3-2 for MDR 14.5 DU/Ac) Assuming Tc= 200 min. > Intensity= 0.68 in/hr (Fig. 3-1) Pavers Storage Area= 3,738 SF x 0.67' x 0.4= I 002 CF AO+ Al= 0.18 Ac. QI =CIA= 0.70 x 0.68 x 0.18 = 0.086 CFS Time to fill Pavers subase Tl = I 002CF I 0.086 CFS = 11,651 Sec. = 194.2 min Total Tc = 2.1 + 194.2 = 196.3 min. I 00 yr maximum peak flow AO+ Al+ A2 = 0.19 Ac. Q 100 =CIA= 0.70 x 0.68 x 0.19 = 0.09 CFS CENTRAL WEST AREA A3 = 0.01 Ac Assume I=7.0 in/hr (highest chart value for P=2.8) Q 100 =CIA= 0.95 x 7.0 x 0.01 = 0.07 CFS sheet flow NORTH PACIFIC OCEAN VICINITY MAP BUENAIVlSTA WAY I-~ BUENA PL ~ e5 KNOWLES N ~ ....,,, SITE STRATFORD LN r-J 11 62.46 56.80 TW 8'TM WALL fr~~ 1' OS FEN T I I I I I I I I I 1lLllGc6R ________ /.J BLOG COR I I I I I I I I L---------- BLJJG COR 0/S I I I I I I I J L----------- 'BLOG COR 0/S I II I I ,,11 I I , • II I 58.10 I ~.50 , 11,,(TC \ "60.531-...CC WLK " f'f-+-57.64 1 m,cc wt,_K 1 ~ ll I FL I I '•,, '•,, f .~.,1 I BEG MTL FEN i ',,., ', ... ,. i ..-" II I 62.51 56.58 WI BTM WALL L-----~1;6/c~4BLDG ~ '•,,, '•,,, ! -~ :: : f3 EX. METAL {ENCE EX. NO PARK SIGN '\·,., ',. 1 . .1] : r 61 60 ', EX. TRAFFIC SIGN~, , II I EX. RETAINING WALL N,89'66'00' ~:, 160.00' EX. WOODEN FENCE . ' 58.01 -59,~ '\;_, ' • o END MTL FEN \ WON FEN T TW FW BEG -!--; i" ' II I ~~,22 ---------- ----- ----- ----- ----- -' IU 5774 ..---ft\ JEX TREE EE 57.08 _57.09 '"9 58.07-~ :1E .-. ,, · ,-, :-' 1N--FL· / TBR L = 15 0 I CUR l..nNMNI :c 11.,.m 1.,nrn111~14~ SEW co'--GATE::;, EX.c \.j. , l ... ·1i ! , _--, ,-. ,7.93 ,o .57.98 :::c -.!'· c.. n,, 11 I el 56.02 -~&7io D .,, "~ 1 -_...J_"'iWO ~-GAS MJR'r;l~8JQYION FEN@Pl~>J :·) Ui l e-..; V) l~iw ~, < -~L\' Al -O 11 Ac coR ~~~~~, "'-~-~ nOtJSe---\;_;---;;;R-H:: i A,£ 58.75~)) I'-,! .. 11111 I~~ ~ 12'TRE£ -• • \\ 4' SEW CO I 30" PINE '.'...·. ,(-SJ~. I I I~ · ~ ~ 56 61 COR OECK~(\\ ,\1 I .._,-Ii · i: : 57.96 ~ .t:l z · COR DECK\\',---;-\\-\ '~'~OL I ,:· • .U i~ 50 C) 'ii ~ ~ .---t --·----5706 i'('\\\;\~\~~\\\\~\'i EX BUILDING L __ °1tl B~8HDUSE t,··-,l: I FLEX WATER C"/:J METER ~ 10 ~•'15 ,f"'J\ 4'-lEMON TREE~ .rEX TREE i\ · \ \ \' , \.\ \ ~\ '0i FF ' 'II I ·x \"''~12'"TREE -. ,,-;: TBR I\~,\\\ \\\, 5t_':,i ',.5949 I EX TREh .,,_ fg· II I I ' w '-Liv 5693~•-"J--·o.r f\\ ~\\0,.'''·\c~HOUSE 5928 Ff I '--v" '',i .11 '. ' .5c''c's cc -'P'i:t-4"'~H~~ FEN f,p f\\\ ' '~\()£~,.\ 1 TW@COR ~DUS£',..._ .15511 ,0~. 2 Ir .... II I CHN LNK FE~ rn~ c • ~ -~ \' \\ \ .. , \, \\J 07 45 r J:--~l,;t<s~sE~ ~"" J -,, ' I' " -,..., 56_ : •• ·, k\' °\\\\' \\ \I CC@HO BTM STEP! ss~f~t-. 8TM WAL';;. ;,) / i'::S ' rl ! ch "PA • • \ 5704 (\ ~ \ ,,,\\ \\\) 56.81 EX STE~s_.j(\\ • 5807 -~ I" :: • :: : § l'e,,---""';'coR PVRS~~il\ \ \ \ \ \\:;',, \ 1 Hn '" _ _ __/ _ si 3l;/ 6' tJM~TR • / : ? • II I 2"il 8;,1r .. ..------1-02 1 ----1''\'\\J r-:-~'83---------5-?'t':"j'T'COR!j~eq. ,/5788 l1a • ~5736 ... AP \ /Ar'PAVERS ~\\\\\I •flfM.c. fC@HOUSEEX P/'.ANTER APCC\ :s14i./~!'. .. ----TCDL~:~ ... /n I ~ FL . . : ----~iiiwars-.J..U..). :,__ \J r • >5£'1£ ' J57 27 Fl.. ":scccw-,j',:-a-·::T' -:,,_fl I il / tb~'eo~>.'/' : ~ { -~~ \E~:\ousE A2 = 0.12 Ac. l-, !" ci:---,:·-r--.-~--~---:: AP ~. • • .-• ·~i~ 6'. • -j • · · :: I t:l • ,' ' .J 665, EX TREE ! ' E CON" QR"'EWAY • '' • 1111 • >' , ' APGH~LNKFEN • /'· : ,.·~ ,X. 1,~ iv "" •, , .'I) }11\1 EX. POOL // ,6'' I SB.lg -~ ; " '.i ·. ,o.c:: " •. , ~·' •" • • Ii ·x I) I ,' *-I ENO IRON FEM ,6.7'2 • 5682 ,/" ' • :::i~, . • · "' . · • ·1 w ~j.J, I 56 78 56.32 OW'( @HOUSE AP'(RON ,fE~ • '") • ~~· • I .. t ~I". i:;j ,. •• / / / ' SHED = ---"71-r-;--~-N~-'r~-f'Y'r'[ 56·69 ' DYii ' • .Jl I 57 72 ---------!BLOG COR i ~ ;, / 6 ~C~!!~SE_ _______ _GOR HOUSE • ----~------i'L = 190' :;,:: ____ ,ij------~'----~.v 1"1YIU</OWY • _56~99 -~ ,./ /,,-/ 56.81 l ··/ J-tI ... -i ... 7 /-~r[!_i /-fl\56.75 ED oWj :,-::-u-tl TC OWY • 10 Ae~ • / _/ /. HNbNK FE ENO : • 1-.;j-T .£'"?· fFJ .. [:-,,:Ji, EO PAYERS ' ~ 5758/ I'. ',• 5725 . • ' •• s;6.91 EX SHED '-, I ' 7 "-7 1-·· 1 ' 517 1 • ' 51,42 , , .99 ~ · ., >[·· Cfl!l SHED >560.R64SHEO f.r/ 1 ff:I:PWm· .. AVER/ ~.t_~r-1 fJ:J < 57.33 18• ~ALM I: jl I FL I ', 'j_P"CC./BC ; ,-/ '-/C ~' .-'& __,_ ·-, w-:.-,..;/ -18" PALM : '~ I I EITM WALL AC 56.9~ .. 91'. ~/?' ._,, / I . ~ /--.t ... -:._~ti_JJi 5797 1 v:, ->jl I 55.99 -.CCPo'G wy ' 5655 '-/ 'J:fJf< N /-. --ru·~' ! . ' .. I TW M .. _ \ -------~:...-:=.-:.t/ W ·, FENLINE 1:oR SHED --L.[ __ r:_ ... 1_ ____ ---___ -,;:LL.J.._..:-c,,,...~ /.~----... --~~ ... m GR 57.76 i. ~ .. :1 I 56.8 ;a 4' ~HNLNK BEG! I• j.vt-EX. WATER WON FEN T~ I 56.97 I - ----- -. • --:'.""'i -\56.26 ' , i,: d1}t!II ! I 5 577.~ETER E11 I AP cc N89'66 00 E 160.00' \.,,--EX. WOODEN FENCE 57.46 ,' • IC O'W a CNLK END/WONFEN TW FW ENO o119" II :I r_,,:'.11 I FL. It l~--.-n I I I ·':: Io() -i 1 s 1 ( 5 s . 3 -5 6 . s) ; 15 o 1 . o % f.} .:: : I .Ci !I j 1 S2 (58 .0-56 .8 )/190 0 .6 % i !!I GRAPHIC SCALE: 1 "= 1 O' EXISTING TOTAL TRIBUTARY AREA 11,100 SF= 0.25 ACRES SHEETS FLOWS TOWARDS THE WEST ~ k. ~ t · u, f a.44 AC I II u, I II ! 58.16 I II, 57.85 TC OW(}-J.1 1 UP 5773/11. FL 111°1 I II I II' I II 11, ::1 II' II 11, 11 1 ::• II 11• I II 57.95~1, TC D'llf I 11 57.48 II FL I 11' I 11 1 1'f-11• "' I 111 § I 110 ~ I 1:1 g:, 1111' ~ ~ i1:11 ;'.] 57~8 I 1:1 j TC4711• 57.41/. ! I f2 FL I II ~ I 1tl ~ ~ I 11, ie 57.76 I 111 ~ Tctlt_ 0 57.2BJ)JI' 3 FL I Iii ~ I 11, [;J I Il l w I II. ts I Ila I 11 1 I II' 57 65 I ltj TC ov/Y-..J...!1• s rn --f'i: I FL I Ii' I 11: I II• I II I II. I Iii VICINITY MAP ! II LEGEND EXISTING ITEMS DESCRIPTION PROPERTY LINE CENTER LINE EXISTING SPOT ELEVATION EXISTING CONTOUR El£VATION EXISTING CURB & GUTTER EXISTING BUILDING EXISTING WOOD FENCE EXISTING IRON FENCE EXISTING Cl!AJN LINK FENCE EXISTING SEWER M>JN LINE EXISTING OVERHEAD ElIC!RICAL LINE EXISTING RETAINING WALL EXISTING TREE EXISTING PALJ.I FlNISH SURFACE El£VATION FlNISH FLOOR El£VATION FINISH GRADE El£VATION FLOW LINE El£VATION TOP OF GRATE ELEVATION INVERSE ELEVATION TOP OF WALL BOTIOM OF WALL GUTTER NATURAL GRADE EXISTING DRAINAGE DIRECTION EXISTING CONCRETE EXISTING PAVERS EXISTING DECK FOUND MONUMENT AS NOTED PROJECT ADDRESS 2637 JEFFERSON STREET SAN DIEGO, CA. 92110 AREA DATA LOT /REA -11,100 SF EXISTING IMPERV10US /REA = 4, 152 SF (EXISTING CONCRETE = 2,450 SF) (EXISTING BUILDING = 1,702 SF) SYMBOL ---1(-- X56.75 _,, __ --s ---Oh --- ASSESSOR PARCEL NUMBER 155-170-25-00 LEGAL DESCRIPTION THAT PORTION OF LOT 1 (NORTHEAST QUARTER OF THE NORTHEAST QUARTER), SECTION 1, TOWNSHIP 12 SOUTH. RANGE 5 WEST SAN BERNANOINO MERIDIAN, IN THE CITY OF CIRLSBAD, COUNTY OF SAN DIEGO, STATE OF CALIFORNIA, ACCOROING TO omclAL PLAT THEREOF. BENCHMARK DESCRIPTION: PTl139: DEPT OF TRANSPORTATION DISK LOCATION: IN S S/W NEAR THE E ENO OF LAS FLORES DRIVE BRIDGE OVER 1-5 El£VATION: 82.221 FS FF FG Fl TG IE T'II Bl'/ NG 0 JOSE LUIS IREUANO ANO MARIA ELENA IREUANO 835 LADY BUG LANE, Prepared By: VICTOR RODRIGUEZ-FERNANDEZ 1283 E MAIN STREET, SUITE 109 EL CAJON, CA 92021 (760) 357-2434 -----------04/06/2017 v1CTOR RODRIGUEZ-FERNANDEZ DATE SAN MARCOS, CA. 92069 ~ICITY OF CARLSBAD!~ 4-UNITS APARMENT COMPLEX JEFFERSON STREET OWN BY: VMRP I CHKD BY: VR-F PROJECT NO. 15-764 BENCH MARK DESCRIPnON: PI#l1'9· PEPI OE TRANSPORTATION DISK LOCATION: IN S S/W NEAR THE E END OF US FLORES DBM'. BRIDGE O\JER 1-S SOURCE CONTROL REQUIREMENT AND SITE DESIGN BMPS: ~ PREVENTION OF IWCIT DISCHARGES INTO THE MS4 ~ PROTECT OUTDOOR MATERIALS STORAGE AREAS FROM RAINFALL. RUN-ON, RUNOFF, AND WIND DISPERSAL EX. Fl~;~T_T _ :il LEGAL DESCRIPTION /HAT PORTION OF LOT 1 (NORIHEAST QUARTER OF /HE NORIHEAST QUARTER), SECTION 1, TOWNSHIP 12 SOUIH, RANGE 5 WEST VICINITY MAP RECORDED:-,,-c-=,,-,------------=-=-=--ELEVATION:~B2-22ul _______ QATUM:~N~G~\1J~2~9 __ NOTES: 1) AJLL DRAINAGE FROM BUILDING FOUNDATION SHALL BE AT MIN. 2X GRADE 1 O' AWAY FROM BUILDING FOUNDATION. iSC3 PROTECT MATERIALS STORED IN OUTDOOR WORK AREAS FROM RAINFALL. RUN-ON, RUNOFF, AND WIND DISPERSAL ~ PROTECT TRASH STORAGE AREAS FROM RAINFALL. RUN-ON, RUNOFF, AND WIND DISPERSAL ~ ADDmoNAL BMPS BASED ON POTENTlAL SOURCES OF RUNOFF POLLUTANTS ISlE] MAINTAJN NATURAL DRAINAGE PATHWAYS AND HYDROLOGIC FEATURES ~ MINIMIZE IMPERVlOUS AREA ~ MINIMIZE SOIL COMPACTION PERM ANENT BMP'S ----------------------1-----------rr~itMH SAN BERNAND/NO MERIDIAN, IN /HE CITY OF CARLSBAD, COUNTY OF SAN DIEGO, STA TE OF CALIFORNIA, ACCORDING TO OFFICIAL PLAT /HEREOF. APN: 155-170-25-00 PROJECT ADDRESS 2637 JEFFERSON STREET ! 2) AJLL FOUNDATIONS ADJACENT TO PERMEABLE PAVERS SHALL EXTEND BELOW THE BOTIOM OF THE PAVER BASE SECTION PER SOIL LETIER DATED 04/10/17 GRAPHIC SCALE 10 5 0 1D 20 ~W~iwwl~u~MJ~~-~~l-iiiiiiiiiil { IN FEET ) 1 inch -10 ft. I I I I I ?;S I I I I I J l ~LlltCOR----;D~~o;/ 8 ~ IMPERVlOUS AREA DISPERSION ISi2il LANDSCAPING WITH NATIVE OR DROUGHT TOLERANT SPECIES I I I I I I J I I I I I I I __________ J L--------r -- 'sLOG coR o/s 'sLOG coR o/s I ~ (D PROPOSED 3• LANDSCAPE POND (50 SF) @ PROPOSED PERMEABLE PAYERS (3,624 SF) 60.50 ED CC WU<'-. 60.56--. ' ED CC WLK ' ', ' ' _, ', ... "-'", ',· !PROPOSED CONDITIONS " ', ., ' SAN DIEGO, CA. 92110 V, ~ ~ V, ~2" c· .. I ~ i:, " II < ..:, "' UJ ~~.35 <: 0 AREA DATA LOT AREA= 11,100 SF EXISTING IMPERVIOUS AREA = 4, 152 SF (EXISTING CONCRETE = 2,450 SF) (EXISTING BUILJllNG = 1,702 SF) TOTA!. PROPOSED IMPERVIOUS AREA = 4,678 SF " " " I LE GEN D EXISTING ITEMS DESCRIPTION DWG.NO. PROPERTY LINE---------------------------------------- CENTER LINE ---------------------------------------- EXISTING GAS LINE-------------------------------------- EXISTING ~NCE (TYPE AS NOTEO)_ ___________________________ _ EXISTING CONTOUR LINE EXISTING SEWER LINE------------------------------------ EXISTING WATER UNL----------------------------------- EXISTING ELECTRIC OVERHEAD LINE ____________________________ _ EXISTING CURB & GUTTER ________________________________ _ EXISTING SIDEWALK _____________________________________ _ EXISTING PAVEMENl ____________________________________ _ EXISTING FLOW DIRECTON --------------------------------- EXISTING SEWER MANHOLE--------------------------------- FLOWLINE ELEVATION ____________________________________ _ TOP Of CURB ELEVATION _________________________________ _ FINISHED GRACE ELEVATION ________________________________ _ FlNISHED SURFACE ELEVATION..------------------------------- FlNISHED FLOOR ELEVATION.. _______________________________ _ TOP OF WAll ELEVATION---------------------------------- TOP OF FOOT ELEVATION---------------------------------- NATURA!. GRACE ELEVATION.. _______________________________ _ GUTTER-------------------------------------------- LEGEND PROPOSED ITEMS DESCRIPTION PROPOSED FLOW DIRECTION ________________________________ _ PROPDSED CONTOUR LINE---------------------------------- PROPOSED CONCRETE _____________________________ 2,502 SF __ PROPOSED PERMEABLE CONCRETE ________________________ JB SF __ PROPOSED PERMEABLE PAVERS ________________________ J,782 Sf __ PROPOSED BUILDING STRUCTURE ----------------------2,376 Sf __ PROPOSED LANSDCAPE _____________________________ 2,402 Sf __ PROPOSED RET~NIG WAll _________________________________ _ ROPOSED ~~:w SECTION 8-B :1 SYMBOL --GAS --GAS -- --58----_ --s --s --w --w --EOH--EOH-- c--~-.. ;:-•; . ' i::J Ci·i: .·: ·.,·.r,·.::· :: '/::::SJ QMH FL TC FG FS FF TW TF NG G SYMBOL --- --57----_ _: 1-:-:-:-:-:-:-:-:-:-:-:-:-:-:-:1 ~1 §l: ~, I i I I NOT SOOI ~ICITY OF CARLSBAD !~ DRAINAGE & BMP PLAN FOR: MDF-01 VICTOR RODRIGUEZ-FERNANDEZ 1283 E MAIN STREET, SUITE 109 (4-UNJTS APARTMENT COMPLEX) JEFFERSON STREET EL CAJON, CA 92021 (760) 357-2434 DWN BY: VMRP PROJECT NO. CHKD BY: VR-F CDP 2016-0006 C-2 .•- 8 ~ :: 1'. !e :: . "' .. ··· ... · ... ....__·· ... ···· .. :·· ... \\ ~ le ~ 3:z+:lO' to s: County of San Diego Hydrology Manual • Rainfall lsop/uvials 100 Year Ralnfall Event - 6 Hours lsoplu.tal (Inches) N ~--~!)~Vt~-,o,;M"t00il"l4I~ s 3 0 ~ C..M'\.IIC.~ •.r.N01Ullll"'IIO"'O 'JC~W,lrillSU._WQ CJl'~TJtllO ....... o<(Jllt,.~,u9'0a c_..--.... -- 'M ..... ...,_ ............. UIG,IQ~ E w. ...... .....__.._ .. _..._.....,. ... _,.....,,ll..lrOAQ. ':No..........,. ............. -... ~ .. ...-..... 11'1~ ..... ~ 3 Miles I b £ ~ ~ ? ~ '311 ':'' di IY" 1 I ' . . .'fr=! I I I I I 33'30' Riverside C-ounty • •. ·Q·· .. •• • ....... ,r ····-~---.>~· .. -\. \ •· ... ~- SYt) / e d ~ . -• '"r • en e ~ i j . ~ .. Cn ! b 32"30' . . ~ • + r I-.-+.I." ... i;: ~ ~ .. County of San Diego Hydrology Manual • Rainfall Isop/uvia/s 100 Year Rainratt Event -24 Hours I ------1sop1u...;a1 (Inches) I DPW ..gGIS S1tiGIS :....,.:,,"o'c\lbtw iT'f"f"• .-r:,-...,._ \I,,~~--.. '.u: .\. .. ,..,.:...(..:.,~ :,..; -.._IN,1> .. ~WMOftW~(:,F»,..,<N)~I ...... ~ Glll~l'C..,DG-..->l(Tt..M"ID"U.lto411M'\.1:Q~-o,:~.JliM,IYJCJ .......... -l:lltA._~~ ~ ............ ._. .............................. UNlillG ..... E-................. _ .. ..,..,........, ... ~ ......... .,,U..l,QIO ,. ....................... _____ __ __ _...,"--..... ~ s 3 0 3 Miles P"""i-I 100 90 80 70 60 .1"-- ' rx. r,,..... , ..... 1 1" 50 I 40 I~ 3.0 I 2.0 I -i ~ .!~ 1 ;o. ·~o. G> £0. 0 0 0 0 0 ) 3 B 7 6 5 4 2 ... 1'. j I I i I I I I ' ' ' .--;--- ' I I . I I 0 11 I " .... ,...""" ~ "' .... I"", ~ .... 'r,.. "'1', .. ~ .. .... I",,, ""-. i'o,,,..._ ..... r,... ... • " I'. ..... .... i' .... ,._ ""1'. "' i'~ ""' .... 1'. ..... '"'" ..... t.... I'. r---.... c-- 5 6 7 8 9 10 I " I I' , .. ,.. .... I"' • r,... "'l"o .. "' .. ........ i' "" ."' ~ "'"' . ....... ~ "'"' ~ .. .. "' ~ r,.. .... ~ I "" .. ,. .. ~ I• i' "'"" .,. ~ .... """' ,.. I: I "' ,.. r .. ""' ·~ "'" .. .. ~ "'· "'"' l"'r,. ~r "'l"o ~ "'"' "r,. p I II ii II II I I ii 15 20 30 Minutes r ~ r~ ~ ~ r ~~ "r ~ .. r ~ .. r~ r~ "~r !I 40 50 Duration EQUATION I = 7.44 Ps o·0.645 I = Intensity (1n/hr) Ps = 6-Hour Precipitation (in) D = Duration (min) ' , ... .... ""r,.. I' i'o,,,"" " "'"' "'"' , .. " 1 .. .. ""r,.. "" r" ,.. "' ~ I• r,~ r r,.. 1,r,.. "'r,. "'"' ~"' ~ r,.. ~ " "'I" ~p " "" "' I'-. .. ' .... r • ~"" ..... .. I.., i"'r, ..... r r,.. l•p. ~ ' r,..r,.. r,.." .. ' I I I II I 2 3 4 Hours I I ' ~ I I I I I I I I p r I ~ , .. , .. I II UII 5 6 Cr' :I: 0 !:; -0 ~ 6.0 '§: 5.5 ~. 5.0 ~ 4.55 n 4.0 i 3.5 ~ 3.0 2.5 2.0 1.5 1 0 lntenalty-Duratlon Design Chart -Ttmplate D1rec1lons br ~plication: ( 1) From pre:;lpi1ition maps determine 6 hr and 24 hr amounts for the sdectd frequency. These maps are included ir. the County t-vdrcbgy Manual (10, 50, and 100 yr maps included in lhe Designand Procedure Manual}. (2) Adjust 6,r p'Bcipitation {if necessary) so that it 1s within the rangt of 6% to 65% of the 24 hr precipitation {not applicape toDesert). (3) Plot 6 hr~rec.pitation on the right side of the chart. (4) Draw a lhe trough the point parallel to the plotted lines. (5) This line s th intensity-duration curve for the location being aralyz!d. Application Fom: (a) Se!ectedfreqiency \ ()() year (b) P6 = 2 ~ in., p24 = ~ .:6 = .:> i %(2> 24 (c) AdjustedP6<~ = _1,~ in. (d) !,c.= ~ 'lin (e) I= 4, L Ir/hr. Note: This nartreplaces the Intensity-Duration-Frequency curve1 used since 1965. P6 1 1.!5 2 2.5 3 3.5 4 C.5 S 5.5 6 Duration I I I I I I I I I I I S 2.63, 3.9!5.27 6.59 7.90 9.22 1054 11.86 13.17 14.49 15 81 7 212-3.-04.24 5.30·6.36 7.42 8.48 . 9.~ 10.60 11.66·12.12 10 tM;,si3.31c.21 's.os s .90'674 1.ss 942 '9.21 ·10.11 ,s 130-f.9s2.s9· 3.24 ;3-99· .. g.· s. ,s s.64 · s cg · 1.13 · 178 :ii> T.oa1-fsf2Ts"' 2:S!f 3.2:f s n · c 31 · 4 es · s.39 • s.93 · s.cs 25 o.93.1.4e1.87· 2.33 ·280-3.27~ 3.73 · 4.:lo · c.s7 · s.13 · s.60 30 0.83:1.2~1.66.2.07~2.49'200: 3.32 : 3,3 4.15 : 4.56 4.98 40 069 1.031.38 1.72 207 241 2.76 3.10 3.45 3.79 4.13 SO 0.60: 0.9411.19. 1.49: 1 79 2.09. 2.39 2.69 2.98 3.28 3.58 60 0.53:0.8(1.06 133 1.59 1.86 2.12 2.39 2.65 2.92 318 90 0.41 ~ 0.6 0.82 1.02. 1 23. 1.43 1 63 1 114 2.04 2 25 2 45 120 0.3450.510.68 0.85.1.02 119: 1.36 . 1.53 . 1.70: 1.87 204 1S0 0.29 0.4J0.59 0 73 0 88 I 03 I 18 I 32 1.47 1 52 1 76 1110 6.:is;o.310.s2·0.65 ·o.1s·o.91' 1.04 · 1.1s · 1.31 · 1.44 1.s1 2 cfa2·0.330.c3·osc·oss·o.1s·oe1 011S ·1 os 119 130 3ClO 0.19J 0.210.38 0.47 .0.56,0.6(0.75 . D.85 0.94 1.03 1.13 0.1 7 ·_Q.2!0.~_0 42 050 0.58 0.67 0?5 0.84 0.92 100 FIG U R EXISTING 3-1 10 0 90 80 7.0 'i', ' ' '1. ) 1- >"'" 6 .0 5.0 4.0 3.0 2.0 D 1 ! g t =o ~ :,'!0 s .5 0. 0. 0. 0 0 0 0 0 ~I 8 7 6 5 " 3 2 1 1' ~ I 1' I . I I I . I I I ' I I j I ' I I . i . I I r-... "' "'- ' r-..."' ·, ... , .... ... . .... -.., ... I', r-.. .... , r-... "' I',. ' "' "" I' ... "' I',.,_ ·" .... " I" r,.. .. .. ... r,.. • ... .. ' .. .... ~ ' I .... ... " " " I',. .... • ... "" " .. "' "" I',. h.. " "" " I', •r-, I"' .. "" " ... I'. " ..... '"'. • •, " .... r,..i,,. ~ . "I' "', I"~ ~ I - 5 6 1 s 9 10 15 .. " .. "" I"~" ~ I"" •• ... .. ~ ~"' 20 30 Minutes I I ' ~ ,~"" t,~ " "' I .. " I"" I "' ~ "'~ • "" .. I 40 50 Duration EQUATION I = 7.44 Ps o·0.645 I = Intensity (1n/hr) P5 = 6-Hour Precipitation (in) D = Duration (min) ~I', "' r,..I""' I" I' .. r,.. i'r-,. , .. I' I• "'~ . " r..." I" "' . ~ ~ ~ " , .. " I• "' "" " ~ "r-i"r-~ ... " " " ""~ " I" ... , i" ... " r-,. ... ... " r-,.1' '"' " , .. l"'r,, I".., "" " I•,.. "" "'" 'I' " 11 111111111111 mm 111111 2 3 4 Hours ~ " " " " I" j 5 6 'r' :t 0 S; l e.o~ 5.5 ~ 5· 5.0 :, 4.5 -:, 4.0 i 3.5 ~ 3.0 2.5 2.0 1.5 1.0 Intensity-Duration Design Chart • Template Directions for Application: ( 1) From precipitation maps determine 6 hr and 24 hr amounts for the selected frequency. These maps are included in the County Hydrology Manual (10, 50, and 100 yr maps included in the Design and Procedure Manual). (2) Adjust 6 hr precipitation (if necessary) so that it is within the range of 45% to 65% of the 24 hr precipitation (not applicaple to Desert) . (3) Plot 6 hr precipitation on the right side of the chart. (4) Draw a line through the point parallel to the plotted lines. (5) This line is the intensity-duration curve for the location being analyzed . Appllcatlon Fonn: (a) Selected frequency \()(:) year (b) P6 = ~in., P24 = 4 ~ .~: S~ %(21 24 (c) Adjusted p6(2) = 2 ,l'.\ in. (d) lx,;:200. 0 min 18. 4 min (e) 1 = 0-. 68 in./hr. 3 .18 i n/Hr Note: This chart replaces the Intensity-Duration-Frequency curves used since 1965. P6 1 1 .5 2 2.5 3 3.S 4 4.5 5 5.5 6 Duration I I I I I I I I I I I ~ 2:63 _3.95(5,2,.7 G.59,7.90 9 .. ,o.54;11.se.13.17>1 4.49 ,1581 7 2.12 . 3.18, 4.24, 5.30, 6.36 .7-~2. 8.48. 9.54 . 10.60111.66. 12 72 ,o 1.611 2.53 3.37 4.21 5.05 5.9() 6.74 7.58 8.42 9.27 10 11 1s 1 ~ -, .9s· 2.59 ~3.24 • J .ss-: 4.S4 · 5 1s • 5.84 .. 6 49 · 1.13 · 1.1a 20 ~oa-,.62~fls2m·i23-:fn' 4 31 • ,.85 · 5.39 • 5.93 · s.46 25 o.~ : 1.40'. 1.a( 2 33) ao-:_ 3.[1 ; 3.73·: 4.20 ~ ,.s7 : 5.13 : 5.60 30 0.83 .._1.24 1.66. 2 .07. 2.49. 2.9(), 3.32 . 3.73 4.15 . 4.56 , 4.98 40 0.69 1.0311.38 1.72 2072.41 2.76 3.10 345 3.79 4.13 so o.60 • o.oo· 1.19 1 49 · 1.19 · 2.os 2.39 · 2.69 2.ae 3.28 · J.58 60 o.53 'o.eo· 1.06 1 33 · 1.59 1.ea • 2.12 · 2.39 · 2.65 · 2.92 · 3. 15 90 ~·", ; o.6,: o.82. 1 .o( 1.23: , .43. , 63 . 1.54 . 2.04 : 2 2s : 2.45 120 0.34 10.51 0.68 0 .85 1.02 1.19 1.36 1.53 1.70 1.87 2.04 150 0.29 . 0.4410.59 0 73. 0.88 1 03 ' 1.18 1.32 . 1 47 ' 1.62 . 1.76 1ao o.26 -0.39io.s2·055·0.1s-o.9;· 1.04 · 11a 1.31 · 1., .. · 1.s1 240 0.22 . 0.33· 0.43 0 54. 065. 0.)6. 0.87 0.98 . 1 08 1.19 . 1.3() 300 o:To 'o.29·0.38 o.,1·0.56·o.e6· o.75 o.ss o.94 1.00 ,.13 360 0.11 • 0.2s · o.33 o 42 • o.so· o.~ • o.67 · o 1s o 84 0.92 1.00 PROPOSED Ip '3.01R El TA.8LE2 RUNOFF COEFFICIENTS (RATIONAL METHOD) DEVELOPED AREAS (URBAN) Land Use Coefficienti C Soil Type 1) Residential: Q Single Family G) Multi-Units ® Mobile Homes .65 Rural (lots greater than l /2 acre) .45 Commercial (2) 8096 Impervious .85 Industrial (2) 9096 Impervious .95 NOTES: (1) Type D soil to be used for all areas. EXIST TNG PROPOSED (2) Where actual conditions deviate significantly from the tabulated imperviousness values of 8096 or 9096, the values given for coefficient C, may be revised by multiplylng 8096 or 9096 by the ratio of actual lmpervlousness to the tabulated impervlousness. Howe,•er1 1n no case shal l the final coefficient be less than 0 • .50. For example: Consider commercial property on D soil. Actual imperviousness = 5096 Tabulated imperviousness = 8096 50 Revised C = 80 x 0.85 0.53 82 Table 3-2 MAXIMUM OVERLAND FLOW LENGTH (LM) & INITIAL TIME OF CONCENTRATION (T1) Element* DU/ .RYo 1% 2% 3% RYo 10% Acre LM Ti 'LM Ti LM Ti LM Ti LM Ti LM Ti Natural 00 13.2 70 12.R 8R 10.9 100 10.3 100 8.7 100 6.9 LDo 1 ro 12.2 70 11.R 8,R 10.0 100 9.R 100 8.0 100 6.4 LDo 2 ro 11.3 70 10.R SR 9.2' 100 8,8 100 7.4 100 RS LDo 2.9 m 10.7 70 10.0 8R 8.8 9R 8.1 100 7.0 100 R6 MDo 4.3 00 10.2 70 9.6 80 8.1 9R 7.8 100 6.7 100 R3 MDo 7.3 m 9.2 6R 8.4 80 7.4 9R 7.0 100 6.0 100 4.8 MDo 10.9 00 8.7 6R 7.9 80 6.9 90 6.4 100 R7 100 4.R MDo 14.R m 8.2 6R 7.4 80 6.R 90 6.0 100 R4 100 4.3 HDo 24 ro 6.7 6R 6.1 7R lll 90 4.9 9R 4.3 100 3.R HDo 43 RO R3 6R 4;7 7R 4.0 8R 3.8 9R 3.4 100 2.7 N.Com 00 R3 60 4.R 7R 4.0 SR 3.8 9R 3.4 100 2.7 d.Com 00 4.7 60 4.1 7R 3.6 8R 3.4 90 2.9 100 2.4 1 .P./Com 00 4.2 60 3.7 70 3.1 80 2.9 90 2.6 100 2.2 Limited I. m 4.2 60 3.7 70 3.1 80 2.9 90 2.6 100 2.2 d eneral I. 00 3.7 60 3.2 70 2.7 80 2.6 90 2.3 100 1.9 *See Table 3-1 for more detailed description m E w :~ 1n ·c l,IJ ~ 8 « ~ !: 1001 •·• I H#YI § rl.J s z 0 20 S z. -l ~ .u. toi i -------------------------------------------------------------0 EXAMP1.E;. Given:Wa~~,o)• 7D~ $bpe{s);1.3~ RunoffCoeffident (C) = 0.41 °'8rtand Flow Ttme {T) = 9'.5 Minrrtn T • 1.8(1.1-C) Vii 'V;' SOURCE= Airport Drainage. Federal Avialion ~ 19'5 FIGURE Rational Formula • Overland Time of FloW Nomograph 3.3