HomeMy WebLinkAboutCT 02-01; PACIFIC VIEW CONDOMINUMS; HYDRAULIC CALCS PACIFIC VIEW CONDOS; 2002-04-30I fiieeroz>-oi
HYDRAULIC CALCULATIONS
FOR
PACIFIC VIEW CONDOMINIUMS
DATE: April 30, 2002
PREPARED BY:
SAN DIEGO LAND SURVEYING AND ENGINEERING INC,
9619 CHESAPEAKE DRIVE, SUITE 204
SAN DIEGO, CA. 921123
CITY OP CARLSBAD CT 02-01/CP02-03/CDP 02-03
DRAWING NUMBER
ENGINEER OF WORK:
MICHAEL L. SMITH, RCE 35471
MY REGISTRATION EXPIRES ON
9/30/2003
HYDRATJLIC CALCULATIONS April 30, 2002
PROJECT: PACIFIC VIEW CONDOMINIUMS CITY CDP 02-03
CITY OP CARLSBAD
PROJECT DESCRIPTION: THE SITE IS VACANT. THE SURROUNDING AREA IS
DEVELOPED WITH SINGLE RESIDENTIAL UNITS. THE SITE DRAINS
NATURALLY TO THE SOUTHEAST. PROPOSED IMPROVEMENT CONSIST OF FILL,
THE CONSTRUCTION OF 6 RESIDENTIAL UNITS, PARKING AND A ONSITE
STORM DRAIN SYSTEM. FOR DRAINAGE AREAS SEE ATTACHED 20 SCALE
DRAINAGE AREAS MAP.
ZONE 1: AREA = 0.2293 AC.
RUNOFF FOR SINGLE-FAMILY RESIDENTIAL DEVELOPMENT C = .55
TIME OF CONCENTRATION: FOR SMALL DRAINAGE AREAS USE 5 MINUTES
INTENSITY (100 YEAR STORM) FROM EQUATION ON APPENDIX A = 4.40
Q=CxIxA =.55x4.40x 0.2293 AC. = 0.56 CFS
THIS OFF SITE WATER IS COLLECTED IN INLETS OR ROOF DRAINS AND WILL
DISCHARGE THROUGH THE EXISTING WALL. IT WILL BE CONNECTED TO THE
PROPOSED STORM DRAIN SYSTEM.
STORM DRAIN DESIGN:
8" PVC GRADE =1.00% N = .011 Q = 0.56 CFS
Dn = 3.4" V = 3.82 F/S
FOR CALCULATION SEE APPENDIX Bl
ZONE 2: AREA = 0.0543 AC.
RUNOFF FOR SINGLE-FAMILY RESIDENTIAL DEVELOPMENT C = .55
TIME OF CONCENTRATION: FOR SMALL DRAINAGE AREAS USE 5 MINUTES
INTENSITY (100 YEAR STORM) FROM EQUATION ON APPENDIX A = 4.40
Q=CxIxA =.55x4.40x 0.0543 AC. = 0.13 CFS
THIS OFF SITE WATER IS COLLECTED IN INLETS OR ROOF DRAINS AND WILL
DISCHARGE THROUGH THE EXISTING WALL. IT WILL BE COLLECTED IN A
PROPOSED INLET AND THEN THE PROPOSED STORM DRAIN SYSTEM.
STORM DRAIN DESIGN:
8" PVC GRADE = 1.00% N = .011 Q = 0.13 CFS
Dn - 1.6" V = 2.55 F/S
FOR CALCULATION SEE APPENDIX B2
TOTAL RUNOFF OUT OF ZONE 1 = 0.56 -i- 0.13 = 0.69 CFS
STORM DRAIN DESIGN:
8" PVC GRADE = 1.00% N = .011 Q = 0.69 CFS
Dn = 3.9" V = 4.06 F/S
FOR ClALCULATION SEE APPENDIX B3
PAGE 2
ZONE 3: AREA = 0.1192 AC.
RUNOFF FOR SINGLE-FAMILY RESIDENTIAL DEVELOPMENT C = .55
TIME OF CONCENTRATION: FOR SMALL DRAINAGE AREAS USE 5 MINUTES
INTENSITY (100 YEAR STORM) FROM EQUATION ON APPENDIX A = 4.40
Q=CxIxA =.55x 4.40 x 0.1192 AC. = 0.29 CFS
THIS ON SITE WATER IS COLLECTED IN AN INLET. IT WILL BE CONNECTED
TO THE PROPOSED STORM DRAIN SYSTEM.
TOTAL RUNOFF OUT OF ZONE 3 = 0.69 -i- 0.29 = 0.98 CFS
STORM DRAIN DESIGN:
8" PVC GRADE =1.00% N = .011 Q = 0.98 CFS
Dn » 4.9" V = 4.41 F/S
FOR CALCULATION SEE APPENDIX B4
ZONE 4: AREA = 0.0758 AC.
RUNOFF FOR SINGLE-FAMILY RESIDENTIAL DEVELOPMENT C = .55
TIME OF CONCENTRATION: FOR SMALL DRAINAGE AREAS USE 5 MINUTES
INTENSITY (100 YEAR STORM) FROM EQUATION ON APPENDIX A = 4.40
Q=CxIxA =.55x4.40x 0.0758 AC. = 0.18 CFS
THIS ON SITE WATER IS COLLECTED IN AN INLET. IT WILL BE CONNECTED
TO THE PROPOSED STORM DRAIN SYSTEM.
TOTAL RUNOFF OUT OF ZONE 4 = 0.98 -i- 0.18 = 1.16 CFS
STORM DRAIN DESIGN:
8" PVC GRADE =1.00% N = .011 Q = 1.16 CFS
Dn » 5.5" V = 4.56 F/S
FOR CALCULATION SEE APPENDIX B5
ZONE 5: AREA = 0.1530 AC.
RUNOFF FOR SINGLE-FAMILY RESIDENTIAL DEVELOPMENT C = .55
TIME OF CONCENTRATION: FOR SMALL DRAINAGE AREAS USE 5 MINUTES
INTENSITY (100 YEAR STORM) FROM EQUATION ON APPENDIX A = 4.40
Q=CxIxA =.55x 4.40 x 0.1530 AC. = 0.37 CFS
THIS ON SITE WATER WILL SHEET FLOW TO CARLSBAD BLVD. AND FLOW IN
THE EAST GUTTER.
PAGE 3
ZONE 6: AREA = 0.0400 AC.
RUNOFF FOR SINGLE-FAMILY RESIDENTIAL DEVELOPMENT C = .55
TIME OF CONCENTRATION: FOR SMALL DRAINAGE AREAS USE 5 MINUTES
INTENSITY (100 YEAR STORM) FROM EQUATION ON APPENDIX A = 4.40
Q=CxIxA =.55x4.40x 0.0400 AC. = 0.10 CFS
THIS ON SITE WATER WILL SHEET FLOW TO JUNIPER AVE. AND FLOW IN THE
SOUTH GUTTER TO THE RELOCATED INLET.
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APPENDIX A
ZONE 1:8" PVC AT1.0%
Worksheet for Circular Channel
Project Description
Prpject File c:\haestad\fmw\carisbad.frTi2
Worksheet PRIVATE STORM DRAIN SYSTEM
Flow Element Circular Channel
Method Manning's Formula
Solve For Channel Depth
X
2
I
Input Data
Mannings Coefficient
Channel Slope
Diameter
Discharge
0.011
0.010000 ft/ft
8.00 in
0.55 cfs
Results
Depth 3.4 in
Flow Area 0.14 ft^
Wetted Perimeter 0.95 ft
Top Width 0.66 ft
Critical Depth 0.35 ft
Percent Full 43.06
Critical Slope 0.005133 ft/ft
Velocity 3.82 ft/s
Velocity Head 0.23 ft
Specific Energy 0.51 ft
Froude Number 1.44
Maximum Discharge 1.54 cfs
Full Flow Capacity 1.43 cfs
Full Flow Slope 0.001483 ft/ft
Flow Is supercritical.
04/30/02
02:20:45 PM Haestad Methods, Inc.
HOME
37 Brookside Road Waterbury, CT 06708 (203)755-1666
FlowMaster v5.08
Page 1 of 1
ZONE 2: 8" PVC AT 1.0%
Worksheet for Circular Channel
Project Description
Project File c:\haestad\fmw\carisbad.fm2
Worksheet PRIVATE STORM DRAIN SYSTEM
Flow Element Circular Channel
Method Manning's Fonnula
Solve For Channel Depth
Input Data
CO
5
a-
Mannings Coefficient
Channel Slope
Diameter
Discharge
0.011
0.010000 ft/ft
8.00 in
0.13 cfs
Results
Depth 1.6 in
Flow Area 0.05 ft*
Wetted Perimeter 0.62 ft
Top Width 0.54 ft
Critical Depth 0.16 ft
Percent Full 20.39
Critical Slope 0.004632 ft/ft
Velocity 2.55 ft/s
Velocity Head 0.10 ft
Specific Energy 0.24 ft
Froude Number 1.46
Maximum Discharge 1.54 cfs
Full Flow Capacity 1.43 cfs
Full Flow Slope 0.000083 ft/ft
Flow is supercritical.
04/30/02
02.24:15 PM Haestad Methods, Inc.
HOME
37 Brookside Road Waterbury, CT 06708 (203) 755-1666
FlowMaster vS.OS
Page 1 of 1
ZONE 1 TOTAL: 8" PVC AT 1.0%
Worksheet for Circular Channel
Project Description
Project File c:\haestad\fmw\carisbad.fm2
Worksheet PRIVATE STORM DRAIN SYSTEM
Flow Element Circular Channel
Method Manning's Formula
Solve For Channel Depth
CO
CO
X
Q
Input Data
Mannings Coefficient 0.011
Channel Slope 0.010000 ft/ft
Diameter 8.00 in
Discharge 0.69 cfs
Results
Depth 3.9 in
Flow Area 0.17 ft*
Wetted Perimeter 1.03 ft
Top Width 0.67 ft
Critical Depth 0.39 ft
Percent Full 49.01
Critical Slope 0.005511 ft/ft
Velocity 4.06 ft/s
Velocity Head 0.26 ft
Specific Energy 0.58 ft
Froude Number 1.42
Maximum Discharge 1.54 cfs
Full Flow Capacity 1.43 cfs
Full Flow Slope 0.002335 ft/ft
Flow is supercritical.
04/30/02
02:25:46 PM Haestad Methcxls, Inc. HOME
37 Brookside Road Waterbury, CT 06708 (203) 755-1666 FlowMaster v5.08
Page 1 of 1
ZONE 3: 8" PVC AT 1.0%
Worksheet for Circular Channel IT
CO
Project Description
Project File c:\haestacl\frnw\carisbad.fm2
Worksheet PRIVATE STORM DRAIN SYSTEM
Flow Element Circular Channel
Method Manning's Fomriula
Solve For Channel Depth
Input Data
Mannings Coefficient
Channel Slope
Diameter
Discharge
0.011
0.010000 ft/ft
8.00 in
0.98 cfs
Results
Depth 4.9 in
Flow Area 0.22 ft*
Wetted Perimeter 1.19 ft
Top Width 0.65 ft
Critical Depth 0.47 ft
Percent Full 60.84
Critical Slope 0.006606 ft/ft
Velocity 4.41 ft/s
Velocity Head 0.30 ft
Specific Energy 0.71 ft
Froude Number 1.33
Maximum Discharge 1.54 cfs
Full Flow Capacity 1.43 cfs
Full Flow Slope 0.004709 ft/ft
Flow is supercritical.
04/30/02
02:28:53 PM
HOME
Haestad Methods, Inc. 37 Brookside Road Waterbury, CT 06708 (203) 755-1666
FlowMaster v5.08
Page 1 of 1
ZONE 4: 8" PVC AT 1.0%
Worksheet for Circular Channel
Project Description \
Project File c:\haestad\fmw\carisbad.fm2
Worksheet PRIVATE STORM DRAIN SYSTEM
Flow Element Circular Channel
Method Manning's Fonnula
Solve For Channel Depth
V)
Input Data
Mannings Coefficient
Channel Slope
Diameter
Discharge
0.011
0.010000 ft/ft
8.00 in
1.16 cfs
Results
Depth 5.5 in
Flow Area 0.25 ft*
Wetted Perimeter 1.30 ft
Top Width 0.62 ft
Critical Depth 0.51 ft
Percent Full 68.42
Critical Slope 0.007565 ft/ft
Velocity 4.56 ft/s
Velocity Head 0.32 ft
Specific Energy 0.78 ft
Froude Number 1.25
Maximum Discharge 1.54 cfs
Full Flow Capacity 1.43 cfs
Full Flow Slope 0.006598 ft/ft
Flow is supercritical.
04/30/02
03:11:01 PM Haestad Methods, Inc.
HOME
37 Brookside Road Waterbury, CT 06708 (203) 755-1666
FlowMaster vS.08
Page 1 of 1
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