HomeMy WebLinkAboutCT 02-25; NORTHPARK AT LA COSTA; HYDROLOGY/HYDRAULIC ANALYSIS; 2004-01-06EWROLOGY/HWRAmC ANALYSIS
FOR
Carlsbad Tract No, 02-25
NortbPHTkatLa Costa
Dated: 09/19/03
Revised 01/06/04
SfniggBm-Ogge
8348 Center Drive, Suite G
La Mesa, CA 91942-2910
(619) 697-9234, Fax (619) 460-2033
JobNo. CA1133
TOUCHSTONE COMMUNITY TM File: CA1131
8/23/2002
SUMMARY
PROJECT DESCRIPTION:
THE PROJECT PROPOSES TO DEVELOP 14 LOTS TO INCLUDE 12 LOTS WITH
DWELLING UNITS AND 2 COMMON LOTS FOR ACCESS DRIVEWAY AND
LANDSCAPE COMMON AREA ONTO TWO (2) VACANT LOTS, LOT 227 AND 228 OF
SUBDIVISION MAP NO. 7457.
CURRENT SITE CONDITIONS:
THE SUBJECT SITE IS LOCATED ON AN ELEVATED PAD WITH THE
TOPOGRAPHY SLOPING AWAY IN ALL DIRECTIONS. IT IS BOUND TO THE EAST
AND THE SOUTH BY LA COSTA AVENUE AND LEVANTE STREET RESPECTIVELY;
TO THE fcMESL /T IS BOUND BY MULTI-FAMILY RESIDENTIAL AND SINGLE-
FAMILY ^ESIDEITAL TO THE NORTH, THE RUNOFF FROM THE PROPERTY
SHEET-FUDWS~~SOUTHERLY DISCHARGING INTO PUBLIC RIGHT-OF-WAY,
LEVANTE STREET. NO OFF-SITE RUNOFF DISCHARGES ONTO THE SUBJECT
SITE.
EXISTING RUNOFF:
THE SUBJECT SITE HAS PREVIOUSLY GRADED INTO 2 PADS AND FLOWS FROM
THE NORTHEAST CORNER OF THE SITE TO THE SOUTHWEST CORNER OF THE
SITE WHICH IS THE LOW POINT THE RUNOFF FROM THE SUBJECT SITE IN THE
CURRENT CONDITION IS 4.04 CFS IN THE 100-YEAR, 6-HOUR STORM.
POST-DEVELOPMENT RUNOFF:
THE POST-DEVELOPED SITE DIVIDES THE SITE INTO 2 DRAINAGE BASINS,
NORTHERLY BASIN AND SOUTHERLY BASIN, 0.92 ACRES AND 0.55 ACRES,
RESPECTIVELY. THE NORTHERLY HALF OF THE SITE INCLUDES THE
PROPOSED LOTS 1 TO 7, 14 AND PORTION OF LOT 13 OF THE PROPOSED
TENTATIVE MAP. SURFACE DRAINAGE FROM THE NORTHERLY BASIN SHEET
FLOWS TO A DETENTION BASIN, WHICH IS LOCATED AT THE SOUTHWEST
CORNER OF THE PROJECT SITE THEN DISCHARGING TO THE PUBLIC RIGHT-
OF-WAY LEVANTE STREET, BY A CURB OUTLET. THE SOUTHEASTERLY HALF
OF THE SITE INCLUDES LOTS 8 TO 12 AND PORTION OF LOT 13 OF THE
PROPOSED TENTATIVE MAP. SURFACE DRAINAGE SHEET FLOWS TO PUBLIC
RIGHT-OF-WAY, LEVANTE STREET.
THE ATTACHED DETENTION BASIN DESIGN CALCULATIONS SHOW THAT THE
POST DEVELOPMENT RUNOFF DISCHARGE SHALL NOT EXCEED THE PRE-
DEVELOPMENT RUNOFF DISCHARGE IN THE 100-YEAR, 6-HOUR STORM.
Prepared By: Drainage-Summaiy.doc
Snipes-Dye Associates i
HYDROLOGYJ mCANALYSIS
Carlsbad Tract No. 02^
North Park at La Costa
834ai.CenterDfive, Suite G
La MIstka, CA 91942-2910
($19) 697-^^, Fax (619) 460-2033
William A. Snipes R.C.E. 50477
W
HYDROLOGY/HYDRAVUC ANALYSIS
FOR
Carlsbad Tract No, 0,
North Park at La Costa
Dated: 09/19/03
Snlfmrn-Oyie
8348 Center Drive, Suite G
La Mesa, CA 91942-2910
(619) 697-9234, Fax (619) 460-2033
Job No. CAll32
HYDROLOGY/BYDRAVUC ANALYSIS
FOR
Carlsbad Tract No, 02-25
North Paric at La Costa
», SuSe G
1942-2910
ax (619) 460-2033 j
William A. Snipes R.C.E. 50477
NORTHPARK AT LA GOSTA TM File: CA1133
1/6/04
SUMMARY
PROJECT DESCRIPTION:
THE PROJECT PROPOSES TO DEVELOP 14 LOTS TO INCLUDE 12 LOTS WITH
DWELLING UNITS AND 2 COMMON LOTS FOR ACCESS DRIVEWAY AND
LANDSCAPE COMMON AREA ONTO TWO (2) VACANT LOTS, LOT 227 AND 228 OF
SUBDIVISION MAP NO. 7457.
CURRENT SITE CONDITIONS:
THE SUBJECT SITE IS LOCATED ON AN ELEVATED PAD WITH THE
TOPOGRAPHY SLOPING AWAY IN ALL DIRECTIONS. IT IS BOUND TO THE EAST
AND THE SOUTH BY LA COSTA AVENUE AND LEVANTE STREET, RESPECTIVELY;
TO THE WEST IT IS BOUND BY MULTI-FAMILY RESIDENTIAL AND SINGLE-
FAMILY RESIDENTIAL TO THE NORTH. THE RUNOFF FROM THE PROPERTY
SHEET-FLOWS SOUTHERLY DISCHARGING INTO PUBLIC RIGHT-OF-WAY,
LEVANTE STREET. NO OFF-SITE RUNOFF DISCHARGES ONTO THE SUBJECT
SITE.
EXISTING RUNOFF:
THE SUBJECT SITE HAS PREVIOUSLY GRADED INTO 2 PADS AND FLOWS FROM
THE NORTHEAST CORNER OF THE SITE TO THE SOUTHWEST CORNER OF THE
SITE, WHICH IS THE LOW POINT THE RUNOFF FROM THE SUBJECT SITE IN THE
CURRENT CONDITION IS 4.04 CFS IN THE 100-YEAR, 6-HOUR STORM.
POST-DEVELOPMENT RUNOFF:
THE POST-DEVELOPED SITE DIVIDES THE SITE INTO 2 DRAINAGE BASINS,
NORTHERLY BASIN AND SOUTHERLY BASIN, 0.92 ACRES AND 0.55 ACRES,
RESPECTIVELY. THE NORTHERLY HALF OF THE SITE INCLUDES THE
PROPOSED LOTS 1 TO 7, 14 AND PORTION OF LOT 13 OF THE PROPOSED
TENTATIVE MAP. SURFACE DRAINAGE FROM THE NORTHERLY BASIN SHEET
FLOWS TO A DETENTION BASIN, WHICH IS LOCATED AT THE SOUTHWEST
CORNER OF THE PROJECT SITE THEN DISCHARGING TO THE PUBLIC RIGHT-
OF-WAY, LEVANTE STREET, BY A CURB OUTLET. THE SOUTHEASTERLY HALF
OF THE SITE INCLUDES LOTS 8 TO 12 AND PORTION OF LOT 13 OF THE
PROPOSED TENTATIVE MAP. SURFACE DRAINAGE SHEET FLOWS TO PUBLIC
RIGHT-OF-WAY, LEVANTE STREET
THE ATTACHED DETENTION BASIN DESIGN CALCULATIONS SHOW THAT THE
POST DEVELOPMENT RUNOFF DISCHARGE SHALL NOT EXCEED THE PRE-
DEVELOPMENT RUNOFF DISCHARGE IN THE 100-YEAR, 6-HOUR STORM.
Prepared By: Drainage-Summary.doc
Snipes-Dye Associates i
TOUCHSTONE COMMUNITY TM ^%n9l2002
SITE PEAK FLOW DETENTION (100-YEAR)
DETERMINE VOLUME OF INCREASED RUNOFF FROM THE DEVELOPED SITE IN THE 6-HOUR, 100-YEAR
STORM:
1. DETERMINE WEIGHTED SITE RUNOFF COEFFICIENT FOR CURRENT SITE
2. DETERMINE WEIGHTED SITE RUNOFF COEFFICIENT FOR DEVELOPED SITE
3. DETERMINE PEAK RUNOFF FROM THE CURRENT SITE AND THE DEVELOPED
SITE IN THE 6-HOUR, 100-YEAR STORM.
4. PREPARE SITE HYDROGRAPH FOR THE DEVELOPED SITE.
5. DETERMINE VOLUME FOR INCREASED RUNOFF FROM THE DEVELOPED SITE
6. DETERMINE RETENTION BASIN WITH INCREASED RUNOFF VOLUME
1. CALCULATE WEIGHTED RUNOFF COEFFICIENT ICI FOR THE CURRENT STTE:
I 1= 1.37 ACRES (Al = 1.37 ACRES, ASSUME 01 = 0.55)
I 1= 0.18 ACRES (A2 = 0.18 ACRES, ASSUME 02 = 0.70)
A=A1 +A2
C = {A1(C1)+A2(C2)}/A
0 = {1.37(0.55) + 0 18(0.70)} ^ 1.54
C = 0.57
2. CALCULATE WEIGHTED RUNOFF COEFFICIENT Kl FOR THE DEVELOPED STTE:
1 1= 0.58 ACRES (A3 = 0.58 ACRES, ASSUME 03 = 0.40)
I 1= 0.06 AORES (A4 = O06 ACRES ASSUME 04 = O70)
^^3= 0.91 ACRES (A5 = 0.91 ACRES, ASSUME 05 = 0.95)
A=A3+A4 + A5
0 = {A3(C3) + A4(C4) + A5(C5)}/A
0 = (058(0.40) + 0.06(0.70) + 0.91(0.95)} rr 1.54
0 = 0.74
Prepared by: 100-YR Calculations Snipes-Dye Associates '
TOUCHSTONE COMMUNITY TM CA1131
9/19/2003
3. CALCULATE PEAK DISCHARGE OF CURRENT STTE:
ASSUME Tc = 10 MINUTES FOR CURRENT AND DEVELOPED SITE.
UTILIZE FIGURE 3-1 INTENSITY/DURATION CURVE
AND ISOPLUVIALS OF 100-YEAR 6-HOUR PRECIPITATION
READ INTENSITY (I) = 4.6 INCH/HOUR
Q = CIA
0 = 0.57, / = 4.6 in/hr, A = 1.54 acres
0^0.57(4.6)1.54
Q = 4.04 cfe
4. CALCULATE PEAK DISCHARGE OF DEVELOPED SITE:
Q = CIA
0 = 0.74,1 = 4.6 in/hr, A = 1.54 acres
0 = 0.74(4.6)1.54
Q= 5.24 cfs
Prepared by: . .
Snipes-Dye Associates 2 100-YR Calculabons
TOUCHSTONE COMMUNITY TM File: CA1131
9/19/2003
5. CALCULATE VOLUME OF INCREASED RUNOFF FROM DEVELOPED SITE:
DEVELOPED SITE HYDROGRAPH
Q (cfe;
5.24
4.04
x=1.15
A h=1.20
•
r 4 • 7c (MINUTES)
AREA UNDER SHADED AREA = VOLUME OF DISCHARGE FROM DEVELOPED SITE
VOLUME = 1.15(1.20)(60) = 82.80 CU. FT. (MIN. VOLUME OF STORMWATER TO RETAIN)
TOTAL PRE-DEVELOPMENT DISCHARGE FROM SITE (Qex):
Qex =4.04 cfs
TOTAL POST-DEVELOPMENT DISCHARGE FROM STTE (Qpr):
Qpr = 5.24 cfs
THE POST-DEVELOPMENT DISCHARGE RUNOFF THROUGH RETENTION BASIN (Qin):
Qin= 2.91 cfs (See attaclied calculations)
THE POST-DEVELOPMENT DISCHARGE RUNOFF NOT THROUGH RETENTION BASIN (Qnr):
Qnr = Qpr - Qin = 5.24 cfe - 2.91 cfe
Qnr = 2.33 cfs
^ THE MAX. ALLOWABLE POST-DEVELOPMENT DISCHARGE RUNOFF PRIOR TO RETAIN (Q r):
Qr = Qex - Qnr = 4.04 cfe - 2.33 cfe
Qr = 1.71 cfs
Utilize 2-4 inch PVC pipes for the proposed retention basin outlet:
4" pipe's discharge capacity = 0.84 cfe (See attached calculations)
2-4- pipes = 2 x 0.84= 1.68 cfs <Qr
THE TOTAL POST-DEVELOPMENT RUNOFF = Qnr+Q (two 4" pipes) = 2.33 cfs * 1.68 cfs = 4.01 cfs
4.01 cfs (the total post-development runoff) is less than 4.04 cfs (the total pre-development runoff)
Prepared by:
Snipes-Dye Associates 100-YR Calculations
TOUCHSTONE COMMUNITY TM
6. OESfGN RETENTION STRUCTURE WTTH MINIMUM VOLUME OF 82 CUBIC FEET: (See
attached detail)
RETENTION VOLUME (V) = CROSS-SECTION BASIN AREA (A) X WIDTH OF BASIN (W)
A = 1/2 X WATER LEVEL HEIGHT (H) X LENGTH OF WATER SURFACE (L)
File: CA1131
9/19/2003
6" OVERFLOW
PIPE
RETENTION BASIN DIMENSIONS:
W = 4.17 FEET
H = 0.67 FEET
H/L = 1/100
L = 100(H) = 67 FEET
V = A(W) = 1/2L(H)(W)
V = (67 FT)(0.67 FT)(4.n FT)/2
V=94 CU. FT. > 82 CU. FT.
DETERMINE THE OVERFLOW PIPE:
Utilize one 6"pipe for tfie retention basin overflow pipe
6" overflow pipe's discharge capacity = 2.55 cfs (See attached calculations)
Q(enter) - Q (two 4" pipes) = Q(min. overflow pipe)
2.91 cfs - 1.68 cfs = 1.23 cfs < 2.55 cfe
(The capacity of a 6" overflow pipe is greater than the required runoff discharge.)
CONCLUSION:
THE TWO 4" PVC PIPE OUTLET AT THE BOTTOM OF THE LOW-END
OF THE PROPOSED RETENTION BASIN AND ONE 6" PVC
OVERFLOW PIPE. WHICH HAS AN INVERT ELEVATION AT 8"
ABOVE THE BOTTOM OF THE LOW-END ARE SUFFICIENT TO
RETAIN THE REQUIRED VOLUME OF STORM WATER AND DRAIN
THE DEVELOPED SITE DURING A PEAK FLOW, 100-YEAR STORM
EVENT.
Prepared by:
Snipes-Dye Associates 100-YR Calculations
6" PVC
OVERFLOW
PIPE ^
2-4" PVC PIPES
DISCHARGE
TO CURB OUTLET
QDiBcn«Hee"l-68 CFS
•RETBslTION VOLUME (V) - I05 CU. FT.
-RETAINING WALL PS? GRADING F^-AN (TYP.)
SECTION A-A
NO SCALE
• DRAINAGE PIPES DISCHARGE K
TO CURB (XITLET o.
IMPROVEMENT PLANS (TYPJ O RETAINING WALL
PER GRADING F>LAN OTP.)
4' PVC PIPE
to
d 70'
PLAN VIEW - RETENTION BASIN DETAIL
NO SCALE
HYDRAULIC ELEMENTS - I PROGRAM PACKAGE
(C) Copyright 1982-99 Advanced Engineering Software (aes)
Ver. 8.0 Release Date: 01/01/99 License ID 1305
Analysis prepared by:
Snipes-Dye Associates
8348 Center Drive, Suite G
La Mesa, CA 91942-2910
Fax (619)460-2033 Phone (619)697-9234
TIME/DATE OF STUDY: 11:52 8/ 7/2002
DISCHARGE CAPACTTY OF A 4" PIPE
**********************************************************************^
»»PIPEFL0W HYDRAULIC INPUT INFORMATION««
PIPE DIAMETER(FEET) = 0.330
FLOWDEPTH(FEET) = 0.330
PIPE SLOPE(FEET/FEET) = 0.4900
MANNINGS FRICTION FACTOR = 0.020000
»»> NORMAL DEPTH FLOW(CFS) = 0.84
HYDRAULIC ELEMENTS - I PROGRAM PACKAGE
(C) Copyright 1982-99 Advanced Engineering Software (aes)
Ver. 8.0 Release Date: 01/01/99 License ID 1305
Analysis prepared by:
Snipes-Dye Associates
8348 Center Drive, Suite G
La Mesa, CA 91942-2910
Fax (619)460-2033 Phone (619)697-9234
TIME/DATE OF STUDY: 8:11 8/ 8/2002
DISCHARGE CAPACITY FO A 6" PIPE
****************************************************************************
»»PIPEFLOW HYDRAULIC INPUT INF0RMATI0N««
PIPE DIAMETER(FEET) = 0.500
FLOWDEPTH(FEET) = 0.500
PIPE SLOPE(FEET/FEET) = 0.4900
MANNINGS FRICTION FACTOR = 0.020000
»»> NORMAL DEPTH FLOW (CFS) = 2.55
TOUCHSTONE COMMUNITY ''"^9A9/2003
RATIONAL METHOD HYDROLOGY COMPUTER PROGRAM PACKAGE
Reference: SAN DIEGO COUNTY FLOOD CONTROL DISTRICT
1985,1981 HYDROLOGY MANUAL
(c) Copyright 1982-99 Advanced Engineering Software (aes)
Ver. 1.5A Release Date: 01/01/99 License ID 1305
Analysis prepared by:
Snipes-Dye Associates
8348 Center Drive, Suite G
La Mesa, CA 91942-2910
Fax (619)460-2033 Phone (619)697-9234
LEVANTE STREET TENTATIVE MAP
POST-DEVELOPMENT CONDITIONS
TOUCHSTONE COMMUNITY
FILE NAME: CA1131.DAT
TIME/DATE OF STUDY: 14:49 8/27/2002
USER SPECIFIED HYDROLOGY AND HYDRAULIC MODEL INFORMATION:
1985 SAN DIEGO MANUAL CRITERIA
USER SPECIFIED STORM EVENT(YEAR) = 100.00
6-HOUR DURATION PRECIPITATION (INCHES) = 2.700
SPECIFIED MINIMUM PIPE SIZE(INCH) = 3.00
SPECIFIED PERCENT OF GRADIENTS(DECIMAL) TO USE FOR FRICTION SLOPE =0.95
SAN DIEGO HYDROLOGY MANUAL "C"-VALUES USED
NOTE: ONLY PEAK CONFLUENCE VALUES CONSIDERED
****************************************************************************
FLOW PROCESS FROM NODE 1.00 TO NODE 2.00 IS CODE = 21
»»>RATIONAL METHOD INITIAL SUBAREA ANALYSIS««<
*USER SPECIFIED(SUBAREA):
MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7400
INITIAL SUBAREA FLOW-LENGTH = 495.00
UPSTREAM ELEVATION = 295.45
DOWNSTREAM ELEVATION = 284.33
ELEVATION DIFFERENCE = 11.12
URBAN SUBAREA OVERLAND TIME OF FLOW(MINUTES) = 11.008
100 YEAR RAINFALL INTENSITY(INCH/HOUR) = 4.276
SUBAREA RUNOFF(CFS) = 2.91
TOTAL AREA(ACRES) = 0.92 TOTAL RUNOFF(CFS) = 2.91
Post-Dev.doc
TOUCHSTONE COMMUNITY File: CA1131
9/19/2003
^t+**************************************************************************
FLOW PROCESS FROM NODE 2.00 TO NODE 3.00 IS CODE = 4
»»>COMPUTE PIPEFLOW TRAVELTIME THRU SUBAREA««<
»»>USING USER-SPECIFIED PIPESIZE««<
DEPTH OF FLOW IN 6.0 INCH PIPE IS 3.9 INCHES
PIPEFLOW VELOCITY(FEET/SEC.) = 21.5
UPSTREAM NODE ELEVATION = 287.00
DOWNSTREAM NODE ELEVATION = 279.60
FLOWLENGTH(FEET) = 15.00 MANNING'S N = 0.013
GIVEN PIPE DIAMETER(INCH) = 6.00 NUMBER OF PIPES = 1
PIPEFLOW THRU SUBAREA(CFS) = 2.91
TRAVEL TIME(MIN.) = 0.01 TC(MIN.) = 11.02
*^t**************************************************************************
FLOW PROCESS FROM NODE 4.00 TO NODE 5.00 IS CODE = 21
»»>RATIONAL METHOD INITIAL SUBAREA ANALYSIS««<
*USER SPECIFIED(SUBAREA):
MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7400
INITIAL SUBAREA FLOW-LENGTH = 200.00
UPSTREAM ELEVATION = 294.00
DOWNSTREAM ELEVATION = 286.78
ELEVATION DIFFERENCE = 7.22
URBAN SUBAREA OVERLAND TIME OF FLOW(MINUTES) = 5.974
*CAUTION: SUBAREA SLOPE EXCEEDS COUNTY NOMOGRAPH
DEFINITION. EXTRAPOLATION OF NOMOGRAPH USED.
TIME OF CONCENTRATION ASSUMED AS 6-MINUTES
100 YEAR RAINFALL INTENSITY(INCH/HOUR) = 6.325
SUBAREA RUNOFF(CFS) = 1.17
TOTAL AREA(ACRES) = 0.25 TOTAL RUNOFF(CFS) = 1.17
****************************************************************************
FLOW PROCESS FROM NODE 6.00 TO NODE 7.00 IS CODE = 21
»»>RATIONAL METHOD INITIAL SUBAREA ANALYSIS««<
*USER SPECIFIED(SUBAREA):
MULTI-UNITS DEVELOPMENT RUNOFF COEFFICIENT = .7400
INITIAL SUBAREA FLOW-LENGTH = 100.00
UPSTREAM ELEVATION = 291.00
DOWNSTREAM ELEVATION = 285.00
ELEVATION DIFFERENCE = 6.00
URBAN SUBAREA OVERLAND TIME OF FLOW(MINUTES) = 3.566
*CAUTION: SUBAREA SLOPE EXCEEDS COUNTY NOMOGRAPH
DEFINITION. EXTRAPOLATION OF NOMOGRAPH USED.
TIME OF CONCENTRATION ASSUMED AS 6-MINUTES
100 YEAR RAINFALL INTENSITY(INCH/HOUR) = 6.325
SUBAREA RUNOFF(CFS) = 1.40
TOTAL AREA(ACRES) = 0.30 TOTAL RUNOFF(CFS) = 1.40
END OF RATIONAL METHOD ANALYSIS
Post-Dev.doc
40 50 1
Duration
3 4
Hours
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
appllcaple to Desert).
(3) Plot 6 hr precipitation on the right side of the chart.
(4) Draw a line through fhe point parallel to the plotted lines.
(5) This line is the intensity-duration curve for Ihe location
being analyzed.
to %(2)
24
Application Form:
(a) Selected frequency J_^0^_ year
(b) Pg = 2^1_ in., P24 = h3__ ,
(c) Adjusted Pg'^) = in.
(d) tj^ = _i 0 min.
(e) I = in./hr.
Note: This chart replaces the Intensity-Duration-Frequency
curves used since 1965.
P6 1 1.5 '2 2.5 3 3.5 4 4.5 5 5.5 6
Duration 1
•|'" i 1 i 1 i 1 1 1 1
5 263 3.95 527 659 790 922 10 54 11 86 13 17 14 49 1581
7 2.12 3.18 4.24 i 5.30 a 36 7.42 8 48 9.54 10 60 11,66i 12.72
10 iTei" 2.53 3 37 4.21 5^65 5.90; 6.74 758 8 42 9 27 10 11
15 1 30 1.9512 59 324 3.89 4.54 5.19 5.84 6 49 7.13 7 78
20 1.08 1.62 2.15 2.69 323 3 77 4 31 4 85 5.39 593 646
" 25 0.93 1.40 1.87 233 280 327 3 73 4 20 4 67 5 13 5 60
30 o:83 l!24 1 66 2.07 2.49 2 90 3 32 3 73 4 15 4 56 4 98
40 6.69 1 03 1 38 1.72 2.07 2.41 2.76 3 10 3 45 3 79 4 13
SO 0.60 0.90 1.19 1 49 1 79 2.09 2 39 2.69 2.98 3 28 3 58
60 0.53 0.80 1.06 1.33 1.59 1 86 2.12 239 265 2 92 3 18
90 0^41 0.61 082 1.02 1.23 1.43 1.63 1.84 204 2.25 2.45
126 034 0.51 0.68 0.85 1.02 1.19 1 36 1.53 1 70 1 87 204
ISO 0.29 6^44 0.59 0.73 0.88 1 03 1 18 1.32 1 47 1 62 1 76
iiui 0.26 6.39 0.52 0.65 0.78 091 1.04 1.18 1 31 • 1 44 1 57
240 '0.22' 0.33 0.43 0.54 10.65 0.76 0.87 0.98 1.08 1.19 1.30
300 0.19 0.28 6.38 047 6.56 6.66 0.75 0.85 0.94 i 1^03 1.13
360 6.17 6;25 6.33 0 42 OSO 6.58 067 0.75 0.84 i 092 1 00
Intensity-Duration Design Chart - Template
HazMat/Counly. , jgeology Manual/lnLDur Design Chart.FHB
3-1
FIGU R E
C|^Y OF SAN DIEGO
DWRTHEHT OF SANITATION £.
FLOOD CONTROL lOO-YEAETS-HOUlI PJ?ECIP!TATIOij
^IW-y ISOPLUVIALS
pnECiFiTATion in
33
OF 100-YEAR 6-HOUR
EHTMS or AM i;:c!i
Prepn
U.S. DEPARTMEN
NATIONAL OCEANIC AND AT."
SPECIAL STUDIES URA.SCll, OFFICE OF II
OF SAN DIEGO
DEPAHTHENT OF SANITATION S-
FLOOD CONTROL
'i5
33'
30'
15
h5'
U.S. DEPARTMEN
NATIONAL OCEANIC AND AT:.
SPECIAI. STUDIES UKANCII. OFI ICE Ot II
100-YEAn%-[IOl n PRECIPITATIOM
^2Q-^ISGPLU\/iALS OF 100-YEAR 24-imUR
PRECIPITATION IN ENTHS OF AN INCH
30' —
nil
•i by
r OF COMMERCE
OSPIIEKIC AD.MINISTRATIUN
UUOLOCY, NATIONAL WEATIIEK SEKVICE
/,ljl 30' jr. I 17' 30' If-,' no-
INSERT
MAP
HERE