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Home My WebLink AboutCT 81-19; MARY Y MONTANAS UNIT; DRAINAGE STUDY; 1989-05-26r---------~~-------------------------------------------___ _ ____________________ --... _~ __ •• -*<_ .~___ -____ • __ • _____ ~___ "'_. _. _____ • 9_-_. ___ ~ .. ~ ___ ~._ ... -~-=--:-.--':.!:.-~~.!; ...... ~~.-;:..--------.-.~ -------.-~ ... -_.--' • --------,"* .-_. _.-. l~~'~~~~~ '1"-· _______ --:~~.~:.----.. -~.---.. . :1 I I I I' I I I I I I I I I I I. I DRAINAGE STUDY FOR C. T 8/-/9 MAR POINTE CT 81-19 Prepared by: RICK ENGINEERING COMPANY 365 South Rancho Santa Fe Road, Suite 100 San Marcos, California 92069 May 26, 1989 ~ Job Number 10687 BarryC. Bend r R.C.E. 28448 RECE'VED JUN 7 '989 CITY OF CARLSBAD DEVELOP. PROC. SERVo ':lIV. ___ ~_~.~_~~T~_.~,~ __________ ~ __ ~~.~-~~~,~--_~.~~=-~~~-~.,~----'.~---~-~' ~~~ ____ ~-~-~-~-~.-~=--~. __________ ~_ 1'--:-----:-.. --:--··· -.-...... ------.-.--::::::----:~---::-... ---. ":.-:----'~'-'---------. ---.... '-----'---._--:-.---.------=------.. --.. ----.----.--.- I I I I I I I I I: I I' I I I I I I I. II. III. VI. V. TABLE OF CONTENTS section INTRODUCTION . . . . . . . . . . . . . _. . . . . . . '. DRAINAGE CRITERIA AND METHODOLOGY . . . . . . . . . . EXPLANATION OF THE RATIONAL METHOD COMPUTER PROGRAM RATIONAL METHOD COMPUTER OUTPUT . . . . . . . . . . . DRAINAGE STUDY MAPS . . . . . . . . . . . . . . . "-------------------":' I I I I I INTRODUCTION I I I I I I I I I ~ .~.---.-----~--.-~-.,.--.. -----------?"--'.-~-'-. -.... ~--:..---------.----.. ;._-..... -". .~-,---~,-----"'---~ ! -.~---" --•. -.... I 1-------· ----:---:-=.-. :----. -.~-~-' .---.-:". ~-.-.:~.: I I I I I I I I I I: I I I I -I INTRODUCTION Mar Pointe is a condominium project located in the city of Carlsbad on Lot 1 of Carlsbad Tract 81-19. The existing site consists of a gently sloping pad that was graded per Drawing No. 239-9A.· The drainage system is a private storm drain system t;hat ties into an existing storm drain at the intersection Of EI tamino R~~l and Chestnut Avenue. .-.-.....=--.~ ...... __ ~~ __ :;'_ '.'. --;.~ ......... _~ .. :.-..... ~_ ~;:.:~'$"e~ ..... c;. -"" -...;;"'";;. -:=--,"': t~~~;~~;~-~~~2;:o-.~:.cc:~~.··-~~~~"';-i~~';_~~e~~~-'C·.~~.,,:;,:'-~fi~ I I I I I I I I I I I I I I I I I DRAINAGE CRITERIA AND METHODOLOGY -i 1-- I I I I I I I I I I I I I I I I I ·_----------.. -------------------_. --------------------.----------.-.----.;:-;:: --=-....--::. :";'":;.;......:~-;;-':""~ ~:;::;:----~ -'--------~--- ,--~.--- __ --~~~~~-'~2~3:.=..:_-~~~~:.;-:::-"~';;~:,~_._.:->:-.:S·_=::....:.~~-=~~~?-; -;..-:-.:;:~ ~=. ~ "." - DRAINAGE CRITERIA AND METHODOLOGY Design storm: Land Use: Soil Type: Runoff Coefficients: Rainfall Intensity: lOO-year storm Condominiums Soil type based on the IISCS Soil Survey for San Diego County. II Hydrologic Soil Group IIDII was used for this analysis. IICII val~e based on thellSan Diego Flood Control Manual. II Based on criteria presented in the IISan . . Diego Flood Control Manual. II 1'- 1 I I 1 1 1 1 1 I I 1 I I 1 I I I _. ~ -~ . ~ -~--"-~-:-.. -------.;.-:~ , EXPLANATION OF THE RATIONAL METHOD COMPUTER PROGRAM -----,,:;:;-;::;.-';.,:.----_ .. ---.. -.:...----........:..--'---.---:..-----------------~--..;:,. I I I I I I EXPLANATION OF THE RATIONAL METHOD PROGRAM AND CODES The rational method program is a computer aided design program where the user develops a node link model of the watershed. The node link model is created by developing independent node link models of each interior watershed and linking these sub-moctels together at confluence points. The program has the capability of performing calculations for eight hydrologic and hydraulic processes. These processes a~e assigned code numbers which appear in the printed output. The code numbers and their meanings are as follows: CODE 1: Confluence analysis at a node CODE 2: Initial subarea analysis I CODE 3: Pipe flow travel time (computer estimated pipe size) I I CODE 4: Pipe flow travel time (user specif~ed pipe size) CODE 5: Trapezoidal channel travel time CODE 6: Street flow analysis through suba+ea CODE 7: User specified information at a node I CODE 8: Addition of subarea runoff to main line I I I I I I I • -_~.-_::..>.:.-:~ ... ,;..;:.,;)..-tr • ..............: .-~",. __ ,. ~~""'-';''':i!''"V~",,,,,,,._-_.~ .... ~-___ . ___ -._.."...·~ __ ~~~~~~ ... ~-l ---~~~_","-__ ,-__ ... __ "'~. _ I I I I I I I I I I I I I I I I I I .----~------ RATIONAL METHOD COMPUTER OUTPUT . . _ -----~ ____ .. ----_.r-'---- I I I I I I I I I I I I I I I I I I ---"--~----.-".-----.. • _ ...... _ ........ ' ........ ".' -....... ..,.~,'< -......"..".~-= ?..$_';"-J--'~.':'-__ -_::_~._ ... ;;:--.. ____ .~. _ .• ~~-_ ... __ ..... ""'_ ... ...:0_ .:_~~ • ...;. ~_ _ ,,----~ ...... "-.- RA-H-eN-AL-ME-"ffteH-+lY-BRB-!::B6¥--&OMP l:JTER P R8BR-AM-Pfret<-ftGF+-[------'c....------ . Reference": SAN TIIEGO--COUNTYFLODD ·CONTRDL-UTSTRICT 1985,1981 HYDROLOGY MANUAL (c) Copyright 1982-88 Advanced Engineering Software (aes) Ver. 4.1A Release Date: 1/09/89 Serial # 3020 Analysis prepared by: Rick Engineering COMpany Water Resources Division 5620 Friars Road, San Diego, CA 92110 (619) 291-0707 ************************** DESCRIPTION OF STUDY **********************"lHf-**- * MAR POINTE DRAINAGE, LOT 1, C.T. 81 -19 * * MAY 19, 1989 t * IN 10687 MARPT * ************************************************************************** FILE NAME: MARPT.DAT T)ME/DATE OF STUDY: 0: 8 3/;~ USER SPECIFIED HYDROLOGY AND ~YDRAUCIC MODEL INFORMATION: -----~-------------------------------------------------------~---~-------~-~ 1985 SAN DIEGO MANUAL CRITERIA USER SPECIFIED STORM EVENT(YEAR} = 100.00 6-HOUR DURATION PRECIPITATION (INCHES) = Z.500 SPECIFIED MINIMUM PIPE SIZE(INCH) = 6,00 SPECIFIED PERCENT OF GRADIENTS(DECIMAL} TO USE FOR FRICTION SLOPE -.95 SAN DIEGO HYDROLOGY MANUAL "CO-VALUES USED * * * * "* "* * * * * * * * * * * * * * * * * * * * * * * * * J* * * * * * * * * * * * *-* * * * 1* * * * * * * * * * * * * * * * * * * * * * * * * * FLOW PROCESS FROM NODE 103.00 TO NODE 200.00 IS COPE = 2 ~------------------------------------------------------~----------------~~-- »»)RATIONAL METHOD INITIAL SUBAREA ANALYSIS««< ==========================================================================~= SOIL CLASs1FICATION IS "0" • MULTI-UNITS DEVELOPMENT RUNOFF CO~FFICIENT = .7000 INITIAL SUBAREA FLOW-LENGTH(FEET} 30.00 UPSTREAM ELEVATION = 308.10 DOWNSTREAM ELEVATION = 307.80 ELEVATION DIFFERENCE = .30 URBAN SUBAREA OVERLAND TIME OF FLOW(MINUTES) 3.918 TIME OF CONCENTRATION ASSUMED AS 5-MINUTES 100 YEAR RAINFALL INTENSITY(INCH/HOUR) = 6.587 SUBAREA RUNOFF(CFS) = .23 TOTAL AREA(ACRES) = .05 TOTAL RUNOFF(CFS) .23 **************************************************************************** --. FLOW PROCESS FROM NODE 200.00 TO NODE 201.00 IS CODE = 8 -----------------~-----------------------------------------~-------~-~------ r--------------------------------------,-.,:~ --..:..;....:;..~--,~~.----.--- --:I~~~~~~~~~~~1~~~~~r_$;~~~~~~~-~;~~~~~;~ .. ~~~~~~~;~~~~~~;;~~~~~;-:~~~_:~~;2--. ----,----------. --,-,.--! .. 0:0--Y-6AR-RAINFAb..h--.IN.T-ENSI+4'~.J-NCH/..W)UR->-.-=--S-. ..58.:(--------,...--~ -~--."::::-:~-:.-----., .~_ _ _-- --'------G-iSOft etA5SIFICAH--etr-t-~JJ -------~ -'~---------~---I 1---t1UlT1 -UN 1IS "b~VElbPM-E-NT-RUNOFF C"OEFFTC'I ENT .7000 "- SUBAREA AREA(ACRES) .16 SUBAREA RUNOFFCCFS) .74 TOTAL AREACACRES) .21 TOTAL RUNOFF(CFS) = I TC(MIN) = 5.00 I I I I '1 I- I I I I I I I I I I ***********************************************.**************************** FLOW PROCESS FROM NODE 200.00 TO NODE 201.00 IS CODE = 3 »»>COMPUTE PIPEFLOW TRAVELTIME THRU SUBAREA««< »»>USING COMPUTER-ESTIMATED PIPESIZE (NON-PRESSURE FLOW)««< ============================================================================ DEPTH OF FLOW IN 9.0 INCH PIPE IS 4.0 INCHES PIPEFLOW VELOCITY(FEET/SEC.) = 5.1 UPSTREAM NODE ELEVATION = 304.40 DOWNSTREAM NODE ELEVATION = 299.80 FLbWLENGTH(FEET) = 290.00 MANNINGS N .011 ESTIMATED PIPE DIAMETER(INCH} 9.00 NUMBER OF PIPES PIPEFLOW THRU SUBAREA(CFS) .97 TRAVEL TIMECMIN.) = .94 TC(MIN.) 5.94 1 **************************************************************************** FLOW PROCESS FROM NODE 201.00 TO NODE 201.00 IS CODE = 1 »»>DESIGNATE INDEPENDENT STREAM FOR CONFLUENCE««< ========================================~==============================~==== CONFLUENGE VALUES USED FOR INDEPENDENT STREAM 1 ARE~ TIME OF CONCENTRATION(MINUTES) = 5.94 RAINFALL INTENSITY (INCH ./HOUR) = 5.89 TOTAL STREAM AREA (ACRES) = .21 TOTAL STREAM RUNOFF(CFS) AT CONFLUENCE = .97 **************~************************************************************* FLOW PROCESS FROM NODE 104.00 TO NODE 201.00 IS CODE = 2 »»>RATIONAL METHOD INITIAL SUBAREA ANALYSIS««< ============================================================================ SOIL CLASSIFICATION IS "0" MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .,000 INITIAL SUBAREA FLOW-LENGTH(FEET) 150.00 UPSTREAM ELEVATION = 311.00 DOWNSTREA~ ELEVATION = 308.70 ELEVATION DIFFERENCE = . 2.30 URBAN SUBAREA OVERLAND TIME OF FLOW(MINUTES) 8.083 100 YEAR RAINFALL INTENSITY(INCH/HOUR) = 4.832 SUBAREA RUNOFF(CFS) .44 TOTAL AREACACRES) = .13 TOTAL RUNOFFCCFS) .44 **************************.*****************~***.******.******************** FLOW PROCESS FROM NODE 201. 00 TO NODE 201.00 IS CODE = 1 -----------------------------------------~--------------------~------------- »»>DESIGNATE INDEPENDENT STREAM FOR CONFLUENCE««< »»>AND COMPUTE VARIOUS CONFLUENCED STREAM VALUES««( J .' ",!=F~~-.~-------~---, -. --:-,---,~.;;;,.--:,...-;;-.. ---.--"-,~ -----~ .--~:-.... -;;:~-----. ___ __ ___ .~._v ... ~ ~_.~ _ _ ~I~ :~:-.~~~;~~i~~riifui~6~~d:~~~iD;~~~~~i~b~~~;;~~~~~;;~;;~=-::;_;~i-;;~~~;;.~;;~;~~~~-;.~~;::.~,.:-:,· :"~.' I ... ~>·-,·~··_-__ -TTM&:" OF"·CONCENT-RA·r.J·ON~ MINUTES.)";;·-· . -.. 8.~.0B. '.' . .... _ .. "---.' . -:._ . -.... . .' . -. I ------AA-tNP(\LL INf-EN-S1..::r-¥4-fNBR7!+lBt:JR-1:....;~·t!8~3------· --.--'----......,.....::.----~----I: ~g~!--~-~-:.~~~ .. ~~~~~~~~~~-~ \'~ -CONFL~~NCE = 1 I 1 1 1 1 1 1 I I I I I I I I I .44 CONFLUENCE INFORMATION: STREAM RUNOFF TIME INTENSITY NUMBER (CFS ) (MIN.) <INCH/HOUR) -----------------~-----~--------------------------------------~------------- 1 2 .97 .44 5.94 8.08 5.894 4.832 RAINFALL-INTENSITY-RATIO CONFLUENCE FORMULA USED FOR 2 STREAMS VARIOUS CONFLUENCED RUNOFF VALUES ARE AS FOLLOWS: 1. 33 1. 23 COMPUTED OONFLUENCE ESTIMATES ARE AS FOLLOWS: RUNOFF(CFS) = 1.33 TIME(MINUTES) 5.941 TOTAL AREA(ACRES) .34 **************************************************************************** FLOW PROCESS FROM NODE 201.00 TO NODE 202.00 IS CODE = 8 -------~----------~--------------------------------------------~---------~-- »»>ADDITION OF SUBAREA TO MAINLINE PEAK FLOW««< ====================================================~============?=====~==== 100 YEAR RAINFALL INTENSITY(INCH/HOUR) = 5.894 SOIL CLASSIFICATION IS "D" MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7000 SUBAREA AREA(ACRES) .19 SUBAREA RUNOFF(CFS) = .78 TOTAL AREA(ACRES) .53 TOTAL RUNQFF(CFS) 2.11 TC(MIN) = 5.94 **************************************************************************** FLOW PROCESS FROM NODE 201.00 TO NODE 202.00 IS CODE;; 3 ---------------------------------------------------------------------------- »»>COMPUTE PIPEFLOW TRAVELTIME THRU SUBAREA««< »»>USING COMPUTER-ESTIMATED PIPESIZE (NON~PRESSUREFlOW)««< =;======================================================~===============-===== DEPTH OF FLOW IN 9.0 INCH PIPE IS 5.5 INCHES PIPEFLOW VELOCITY(FEET/SEC. ) = 7.5 UPSTREAM NOD~ EL~VATION = 299.80 DOWNSTREAM NODE ELEVATION = 295.50 .. FLOWLENGTH(FEET) = 165.00 MANNINGS N = . 011 ESTIMATED PIPE DIAMETER(INCH) = 9.00 NUMBER OF PIPES 1 PIPEFLOW THRU SUBAREA(CFS) 2.11 TRAVEL TIME(MIN. ) = .37 TC( MIN. ) 6.31 **************************************************************************** FLOW PROCESS FROM NODE 202.00 TO NODE 203.00 IS CODE = 8 ----------------------------------------------------~--------~-------------- »»>ADDITION OF SUBAREA TO MAINLINE PEAK FLOW««< ==========================================================================~= 100 YEAR RAINFALL INTENSITY(INCHfHOUR) = 5.670 SOIL CLASSIFICATION IS "D" MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7000 SUBAREA AREA(ACRES) = .26 SUBAREA RUNOPF(CFS)·-1.03 ~---------~~~----~.--.-. __ • * .-,---'-. ,--"."-~--~-----_:c::w:::,.. ---.":'~-:':'~ ~ ~-o---~ " -~ ..... -"" ..... , . I-------.- 1 I I I I I I I I I I I I I I I I ---" .. --. ---------." ... --.::-.:------=::..:..-~--~--~.:--..:.......----=..:..::....~ FLOW PROCESS FROM NODE 202.00 TO NODE 203.00 IS CODE = »»>COMPUTE PIPEFLOW TRAVELTIME THRU SUBAREA««< »»>USING COMPUTER-ESTIMATED PIPESIZE (NON-PRESSURE FLOW)««< =======~============================~======~=~============================== DEPTH OF FLOW IN 9.0 INCH PIPE IS 7.3 INCHES PIPEFLOW VELOCITY(FEET/SEC.) = 8.2 UPSTREAM NODE ELEVATION = 295.50 DOWNSTREAM NODE ELEVATION = 288.60 FLOWLENGTH(FEET) = 250.00 MANNINGS N .011 ESTIMATED PIPE DIAMETER(INCH) 9.00 NUMBER OF PIPES PIPEFLOW THRU SUBAREA(CFS) 3.14 TRAVEL TH1E( MIN. ) = .51 TC( MIN. ) 6 ... 82 1 **************.**********~**********************.*************.**-********** FLOW PROCESS FROM NODE 203.00 TO NODE 205.00 IS CODE = 8 -------------------------------------------------------------------~-------~ »»>ADDITION OF SUBAREA TO MAINLINE PEAK FLOW««< ================================================================~====?====== 100 YEAR RAINFALL INTENSITY(INCH/HOUR) = 5.393 SOIL CLASSIFICATION IS ~D" MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7000 SUBAREA AREA(ACRES) .25 SUBAREA RUNOFF(CFS) .94 TOTAL AREA(ACRES) 1.04 TOTAL RUNOFF(CFS) = 4.09 TC(MIN) 6.82 * ** * * *** ******* * *-*** **** ** * ****** *** *** ************-*** ** * * * * ** **** * ** ******* FLOW PROCESS FROM NODE 203.00 TO NODE 205.00 IS CODE = 3 »»>COMPUTE PIPEFLOW TRAVELTIME THRU SUBAREA««< »»>USING COMPUTER-ESTIMATED PIPESIZE (NON-PRESSURE FLOW)««< ============================================================================ DEPtH OF FLOW IN 12.0 INCH PIPE IS 7.2 INCHES PIPEFLOW VELOC1TY(FEET/SEC. ) = .8.4 UPSTREAM NODE ELEVATION = 288.60 DOWNSTREAM NODE ELEVATION = 284.80 FLOWLENGTH(FEET) = 170.00 MANNINGS N = .011 ESTIMATED PIPE DIAMETER(INCH) 12.00 NUMBER OF PIPES 1 PIPEFLOW THRU SUBAREA(CFS> = 4.09 TRAVEL TIME( MIN.) = .34 TC( MIN. ) 7 . .16 **************************************************************************** FLOW PROCESS FROM NODE 110.00 TO NODE 111.00 IS CODE = 2 --------~----------------------------------~----------------------------~--- »»>RATIONAL METHOD INITIAL SUBAREA ANALYSIS««< ============='==================================~============================ SOIL CLASSIFICATION IS "0" MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7000 INITIAL SUBAREA FLOW-LENGTH(FEET) 50.00 UPSTREAM ELEVATION = 308.00 DOWNSTREAM ELEVATION = 307.50 ELEVATION DIFFERENCE .50 4 '""==......-,... ,,_.'-----'.,' -.. ' . ---~~~!~5*~1~~;~~;r~~~~~=,,~~~~~§~~~~''C:' I"" '~.-"'--,., __ JOIAL_ fJIlEa,Ltl-CRES). = --"-,_ ... 05. -'--;-'tOJt\L: I3UNOfFU~E~,L-::=~. __ , -' -,.--' ?it_ .. -~ .. ,~-.~ .. , " , .'.' . . . 1 1 1 1 I I, I 1 1 I I I I I I I I ****** ••• * ••• ******.***** •• * •••• *.***.** •• * •• **.*******************.*******. FLOW PROCESS FROM NODE 111 .00 TO NOPE 112.00 IS CODE = 9 »»>COMPUTE "V" GUTTER FLOW TRAVELTIME THRU SUBAREA««< =============================================~~============================= UPSTREAM NODE ELEVATION = 307.50 DOWNSTREAM NODE ELEVATION = 296.00 CHANNEL LENGTH THRU SUBAREA1FEET) = 270.00 "V" GUTTER WIDTH(FEET) = 3.00 GUTTER HIKE(FEET) .170 PAVEMENT LIP(FEET) = .013 MANNINGS N = .0150 PAVEMENT CROSSFALL(DECIMAL NOTATION) .02000 MAXIMUM DEPTH(FEET) = .80 NOTE:TAAVELTIME ESTIMATES BASED ON NORMAL DEPTH EQUAL TO [GUTTER-HIKE + PAVEMENT LIP] NOTE:TRAVELTIME ESTIMATES BASED ON NORMAL DEPTH EQUAL TO [GUTTER-HIKE + PAVEMENT LIP] 100 YEAR RAINFALL INTENSITV(INCH/HOUR) -5.771 SOIL CLASSIFICATION IS "0" MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7000 TRAVELTIME THRU SUBAREA BASED ON VELOCITY(FEET/SEC) AVERAGE FLOWDEPTH(FEET) = .18 FLOODWIDTH1FEET) = "V" GUTTER FLOW TRAV~L TIME(MIN) = 1.04 TC(MIN) = SUBAREA AREA(ACRES) = .45 SUBAREA RUNOFF(CFS) SUMMED AREA(ACRES) = .50 TOTAL RWNOFF(CFS) END OF SUBAREA "V" GUTTER HYDRAULICS: DEPTH(FEET) = .21 FLOODWIDTH(FEET) = 3.00 FLOW VELOCITY(FEET/SEC.) = 4.84 DEPTH*VELOCITY = 4 7? .;; ... 3.00 6.14 1.82 2.05 1.03 *****.**********************~***************************** ••• ** •• ** ••• ** •••• FLOW PROCESS FROM NODE 112.00 TO NODE 112.00 IS CODE =. 1 ---------------------------------------------------------------~~----------- »»>DESIGNATE INDEPENDENT STREAM FOR CONFLUENCE««< ============================================================================ CONFLUENCE VALUES USED FOR INDEPENDENT STREAM 1 ARE: TIME OF CONCENTRATION(MINUTES) = 6.14 RAINFALL INTENSITY (INCH./HOUR) = 5.77 TOTAL STREAM AREA (ACRES) = .50 TOTAL STREAM RUNO~F(CFS) AT CONFLUENCE = 2.05 •• *.**.*****.********** •• **** •• ***.*.***** •• ****** ••• *.*****.* •• **.*** •• **** FLOW PROCESS FROM NODE 120.00 TO NODE 121.00 IS CODE = 2 ------------------------------------------------------------------------~--- »»>RATIONAL METHOD INITIAL SUBAREA ANALYSIS««< =~========~=======================================================~~===9=~== SOIL CLASSIFICATION IS "0" MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7000 INITIAL SUBAREA FLOW-LENGTH(FEET) 30.00 UPSTREAM ELEVATION = 304.00 DOWNSTREAM ELEVATION 303.30 ELEVATION DIFFERENCE .70 I I I I I I I I I I I I I I I I **************************************************************************** FLOW PROCESS FROM NODE 121.00 TO NODE 112.00 IS CODE = 9 --~---------------------------------------------~-------------~---------~---- »»>COMPUTE "V" GUTTER FLOW TRAVELTIME THRU SUBAREA««< ======================================c===========================~========~ UPSTREAM NODE ELEVATION = 303.30 DOWNSTREAM NODE ELEVATION = 296.00 CHANNEL LENGTH THRU SUBAREA(FEET) = 600.00 "V" GUTTER WIDTH(FEET) =. 3.00 GUTTER HIKE(FEET) PAVEMENT LIP(FEET) = .013 MANNINGS N = .0150 PAVEMENT CROSSFALLCDECIMAL NOTATION) = .02000 MAXIMUM DEPTH(FEET) = .80 100 YEAR RAINFALL INTENSITYCINCH/HOUR) 4.631 SOIL CLASSIFICATION IS "0" MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7000 TRAVELTIME THRU SUBAREA BASED ON VELOCITY(FEET/SEC) AVERAGE FLOWDEPTH(FEET) = .27 FLOODWIDTH(FEET) "V· GUTTER FLOW TRAVEL TIME(MIN) 3.63 TC(MIN) SUBAREA AREA(ACRES) ~ 1.41 SUBAREA RUNOFF(CFS) SUMMED AREA(ACRES) = 1.46 TOTAL RUNOFF(CFS) END OF SUBAREA ·V· GUTTER HYBRAULICS: DEPTH(FEET) = .33 FLOODWIDTH(FEET) = 17.46 FLOW VELOCITY(FEET/SEC.) = 2.71 DEPTH*VELOCITY .170 2.75 11. 68 8.63 4.57 4.80 .89 **************************************************************************** FLOW PROCESS FROM NODE 112.00 TO NODE 112.00 IS CODE = 1 ---------~---~----~------~----------------------~------------------~-------- »»>DESIGNATE INDEPENDENT STREAM FOR CONFLUENCE««< »»>AND COMPUTE VARIOUS CONFLUENCED STREAM VALUES««< ===========================================================~=~============== CONFLUENCE VALUES USED FOR INDEPENDENT STREAM 2 ARE: TIME OF CONCENTRATION(MINUTES) = 8.63 RAINFALL INTENSITY (INCH./HOUR) = 4.63 TOTAL STREAM AREA (ACRES) = 1.46 TOTAL STREAM RUNOFF(CFS) AT CONFLUENCE = 4.80 CONFLUENCE INFORMATION: STREAM RUNOFF TIME INTENSITY NUMBER (CF$ ) (MIN.) (INCH/HOUR) -----~-----------~--~-------~-------------------------------------~--------- 1 2 2.05 4.80 6.14 8.63 5.771 4.631 RAINFALL-INTENSITY-RATIO CONFLUENCE FORMULA USED FOR 2 STREAMS VARIOUS CONFLUENCED RUNOFF VALUES ARE AS FOLLOWS: 5.90 6.44 COMPUTED CONFLUENCE ESTIMATES ARE AS FOLLOWS: RUNOFF(CFS) = 6.44 TIME(MINUTES) 8.634 TOTAL AREA(ACRES) = 1.96 **************************************************************************** '1'-'-"~-'--=--f~?:~PE~~~~:~OJ1~N~g~':: :-:} I\:~"0' :~,~~~~UE~~~;!5i~~2~~~Q~;_~1,.:;~~;~~~;:~~~_~=,~~:~~::f.'~~:::- -',-'-~"-"""" "'7Y77>tOMPl:l'TE-'PTPEFt'OW TR11'VEt'TTME -l'HRU-SUB-AREA'< < ('<-< -_ .. -_. -,_c. --"'~-'--..• ~ . -" -~"-- ----;.---'j~) .>'f?iJsTI\IG--cCfffptrrETFEsnifr:rrED~TPFSTrE-TNDW-:-PRE'S-SUR-rFCOWK< <-:( <-I ,' -~---, .. --~~ -'''--~" .. ..:.;-. """,,-,~',---~.-"'. -',,-, ", --. -.. .-.. _--------,-' -, -.. ,'~ --.. ==================~=================~==~===============================~==== DEPTH OF FLOW IN 12.0 INCH PIPE IS 7.2 INCHES PIPEFLOW VELOCITY(FEET/SEC. ) = 13.2 I UPSTREAM NODE ELEVATION = 291.40 DOWNSTREAM NODE ELEVATION = 285.60 FLOWLENGTH(FEET) = 75.00 MANNINGS N .013 I ESTIMATED PIPE DIAMETER(INCH) 12.00 PIPEFLOW THRU SUBAREA(CFS) 6.44 NUMBER OF PIPES 1 I I I I I I I I I I I I I I I TRAVEL TIME( MIN. ) = .09 TC( MIN.) -8.73 **************************************************************************** FLOW PROCESS FROM NODE 204.00 TO NODE 204.00 IS CODE = 1 -----------------------------~-------------~-------~------------------------ »»>DESIGNATE INDEPENDENT STREAM FOR CONFLUENCE««< ============================================================================ CONFLUENCE VALUES USED FOR INDEPENDENT STREAM 1 ARE: TIME OF CONCENTRATION(MINUTES) = 8.73 RAINFALL INTENSITY (INCH./HOUR) = 4.60 TOTAL STREAM AREA (ACRES) = 1.96 TOTAL STREAM RUNOFF(CFS) AT CONFLUENCE = 6.44 ********************~******************************************************* FLOW PROCESS FROM NODE 100.00 TO NODE 101.00 IS CODE = 2 -----------------------~-------------------------~-------------------------- »»>RATIONAL METHOD INITIAL SUBAREA ANALYSIS««< =======================================~==================================== SOIL CLASSIFICATION IS "0" MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7000 INITIAL SUBAREA FLOW-LENGTH(FEET) 40.00 UPSTREAM ELEVATION = 295.30 DOWNSTREAM ELEVATION = 294.90 ELEVATION DIFFERENCE = .40 URBAN SUBAREA OVERLAND TIME OF FLOW(MINUTES) 4.543 TIME OF CONCENTRATION ASSUMED AS 5-MINUTES 100 YEAR RAINFALL INTENSITY(INtH/HOUR) = 6.587 SUBAREA RUNOFF(CFS) .23 TOTAL AREA(ACRES) = .05 TOTAL RUNOFF(CFS) .23 **************************************************************************** FLOW PROCESS FROM NODE 101.00 TO NODE 204.00 IS CODE = 8 ------------------------------------~----------------------------~---------- »»>ADDITION OF SUBAREA TO MAINLINE PEAK FLOW««< ============================================~=============================== 100 YEAR RAINFALL INTENSIfY(INCH/HOUR) = 6.587 SOIL CLASSIFICATION IS "0" MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7000 SUBAREA AREA(ACRES) = .13 SUBAREA RUNOFF(CFS) TOTAL AREA(ACRES) .18 TOTAL RUNOFF(CFS) = TC(MIN) = 5.00 .60 .83 ******.***********************************.********************************* FLOW PROCESS FROM NODE 101.00 TO NODE 204.00 IS CODE = 3 7 -->-----~---........ ~~-~-:-. -... .;.~~~~ :=:--::..~-~::-=-::;-.z 1;-~~-~~:~~~f1Ror;;~F~QJL1;'~~~ui~~~,~_~B'V~;~~A;~~~~~~~:-~=~-~;-~-~_-~~~~~~~,=~?--~:~--~::~~:~-,,~~~~-~~~~! ,~~_._ .. _., ___ }X0_>.u.sl.NG_ -CDt1PUIER:--!;ST Uj8IED. .. P IPE.S1 ZE( N.o]\J;:-PRESSURE .FL.obJ) s: <-f-..i .. L,~.,.-_-___ ... _ _. : ----..... ---~-.;.,..-:---------- -, ---.-.--.=;.:::::;,;:::::;.~~~~;;:;;,,;:;.,:::.=::::...=.;::..:;:;;;~.=,;;:;...:::;;:;;::~~:::..;:;:::::;.=-==. -....... -..:..-... ------~ -.• ~-~-. ~I I ~i~~·~~~~~' ~~~~;~~~('~-~E~;~~g~/~PE--~~;-c4 ;-S 'INCHES ,-----~ '--,' --, . UPSTREAM N.oDE ELEVATI.oN =, 287.60 I D.oWNSTREAM N.oDE ELEVATION = 285.60 FL.oWLENGTH(FEET) = 100.00 MANNINGS N .011 NUMBER .oF PIP!:S I I I I I I I I I I I I I I I I ESTIMATED PIPE DIAMETER(INCH) 6.00 1 PIPEFL.oW THRU SUBAREA(CFS) .83 TRAVEL TIME( MIN.) = .32 TC( MIN. ) 5.32 *************************************.*****************.******************** FL.oW PR.oCESS FR.oM N.oDE 204.00 T.o N.oDE 204.00 IS C.oPE = 1 -----------------------------------------------~----~-----~----------------- »»>DESIGNATE INDEPENDENT STREAM F.oR C.oNFLUENCE««< »»>AND C.oMPUTE VARI.oUS CONFLUENCED STREAM VALUES««< ===============~============================================================ C.oNFLUENCE VALUES USED FOR INDEPENDENT STREAM 2 ARE: TIME OF CONCENTRATION(MINUTES) = 5.32 RAINFALL INTENSITY (INCH./H.oUR) = 6.33 T.oTAL STREAM AREA (ACRES) = .18 T.oTAL STREAM RUN.oFF(CFS) AT C.oNFLUENCE = .83 C.oNFLUENCE INFORMATION: STREAM RUN.oFF TIME INTENSITY NUMBER (CFS) (MIN.) (INCH/H.oUR) 1 2 6 . .44 .83 8.73 5.32 4.598 6.332 RAINFALL-INTENSITY-RATIO CONFLUENCE FORMULA USED F.oR 2 VARIOUS CONFLUENCED RUN.oFF VALUES ARE AS FOLLOWS: 7.05 5.51 COMPUTED C.oNFLUENCE ESTIMATES ARE AS F.oLL.oWS: RUNOFF(CFS) = 7.05 TIME(MINUTES) = 8.729 TOTAL AREA{ACRES) = 2.14 STREAMS **************************************.************.*****.*****************. FL.oW PR.oCESS FR.oM N.oDE 204.00 TON.oDE 205.00 IS CODE = 3 ----------------------------------------------------~---~------------------- »»>C.oMPUTE prPEFLOW TRAVELTIME THRU SUBAREA««< »»>USING C.oMPUTER-ESTIMATED PIPESIZE (NON-PRESSURE FLOW>««< ===========~================================================================ DEPTH .oF FL.oW IN 15.0 INCH PIPE IS 10.1 INCHES. PIPEFL.oW VEL.oCITY(FEET/SEC. ) = 8.0 UPSTREAM N.oDE ELEVATION = 285.60 D.oWNSTREAM N.oDE ELEVATI.oN = 284.80 FL.oWLENGTH(FEET) = 40.00 MANNINGS N .013 ESTIMATED PIPE DIAMETER(INCH) 15.00 NUMBER OF PIPES 1 PIPEFL.oW THRU SUBAREA(CFS) 7.05 TRAVEL TIME( MIN.) = .08 TC( MIN.) = 8.81 *******************************-*********.************************.*******.* FL.oW PROCESS FR.oM N.oDE 205.00 T.o NODE 205.0~ IS CODE = 1 -----------------~-----~----------------------------------------~----------- . ~.: -.-~ ............ , --'''~ ... -.~--.--.,.-~ ----"':'-.. _' , -------·~···-:·~·ttfNJ=LUl::NCS-:'~V:ALUES -U'SEDFOR r NDEPENDENT STREAM -r "ARE"":'" .. --.. -" .. --•. ---' I I I I I I I I I I I I I I I I I I ~} IME __ Of _", CONCENIRA T I.O,N (M1NuTES)' = _ 8. 81 ~-. -.~~--------. ---------..... * RAINFALL INTENSITY (INCH./HOUR) = 4.57 TOTAL STREAM ARE~ (ACRES) = 2.14 TOTAL STREAM RUNOFF(CFS) AT CONFLUENCE = 7.05 *************************************.*************************************~ FLOW PROCESS FROM NODE 203.00 TO NODE 205.00 IS CODE = 7 -----------------------------------------------------------------~---------- »»>USER SPECIFIED HYDROLOGY INFORMATION AT NODE««< . ============================================================================ USER-SPECIFIED VALUES ARE AS FOLLOWS: TC(MIN) = 7.16 RAIN INTENSITY(INCHJHOUR) = 5.23 TOTAL AREA(ACRES) = 1.04 TOTAL RUNOFF(CFS) = 4.09 **************************************************************************** FLOW PROCESS FROM NODE 205.00 TO NODE 205.00 IS CODE = 1 »»>DESIGNATE INDEPENDENT STREAM FOR CONFLUENCE««< »»>AND COMPUTE VARIOUS CONFLUENCED STREAM VALUES««< ============================================================================ CONFLUENCE VALUES USED FOR INDEPENDENT STREAM 2 ARE: TIME OF CONCENTRATION(MINUTES) = 7.16 RAINFALL INTENSITY (INCH./HOUR) = 5.23 TOTAL STREAM AREA (ACRES) = 1.04 TOTAL STREAM RUNOFF(CFS) AT CONFLUENCE = 4.09' CONFLUENCE INFORMATION: STREAM RUNOFF TIME INTENSITY NUMBER (CFS ) (MIN.) (INCH/HOUR) -----------------------------------------~---~--------------------~--------- 1 2 7.05 4.09 8.81 7.16 4.570 5.225 RAINFALL-INTENSITY-RATIO CONFLUENCE FORMULA USED FOR 2 STREAMS VARIOUS CONFLUENCED RUNOFF VALUES ARE AS FOLLOWS: 10.62 10.25 COMPUTED CONFLUENCE ESTIMATES ARE AS FOLLOWS: RUNOFF{CFS) = 10.62 TIME(MINUTES) = 8.811 TOTAL AREA{ACRES) = 3.18 **************************************************************************** FLOW PROCESS FROM NODE 150.00 TO NODE 250.00 IS CODE = 2 »»>RATIONAL METHOD INITIAL SUBAREA ANALYSIS««< ===================================================~======================== SOIL CLASSIFICATION IS "0" MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7000 INITIAL SUBAREA FLOW-LENGTH{FEET) 30.00 UPSTREAM ELEVATION = 301.00 DOWNSTREAM ELEVATION = 300.70 ELEVATION DIFFERENCE = .30 URBAN SUBAREA DVERLAND TIME OF FLOW(MINUTES) 3.918 TIME OF CONCENTRATION ASSUMED AS 5-MINUTES 100 YEAR RAINFALL INTENSITY(INGH/HOUR) = 6.587 q I I I I I I I' I I I I I I I I I I I , ' -... ---~--~ ~~-... ---_. --~ -.~ - ·46 -.-. -. ----"" --.-"-." - . __ ."_-=--_,_...;c...::;. ~ • __ ' _ . __ -~ ___ ~ __ "-___ . __ -__ ... _. _ . r ___ • ___ • _* ___ • ____ • ____ • • _. .~ *********~**********************~*~***************************w************* FLOW PROCESS FROM NODE 250.00 TO NODE 251. 00 IS CODE = 8 ------------------------------------------------------------~~-~--~--------- »»>ADDITION OF SUBAREA TO MAINLINE PEAK FLOW««< ============================================================================ 100 YEAR RAINFALL INTENSITY(INCH/HOUR) = 6.587 SOIL CLASSIFICATION IS ~Dn MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7000 SUBAREA AREA(ACRES) .27 SUBAREA RUNOFF(CFS) 1.24 TOTAL AREA(ACRES) .37 TOTAL RUNOFF(CFS) = 1.71 TC(MIN) = 5.00 ****************************************************-******.*****'********** FLOW PROCESS FROM NODE 250.00 TO NODE 251.00 IS CODE = 3 --------------------------~------------------------------------~------~----~ »»>COMPUTE PIPEFLOW TRAVELTIME THRU SUBAREA««< »»>USING COMPUTER-ESTIMATED PIPESrZE (NON-PRESSUR~ FLOW)««< ============================================================================ DEPTH OF FLOW IN 9.0 INCH PIPE IS 4.5 INCHES PIPEFLOW VELOCITY(FEET/SEC.) = 7.6 UPSTREAM NODE ELEVATION = 296.30 DOWNSTREAM NODE ELEVATION = 290.70 FLOWLENGTH(FEET) = 180.00 MANNINGS N .011 ESTIMATED PIPE DIAMETER(INCH) 9.00 NUMBER OF PIPES = 1 PIPEFLOW THRU SUBAREA(CFS) 1.71 TRAVEL TIME(MIN. ) = .39 TC(MIN.) 5.39 * * ** * * ** **~***** ***** ** *** * ** ** ********~** ******* ** * ** ***** * ** * ** ******* * ***** FLOW PROCESS FROM NODE 251.00 TO NODE 251.00 IS CODE = 1 -------------------------------------------------------~---~-~~-----------~- »»>DESIGNATE INDEPENDENT STREAM FOR CONFLUENCE««< ' ================================================================~=========== CONFLUENCE VALUES USED FOR INDEPENDENT STREAM 1 ARE: TIME OF CONCENTRATION(MINUTES) = 5.39 RAINFALL INTENSITY (INCH./HOUR) = 6.27 TQTAL STREAM AREA (ACRES) = .37 TOTAL STREAM RUNOFF(CFS) AT CONFLUENCE = 1.71 *********************************************************************~****** FLOW PROCESS FROM NODE 260.00 TO NODE 261.00 IS CODE = 2 ---------------------------------~---------------------~-------------------- »»>RATIONAL M~THOD INIT~AL SUBAREA ANALYSIS««< ============================================================================ SOIL CLASSIFICATION IS "0" MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7000 INITIAL SUBAREA FLOW-LENGTH(FEET) 50.00 UPSTREAM ELEVATION = 295.10 DOWNSTREAM ELEVATION = 294.60 ELEVATION DIFFERENCE = .~0 URBAN SUBAREA OVERLAND TIME OF FLOW(MINUTES) 5.096 100 YEAR RAINFALL INTENSITY(INCH/HOUR) = 6.506 SUBAREA RUNO~F(CFS) .36 TOTAL AREA(ACRES) = .08 TOTAL RUNOFF(CFS) .36 11) ~_-_. --:-:-~~~~:,~,!::_ ... ~".->-W""=--=""'_~~ __ :-. ___ ~_4_~_"~" __ "'_~"" , .... ~. -~ ~ ;- __ w ____ .... __ ::: .. -1_ ~-~=-.--:~:~---~:~ -:-'-';~~:~~;~'-.;"; .. >;-i~:;~~~--;~~-~.~~: ... :... --:--~~------. ---. : .. : .::-•• _____ :--v,:-_ ..• ~ .************ •• *****.**~~*****************.*****.*.************************** I I '---'---R::et;;F-PReCESS FRElf1-t;tt3fJ-~·8i-;-0~-T'6-NBBE~5-1-.-00-+S--&813E-=-'~:.3-~~--~"":-------- I I I I I I I I I I I I, I I I I »»>COMPUTE PIPEFLOW TRAVELTIME THRU SUBAREA««< »»>USING COMPUTER-ESTIMATED PIPESIZE (NON-PRESSURE FLOW)««< ========================-========-====-=====================~=============== DEPTH OF FLOW IN 6.0 INCH PIPE IS 3.2 INCHES PIPEFLOW VELOCITY(FEET/SEC.) = 3.4 UPSTREAM NODE ELEVATION = 290.90 DOWNSTREAM NODE ELEVATION = 290.70 FLOWLENGTH(FEET) = 20.00 MANNINGS N .011 ESTIMATED PIPE DIAMETER(INCH) = 6.00 N\jMBER OF PI.PES PIPEFLOW THRU SUBAREA(CFS) .36 TRAVEL TIME(MIN.) = .10 TC(MIN.) 5.19 1 ***************.***********************************~.*********************** FLOW PROCESS FROM NODE 251.00 TO NODE 251.~0 IS CODE = 1 -----------------.;..--------~------------------------.------------------------- »»>DESIGNATE INDEPENDENT STREAM FOR CONFLUENCE««< »»>AND COMPUTE VARIOUS CONFLUENCED STREAM VALUES««< ======================================================================~===== CONFLUENCE VALUES USED FOR INDEPENDENT STREAM 2 ARE: TIME OF CONCENTRATION(MINUTES) = 5.19 RAINFALL INTENSITY (INCH./HOUR) = 6;43 TOTAL STREAM AREA (ACRES) = .08 TOTAL STREAM RUNOFF(CFS) AT CONFLUENCE = .36 CONFLUENCE INFORMATIQN~ STREAM RUNOFF TIME INTENSITY NUMBER (CFS) (MIN.) (INCH/HOUR) --------------------------------------------------------------------~~--~--- 1 2 1. 71 .36 5.39 5.19 6.274 6.427 RAINFALL-INTENSITY-RATIO CONFLUENCE FORMULA USED FOR 2 STREAMS VARIOUS CONFLUENCED RUNOFF VALUES ARE AS FOLLOWS: 2.06 2.03 COMPUTED CONFLUENCE ESTIMATES ARE AS FOLLOWS: RUNOFF(CFS) = 2.06 TIME(MINUTES) = 5.392 TOTAL AREA(ACRES) = .45 ==~=================================================~======================= END OF RATlONAL METHOD ANALYSIS 11 I I I I I I I I I I I I I I I I I I -,,,, ---. -~---.--~---P . ________ .' ______ -.. ____ -__ Date x!>-:30-A <-7 Job No. 106 R 7 'Q-.-4/-! /O~·· -/1 ..... _ .. ~_ Page No. ;:.,-.. ;~~ .. -. --1'-;:':'::' '-, ·---r-·------. '''.'' . . ....... -------_ .. ---... --.--.~-.-.... . . . c<:Q:;;::?_:?_. --:.::J.LL..c7F~--" ....... --_.---------.;.----.--#--.-----.~---" '" ·:-::~.:::~~"":!:;-~.:::;~-:::;.~ ... ~-... ~-~::------:':::-=-----::--~-:""-----,-. -:--~-". ~ "-, I ;-~ -:~----~~,--,~."~---.:~~:~;~~:?~~ :,-~~-;.~~~~~~~~-~:~~~~~~:~:::~--~-: ---::: ---~~ -:-~-.-----~--=~~:~--~ .- ----------."~~--------.. -. ""--.--. --------~---,-----------------------.. ---I • -----~ --+-~ -.:-... - I I I I I PIPE HYDRAULICS I I I I I I I I I I I I ----.------" --" -~---" ----"----"----~-.-.--"~--------,----I I I I I I I I I I I I 1 1 I I 1 I. ********'***************'***************************************.*********** HYDRAULIC ELEMENTS - I PROGRAM PACKAGE (C) Copyright 1982-88 Advanced Engineering Software (aes) Ver. 2.7A Release Date: 6/25/88 Serial # 2350 Analysis prepared by: TIME/DATE OF STUDY: 0: 6 3/26/1986 ======================~==================================~=================~ ************************** DESCRIPTION OF STUDY ************************** * NODE 205 TO NODE 302 * * * * ********************************************************.*******.********* **************************************************************************** »»PIPEFLOW HYDRAULIC INPUT INFORMATION«« PIPE DIAMETER(FEET) = 1.500 PIPE SLOPE(FEET/FEET) = .3157 PIPEFLOW(CFS) = 10.62 MANNTNGS FRICTION FACTOR = .013000 =================================================~========================== CRITICAL-DEPTH FLOW INFORMATION: --------------------------------------------------~------------------------- CRITICAL DEPTH(FEET) = 1.25 CRITICAL FLOW AREA(SQUARE FEET) = 1.575 CRITICAL FLOW TOP-WIDTH(FEET) = 1.116 CRITICAL FLOW PRESSURE + MOMENTUM(POUNDS) =" 195.38 CRITICAL FLOW VELOCITY(FEET/SEC.) = 6.743 CRITICAL FLOW VELOCITY HEAD(FEET) = .71 CRITICAL FLOW HYDRAULIC DEPTH(FEET) 1.41 CRITICAL FLOW SPECIFIC ENERGY(FEET) 1.96 ================================================~=========:================= NORMAL-DEPTH FLOW INFORMATION: --------------------------------------------------------~------------------- NORMAL DEPTH(FEET) = .43 FLOW AREA(SQUARE FEET) = .42 FLOW TOP-WIDTH(FEET) = 1.357 FLOW PRESSURE + MOMENTUM(POUNDS) FLOW VELOCITY<FEET/SEC. ) FLOW VELOCITY HEAD(FEET) = HYDRAULIC DEPTH(FEET} = .31 FROUDE NUMBER = 8.021 SPECIFIC ENERGY(FEET) = 25.307 9.945 10.38 525.52 .**.***.************.***** DESCRIPTION OF STUDY ***********.************** * NODE 251 TO NODE 300 * * * * * ************************************************************************** -•• :---___ ~ __ ~_..:...... _______ o _ _'_ ____ ~ •• __ ~ ______ ~ ___ .,._. __ • ___ •• __ •• 0" I I I I I I I I I I I I I I I I I I **************************************************************************** »»PIPEFLOW HYDRAULIC INPUT INFORMATION«« -------------------~-----------------------------------------------------~-- PIPE DIAMETER(FEET) = 1.500 PIPE SLOPE(FEET/FEET) = .~900 PIPEFLOW(CFS) = 2.06 MANNINGS FRICTION FACTOR = .013000 ======================================================~================~==== CRITICAL-DEPTH FLOW INFORMATION: CRITICAL DEPTH(FEET) = .54 CRITICAL FLOW AREA(SQUARE FEET) = .575 CRITICAL FLOW TOP-WIDTH(FEET) = 1.441 CRITICAL FLOW PRESSURE + MOMENTUM(POUNDS) = 22.40 CR1TICAL FLOW VELOCITY(FEET/SEC.) = 3.584 CRITICAL FLOW VELOCITY HEAO(FEET) = .20 CRITICAL FLOW HYDRAULIC DEPTH(FEET) .40 CRfTICAL FLOW SPECIFIC ENERGY(FEET) .74 =====================================================~====================== NORMAL-DEPTH FLOW INFORMATION: NORMAL DEPTH(FEET) = .18 FLOW AREA(SQUARE FEET) = .12 FLOW TOP-WIDTH(FEET) = .980 FLOW PRESSURE + MOMENTUM(POUNDS) 67.79 FLOW VELOCITY(FEET/SEC. ) 16.837 FLOW VELOCITY HEAO(FEET) = 4.402 HYDRAULIC OEPTH(PEET) = .12 FROUDE NUMBER = 8.398 SPECIFIC ENERGY(FEET) = 4.58 ==========================================~=========================~======= I I I I I I I I I I I I I I I I I . ___ -....l-,-_--_--.'--_;_'_' :::.-=-:::.------____ -=-~ ___ .. _:... ______ ,_-_____ ...:...~----::..:------ ••••••• *********~**************************************.******************** HYDRAULIC ELEMENTS - I PROGRAM PACKAGE (C) Copyright 1982-88 Advanced Engineering Software (aes) Ver. 2.7A Release Date: 6/25/88 Serial # 2350 Analysis prepared by: TIME/DATE OF STUDY: 0:21 3126/1986 =~========================================================================== **.***.***.**.** ••• ** ••••• DESCRIPTION OF STUDY **.*********************** * NODE 302 TO 300 * • * * * ************************************************************************** ************************************************************************* •• * »»PIPEFLOW HYDRAULIC INPUT INFORMATION«« --~---------------------------------------------------~--~-----------------~ PIPE DIAMETER(FEET) = 1.500 PIPE SLOPE(FEET/FEET) = .0136 PIPEFLOW(CFS) = 17.59 MANNINGS FRICTION FACTOR = .013000 =============================================================~=~============ CRITICAL-DEPTH FLOW INFORMATION: CRITICAL DEPTH(FEET) = 1.45 CRITICAL FLOW AREA(SQUARE FEET) = 1.747 CRITICAL FLOW TOP-WIDTH(FEET) = .555 CRITICAL FLOW PRESSURE + MOMENTUM(POUNDS) = CRITICAL PLOW VELOCITY(FEET/SEC.) = 10.067 CRITICAL FLOW VELOCITY HEAD(FEET) = CRITlCAL FLOW HYDRAULIC DEPTH(FEET) CRITICAL FLOW SPECIFIC ENERGY(FEET) ==>NORMAL PIPEFLOW IS PRESSURE FLOW 1.57 3.15 3.02 420.00 *****************.*****.** DESCRIPTION OF STUDY **************.**.*******. • NODE 300 TO DOWN SREAM • • * * * *.********.*** •••• ****.***********************4****.********************** **** ••• *** •• ** •• **** •• **.** •• *****************.********.**.******.******** •• »»PIPEFLOW HYDRAULIC INPUT INFORMATION«« -----------------~-----------------------------~--~------------------------- PIPE DIAMETER(FEET) = 1.500 PIPE SLOPE(FEET/FEET) = .0484 PIPEFLOW{CFS) = 19.65 MANNINGS FRICTION FACTOR = .013000 =====================================================~====================== CRITICAL-DEPTH FLOW INFORMATION: _ ~-...-'~.=--:~~':~:_?o"~-:?,~:-~::~:-_":~::--:~-:. ---=-_.:.: ~~_.:.. __ : ~,-~'--:-: -.. -.~. --:;;'--'---~--"-~-".--~-----,-",-,"::-.----.-----.. ----"'--... _---.--, ~ . -. -'I· ~.', ~,~~~~;;~~;~-~~ . :-;::-~: ~~~~~;.:':'~~,~~~:~,:~~~~: .~','=-~~:~~~-. . '. -------. --.~-... .,-----.-..:: -----------' .---~- 1 CRITICAL o'EP'TH( FEET) = 1. 47 CRITICAL FLOW AREA(SQUARE FEET) = 1.757 CRITICAL FLOW TOP-W1DTH(FEET) = .452 CRITICAL FLD.W PRESSURE + MOt1ENTUM( POUNDS) = 1 CRITICAL FLOW VELOCITY(FEET/SEC.) = 11.186 CRITICAL FLOW VELOCITY HEAD(FEET) = CRITICAL FLOW HYDRAULIC DEPTH(FEET) CRITICAL FLOW SPECIFIC ENERGY(FEET) 3.89 504.87 1. 94 3.41 1 1 ============================================================================ 1 1 1 1 1 1 1 1 1 1 1 1 1 I NORMAL-DEPTH FLOW INFORMATION: ----------------------------~-------~-----------------------------~-~--~---- NORMAL DEPTH(FEET) = 1.06 FLOW AREA(SQUARE FEET) = 1.34 FLOW TOP-WIDTH(FEET) = 1.363 FLOW PRESSURE + MOMENTUM(POUNDS) FLOW VELOCITY(FEET/SEC. ) FLOW VELOCITY HEAD(FEET) = HYDRAULIC DEPTH(FEET) = .98 FROUDE NUMBER = 2.611 SPECIFIC ENERGY(FEET) = 14.680 3.346 4.41 598.26 ============================================================================ -. --=------. ~.---------.., .. . --------------......-_ ..... ----.--------~------ . --------.-~ -----------------'-": .-------------.=:.:.::::.::..~.-_ .. --'-" ---.--..... -.. --.----~::::.-.: :--------------_::.._-=--_. __ ._-_ ... _----:-----. I I I I I I I I I I I I I I I I I I **************************************************************************** PRESSURE PIPE-FLOW HYDRAULICS COMPUTER PROGRAM PACKAGE (Reference: LACFD,LACRD,& OCEMA HYDRAULICS CRITERION) (c) Copyright 1982-88 Advanced Engineering Software (aes) Ver. 3.M Release Date:12/27/88 Serial # 3113 An~lysis prepared ~y: RICK ENGINEERING COMPANY 5620 Frairs Road San Diego, Ca 92110 (619) 291-0707 ************************** DESCRIPTION OF STUDY ************************** * HGL FOR EXISTING PIPE ALONG EL CAMINO REAL * * * ************************************************************************** FILE NAME: MPPIPES.DAT TIME/DATE OF STUDY: 0:58 3/26/1986 * * =================================~=============.======--==-================= NOTE: STEADY FLOW HYDRAULIC HEAD-LOSS COMPUTATIONS BASED ON THE MOST GONSERVATIVE FORMULAE FROM THE CURRENT LACRD,LACFCD, AND OCEMA DESIGN MANUALS. DOWNSTREAM PRESSURE PIPE FLOW NODE NUMBER = 300.10 PIPE DIAMETER(lNCH) = 18.00 ASSUMED DOWNSTREAM CONTROL HGL CONTROL DATA: FLOWLINE ELEVATION PIPE FLOW(CFS) = 268.910 267.85 19.65 ============================================================================ SOFFIT CONTROL ASSUMED AT BEGINNING OF PIPE SYSTEM NODE 300.10: HGL= < 269.350);EGL= < 271.270);FLOWLINE= < 267.850) =========~==============================================~=================== PRESSURE FLOW PROCESS FROM NODE 300.10 TO NODE 300.20 IS CODE = 5 UPSTREAM NODE 300.20 ELEVATION = 267.85 -------------------------------------------------------------------~--~----- CALCULATE PRESSURE FLOW JUNCTION LOSSES: NO. DISCr.lARGE DIAMETER AREA VELOCITY DELTA 1 17.6 18.00 1.767 9,954 .000 2 19.6 18.00 1.767 11. 120 3 2.1 18.00 1.767 1.166 90.000 4 .0 .00 .000 .000 .000 5 .0==·Q5 EQUALS BASIN INPUT=== LACFCD AND OCEMA PRESSURE FLOW JUNCTION FORMULAE USED: DY=(Q2*V2-Q1*Vl*COS(DELTA1)-Q3*V3*COS(DELTA3)- Q4*V4*COS(DELTA4»)/«Al+A2)*16.!) UPSTREAM MANNINGS N = .01300 DOWNSTREAM MANNINGS N .01300 UPSTREAM FRICTION SLOPE = .02804 DOWNSTREAM FRICTION SLOPE = .03499 AVERAGED FRICTION SLOPE IN JUNCTION ASSUMED AS .03152 HV 1.539 1.920 --" .-. o-_______ -lJlJ1\[CTTD1\n: __ ENGTl1rt=~~I)-~--~~--4:00--"---FRI-Cr-Yol,r-Coss' ~--.126-~ --~ ~ --~ --II -ENTRANCE LOSSES = .000 II II II I I I II I I I I I I I I I I JUNCTION LOSSES = DY+HV1-HV2+(FRICTION LOSS)+(ENTRANCE LOSSES) JUNCTION LOSSES .763+ 1.539-1.920+( .126)+( .000) = .508 NODE 300.20: HGL= < 270.239>;EGL= < 271.777>;FLOWLINE= < 267.850> =========================~==============~=================================== PRESSURE FLOW PROCESS FROM NODE 300.20 TO NODE 302.10 IS CODE = 1 UPSTREAM NODE 302.10 ELEVATION = 268.15 ------------------------------------------~--------------------~------------ CALCULATE PRESSURE FLOW FRICTION LOSSES~LACFCD): PIPE FLOW = 17.59 CFS PIPE DIAMETER 18.00 INCHES PIPE LENGTH = 254.56 FEET MANNINGS N = .01300 SF=(Q/K)**2 = « 17.59)/( 105.043»**2 = .0280411 HF=L*SF = ( 254.56)*( .0280411) = 7.138 NODE 302.10: HGL= < 277.377>;EGL= < 278.916);FLDWLINE= < 268.150> =========================================================================~== PRESSURE FLOW PROCESS FROM NODE 302.10 TO NODE 302.20 is COCE = 5 UPSTREAM NODE 302.20 ELEVATION = 271.35 CALCULATE PRESSURE FLOW JUNCTION LOSSES: NO. DISCHARGE DIAMETER AREA VELOCITY DELTA 1 7.0 18.00 1.767 3.944 30.000 2 17.6 18.00 1.767 9.954 3 10.6 18.00 1.767 6.015 90.000 4-.0 .00 .000 .000 .000 5 .0===Q5 EQUALS BASIN INPUT=== LACFCD AND OCEMA PRESSURE FLOW JUNCTION FORMULAE USED: DY=(Q2*V2-Q1~V1*COS(DELTA1)-Q3*V3*COS(DELTA3) Q4*V4tCOS(DELTA4»/«Al+A2)*16.1) UPSTREAM MANNINGS N = .01300 DOWNSTREAM MANNINGS N = .01300 UPSTREAM FRICTION SLOPE = .00440 DOWNSTREAM FRICTION SLOPE = .02804 AVERAGED FRICTION SLOPE IN JUNCTION ASSUMES AS .01622 JUNCTION LENGTH(FEET) = 4.00 FRICTION LOSS = .085 ENTRANCE LOSSES .000 HV .242 1.539 JUNCTION LOSSES = DY+HVI-HV2+(FRICTION LOSS)+(ENTRANCE LOSSES) JUNCTION LOSSES = 2.659+ .242-1.539+( .065)+( .000) = 1.427 NODE 302.20: HGL= < 280.101>iEGL= < 280.342);FLOWLINE= < 271.350) ====================================~====~=====~======================~===== END OF PRESSURE FLOW HYDRAULICS PIPE SYSTEM ~ ,-. --~ -~--."-'--' --~"'-'----~ ---~-----.--------------._-----------------.. -:... __ .--_. __ .. :..._._....: __ . __ :..._._--.. 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G J.N. 10687 K ENGINEERING COMPANY RIC G CONSULTANTS: SURVEYORS CIVIL ENGINEERS: PLANNIN CALIFORNIA 92110 (619) 291-0707 5620 FRIARS ROAD SAN DIEGO, CALIFORNIA 92008 (619) 729-4987 3088 PID PICD DRIVE CARLSBAD, COS CA 92069 (619) 744'4800 365 S. RANCHO SANTA FE RD. SAN MAR , . •