HomeMy WebLinkAboutCT 01-05; CALAVERA HILLS VILLAGE W; HYDROLOGY STUDY ADDENDUM #3; 2003-09-12HYDROLOGY STUDY ADDENDUM #3
FOR
CALAVERA HILLS II
Job No. 98-1020
September 12,2003
Revised: October 24,2003
Prepared by:
O'DAY CONSULTANTS, INC.
2710 Loker Avenue West, Suite 100
Carlsbad, Califomia 92008-6603
Tel: (760)931-7700
Fax: (760) 931-8680
Keith W. Hansen Date
RCE 60223 Exp. 6/30/04
Table of Contents
Introduction 3
Analysis 3
Conclusion 6
Appendices
Appendix A - Conveyance System Exhibits
Appendix B - Pipe Analysis
W:\MSOFFICE\WINWORD\981020\HydiDlogy Addendum 3.doc
Introduction
This report is an addendum to Hydrology Study for Calavera Hills Phase II dated May 3,
2002.
This report addresses the stormwater runoff discharge rates out of the two pipes leaving
Node 126 and two pipes leaving Node 130 and pipe characteristics (see Appendix A).
One pipe (PI) leaving Node 126 slopes southeasterly and into a pollution prevention
basin located at the southerly comer of the site. The second pipe (P2) leaving Node 126
slopes southerly into a storm drainage conveyance system located along College
Boulevard.
One pipe (P3) leaving Node 130 slopes easterly and into a pollution prevention basin
located at the southerly comer of the site. The second pipe (P4) leaving Node 130 slopes
southeasterly and continues through the storm drainage conveyance system along College
Boulevard.
Pl and P3 convey flows that require BMP treatment, and larger flows are conveyed via
P2 and P4. Flows discharged through PI and P3 flow through the pollution prevention
basin and then discharged into the storm drainage conveyance system along College
Boulevard.
Analysis
PI and P3 are sized to convey the peak flows generated by a rainfall intensity (Iavg) of 0.2
inches per hoxar. This is the rainfall intensity recommended on Table 3. Numeric Sizing
Treatment Standards of the Standard Urban Storm Water Mitigation Plan Storm Water
Standards for City of Carlsbad Public Work Department.
P2 and P4 are sized to convey the 1 OO-year peak flows generated by the upstream areas.
These flow analysis were addressed on the Hydrology Study for Calavera Hills Phase II
and Drainage Study for Calavera Hills - Village W reports. The peak flows entering P2
and P4 are approximately 36.19 and 109.12 cfs respectively.
The total area (A) leaving Node 126 is approximately 22.64 acres. The runoff coefficient
(C) used for this site is 0.55. The C and A values are taken from the Drainage Study for
Calavera Hills - Village W report. The required average peak flow to be treated is
determined as follows:
Qave = C*Iave*A
Qave = 0.55*0.2*22.64 = 2.49 cfs
Pl is an eight-inch diameter pipe with a 7.31 percent slope and is sized to adequately
convey the required peak flow for treatment (see Appendix B). The pipe will be under
pressure flow and the Manning's equation was used to approximate the pipe size required
to convey approximately 2.49 cfs. The Marming's equation is shown below
Q = (1.49/n)*A*(R^0.67)*(S'^0.5)
Where,
A = Pipe Area (sqft)
R = Hydraulic Radius (ft)
S = Longitudinal Slope of Pipe (ft/ft)
so
D = ((Q*n)/(0.464*S^0.5))^(I/2.67)
and
S = ((Q*n)/(0.464*D^2.67))^2
A slope (S) approximated to determine the required pipe diameter for the low flow was
calculated by subtracting the high flow discharge elevation, 167.70 (inlet elevation for
P2) and low flow outiet elevation, 159.60 (outlet elevation for PI) and dividing it by the
length of the low flow pipe, 99.36. The slope in this case is 8.15 percent and using the
Manning's equation with a peak flow of 2.49 cfs and Manning's "n" of 0.011 yields an
approximate pipe diameter of 6.6 inches. An eight-inch diameter pipe will be used since
a six-inch diameter would yield approximately 173 feet water surface elevation at Node
126. This water surface elevation is greater than the water surface elevation calculated
(169.89) in the Drainage Study for Calavera Hills - Village W dated November 26,2002.
An eight-inch diameter pipe through the pipe slope of 7.31 percent and a Marming's "n"
of O.OI I will yield approximately 3.86 cfs.
The 100-year peak flow out of the low flow pipe (Pl) was then approximately using the
water surface elevation at Node 126. A slope was calculated by taking the water surface
elevation at Node 126 (169.89) during the I OO-year storm and subtracting the low flow
outiet elevation (159.60) and dividing it by the length of the low flow pipe (99.36). The
slope during the 1 OO-year storm is approximately 10.36 percent. The peak flow out of PI
during the 100-year storm using the above Manning's equation is approximately 4.60 cfs.
The total area (A) leaving Node 130 is approximately 45.54 acres. The 45.54 acres is a
combined upstream portions of Village W, U, Y, X and College Boulevard.
An average C value was approximated based on the individual site uses and are indicated
as follows:
Village Area (ac) C C*Area
U 13.50 0.70 9.45
Y(A1) 0.38 0.85 0.32
Y(A2) 0.20 0.98 0.20
X 16.38 0.55 9.01
College Blvd. 15.08 0.98 14.78
Sum 45.54 4.06 33.76
Cavg = 33.76/45.54 = 0.74
The areas are taken from the Hydrology Study for Calavera Hills Phase II report. The
required average peak flow to be treated is detennined as follows:
Qave = Cavg*Iave* A
Qave = 0.74*0.2*45.54 = 6.74 cfs
P3 is a ten-inch diameter pipe with a 9.70 percent slope and is sized to adequately convey
the required peak flow for freatment (see Appendix B). The pipe will be under pressure
flow and the Manning's equation was used to approximate the pipe size required to
convey approximately 6.74 cfs. The Manning's equation is shown below
Q = (1.49/n)*A*(R^0.67)*(S^0.5)
Where,
A = Pipe Area (sqft)
R = Hydraulic Radius (ft)
S = Longitudinal Slope of Pipe (ft/ft)
so
D = ((Q*n)/(0.464*S^0.5))^(l/2.67)
and
S = ((Q*n)/(0.464*D^2.67))^2
A slope (S) approximated to determine the required pipe diameter for the low flow was
calculated by subfracting the high flow discharge elevation, 177.87 (inlet elevation for
P4) and low flow outlet elevation, 159.60 (outlet elevation for P3) and dividing it by the
length of the low flow pipe, 171.71. The slope in this case is 10.64 percent and using the
Manning's equation with a peak flow of 6.74 cfs and Manning's "n" of O.OI 1 yields an
approximate pipe diameter of 9.2 inches. A ten-inch diameter pipe will be used. A ten-
inch diameter pipe through the pipe slope of 9.70 percent and a Manning's "n" of 0.011
will yield approximately 8.07 cfs.
The 1 OO-year peak flow out of the low flow pipe (P3) was then approximately using the
water surface elevation at Node 130. A slope was calculated by taking the water surface
elevation at Node 130 (180.80) during the lOO-year storm and subfracting the low flow
outlet elevation (159.60) and dividing it by the length of the low flow pipe (171.71). The
slope during the I OO-year storm is approximately 12.35 percent. The peak flow out of P3
during the 1 OO-year storm using the above Manning's equation is approximately 9.11 cfs.
The permanent pollution prevention basin discharge pipe is designed to convey the peak
flows entering the permanent pollution basin. The peak flow that will enter the
permanent pollution prevention basin during a 1 OO-year storm is approximately 13.71 cfs.
The discharge pipe will be a 36-inch diameter pipe with a 6.62 percent slope and will
adequately convey 13.71 cfs of flow.
Conclusion
The required stormwater runoff peak flows for BMP freatment will be conveyed to the
permanent pollution prevention basin located at the southerly comer of Village W. Pl
and P3 are sized to convey approximately 3.86 and 8.07 cfs respectively and will convey
approximately 4.60 and 9.11 cfs respectively during the 1 OO-year storm. The discharge
pipe out of the permanent pollution prevention basin is sized to adequately convey 13.71
cfs.
APPENDIX A
APPENDIX B
Low Flow Pipe (P1)
Durinq 85th Percentile Storm
Qwq: 2.49 cfs
Manning's "n": 0.011
High Flow Inlet Elevation (E1): 167.70 ft
Low Flow Outlet Elevation (E2): 159.60 ft
Length of Low Flow Pipe (L): 99.36 ft
Calculated Slope (Sc): 0.0815 ft/ft
S = (E1-E2)/L
Required Pipe Diameter (D): 0.55 ft = 6.6 in
D = ((Qwq *n)/(0.464*Sc^0.5))^(1/2.67)
Actual Pipe Diameter (Da): 8 in = 0.67 ft
Low Flow Pipe Longitudinal Slope (S): 0.0731 ft/ft
QLFactual: 3.86 cfs
QLFactual = (4.64/n)*(Da''2.67)*(S''0.5)
Pipe Area, Pipe Flowing Full (A): 0.35 ft'^2
A=(3.14*D^2)/4
Velocity (VLF): 11.07 fps
VLF = QLFactual/A
During 100-vear Storm
High Flow Inlet Elevation (El): 169.89 ft
Low Flow Outlet Elevation (E2): 159.60 ft
Length of Low Flow Pipe (L): 99.36 ft
Calculated Slope (Scioo): 0.1036 ft/ft
S = (E1-E2)/L
Qactual (lOO-yr): 4.60 cfs
Qactual (100-yr) = (4.64/n)*(Da''2.67)*(Sc100''0.5)
Velocity (VLF): 13.17 fps
VLF = QLFactual/A
G:\jobs\2002\981020\Calcs\9820CHVilHLowFIPipe.xls
Low Flow Pipe (P3)
During 85th Percentile Storm
Qwq:
Manning's "n":
High Flow Inlet Elevation (El):
Low Flow Outlet Elevation (E2):
Length of Low Flow Pipe (L):
Calculated Slope (Sc):
S = (E1-E2)/L
Required Pipe Diameter (D): 0.77 ft = 9.2 in
D = ((Qwq*n)/(0.464*Sc''0.5))''(1/2.67)
Actual Pipe Diameter (Da): 10 in = 0.83 ft
Low Flow Pipe Longitudinal Slope (S):
QLFactual:
Q LFactual = (4.64/n) *(D a "2.67) *(S''0.5)
Pipe Area, Pipe Flowing Full (A):
A = (3.14*D''2)/4
Velocity (VLF):
VLF = QLFactual/A
6.75 cfs
0.011
177.87 ft
159.60 ft
171.71 ft
0.1064 ft/ft
0.77 ft
10 in
0.097 ft/ft
8.07 cfs
0.55 ft'^2
14.80 fps
During 100-vear Storm
High Flow Inlet Elevation (E1): 180.80 ft
Low Flow Outlet Elevation (E2): 159.60 ft
Length of Low Flow Pipe (L): 171.71 ft
Calculated Slope (Scioo): 0.1235 ft/ft
S = (E1-E2)/L
Qactual (100-yr): 9.11 cfs
Qactual (100-yr) = (4.64/n)*(Da^2.67)*(Sc100''0.5)
Velocity (VLF): 16.70 fps
VU= = QLFactual/A
G:\jobs\2002\981020\Calcs\9820CHVilHLowFIPipe.xls
O'Day Consultants Inc.
2710 Loker Avenue West, Suite 100
Carlsbad, CA 92008
Tel: (760) 931-7700 Fax: (760) 931-8680
Inside Diameter
( 36.00 in.)
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Water ^
I
I
* ( 6.88 in.)
( 0.574 ft.)
I
I
V
Circular Channel Section
Permanent Pollution Prevention Basin
Discharge Pipe
Depth of Flow During 100-yr Storm
Flowrate 13.720 CFS
Velocity 14.539 fps
Pipe Diameter 36.000 inches
Depth of Flow 6.885 inches
Depth of Flow 0.574 feet
Critical Depth 1.183 feet
Depth/Diameter (D/d) 0.191
Slope of Pipe 6.620 %
X-Sectional Area 0.944 sq. ft,
Wetted Perimeter 2.716 feet
AR'^(2/3) 0.467
Mannings 'n' 0.013
Min. Fric. Slope, 36 inch
Pipe Flowing Full 0.042 %