HomeMy WebLinkAboutCT 00-06; BRESSI RANCH MASTER; SANITARY SEWER RPT BRESSI RANCH; 2002-05-01SANITARY SEWER REPORT
BRESSI RANCH
TM CT 00-06
CARLSBAD, CA
MAY 2002
Prepared For:
LENNAR COMMUNITIES
c/o LENNAR BRESSI VENTURE, LLC
5780 Fleet Street, Suite 320
Carlsbad, CA 92008
RECEIVED
DEPARTMENT
Prepared By:
PROJECTDESIGN CONSULTANTS
PLANNING • ENVIRONMINTAI • ENCiNewNc • .SURVEY/GPS
701 B Street, Suite 800, San Diego, CA 92101
619-235-M71 FAX 619-234-0349
Job No. 1325.50
Gregdi^. Shields RCE 42951
Registration Expires 07/15/03
PreparedBy: KLM
Checked By: BDS
TABLE OF CONTENTS
Page
1.0 INTRODUCTION 1
2.0 DESCRIPTION OF STUDY AREA 1
3.0 PROPOSED SANITARY SEWER IMPROVEMENTS 1
4.0 ESTIMATED SEWAGE FLOW 3-4
5.0 DESIGN CRITERIA 5
6.0 DESIGN FLOW AND HYDRAULIC CALCULATIONS 5-7
7.0 CONCLUSION 8
FIGURES
1 Location Map ^
TABLES
1 Total Equivalent Dwelling Units per Planning Area 4
2 Industrial Build-Out Projects 4
3 Sewer System Calculations - System A 6
4 Sewer System Calculations - System B 7
APPENDICES
A Handbook of Hydraulic Tables
B LFMP Non-Residential Build-Out Projections
C Unit Flow Generation Factors
ATTACHMENTS
Exhibit A - Sewer System
REPORT/13255SSR-2.DOC
1.0 INTRODUCTION
This sanitary sewer report has been prepared to document the preliminary design and supporting
calculations for the sewer system associated with the proposed development of Bressi Ranch
Tentative Map CT 00-06 within the City of Carlsbad, and in accordance with City of Carlsbad
standards.
2.0 DESCRIPTION OF STUDY AREA
The property, with a total acreage of approximately 585.1 acres, is located southeast of the
intersection of El Camino Real and Palomar Airport Road in the City of Carlsbad, Califomia.
Please refer to the location map on Page 2. The site consists of an irregular-shaped piece of
property bordered on the north by Palomar Airport Road, on the west by El Camino Real, on the
southwest and south by undeveloped property, and by the Rancho Carrillo development to the
east.
3.0 PROPOSED SANITARY SEWER IMPROVEMENTS
The site is divided into two separate sewer collector systems: System A and System B (see
attached Exhibit A). System A begins at Poinsettia Lane and extends northerly in El Fuerte
Street. It branches off to Street 'B' and extends easterly on Street 'C. System B begins at
Alicante Road extending northerly to Street 'D'. This system branches off to Street 'A' and
Street 'D' extending both east and west. Depending on constmction timing and feasibility, a
potential future gravity sewer will serve Planning Area 1. The potential sewer facilities will flow
south on Street 'G' to La Costa Greens, south of Bressi Ranch adjacent to El Camino Real.
REPORT/13255SSR-2.DOC
MELROSE
DRIVE
POINSETTIA
LANE
Figure 1. Location Map
JMjmSSRDOC
4.0 ESTIMATED SEWAGE FLOW
The Tentative Map proposes to develop 623 dwelling units and 2,160,000 square feet of
industrial space, and 268,000 square feet of commercial/mixed use space (see Appendix B for
Non-Residential Build-Out Projections), which will be serviced by proposed sewer mains in
Poinsettia Lane, Alicante Road, and Street 'G'. For this study, it was conservatively calculated to
convert square feet of building to Equivalent Dwelling Units EDUs), and assume 1,800 square
feet per EDU (see Appendix C, Table 5-1 Unit Flow Generated). See Tables 1 and 2 for the total
EDUs per planning area.
REPORT/13255SSR-2.DOC
TABLE 1: TOTAL EQUIVALENT DWELLING UNITS PER PLANNING AREA
PLANNING GENERAL PLAN NET AREA MAX. BLDG. S.F. RESIDENTIAL EQUIVALENT TOTAL
AREA DESIGNATION ACRES IDENTIFIED IN D.U. EDU'S EDU'S
BRESSI RANCH
MASTER PLAN*
1 PI 2.5 36,970 -20 20
2 PI 23.8 351,950 -196 196
3 PI 47.0 695,027 -386 386
4 PI 44.0 650,664 -361 361
5 PI 27.7 409,623 228 228
6 RM 11.5 -63 63
7 RMH 18.3 -94 94
8 RMH 18.6 -96 96
9 RLM 24.1 66 66
10 RLM 26.9 • 86 66
11 RLM 23.2 -25 25
12 RLH 21.4 -93 93
13 CF/P 13.6 138,000 -77 77
14 PI 1.1 16,267 -9 9
15 PH/L/CF 26.7 130,000 100 72 172
TOTAL 623 1,349 1,972
* Master Plan Identified a total of 2,160,500 building square footage for Planning Areas 1-5 & 14,
The foilowing table summarizes the building areas per Planning Area:
TABLE 2: INDUSTRIAL BUILD OUT PROJECTIONS
Planning Net Area (Acres) Percent Total Building Sq. Ft.
Area Area
1 2.5 1.7% 36,970
2 23.8 16.3% 351,950
3 47 32.2% 695,027
4 44 30.1% 650,664
5 27.7 19.0% 409,623
14 1.1 0.8% 16,267
Total 146,1 100.00% 2,160,500
5.0 DESIGN CRITERIA
The criteria used in the design of the sewer system are established within the City of Carlsbad
design requirements. Standard Sewer Svstem Design Criteria. May 1993. The following is a brief
summary from the above-mentioned standards:
Where D = Flow Depth, and d = pipe diameter:
8-inch diameter pipe:
1. Maximum Depth at Peak Row = Vi pipe diameter (0.33 feet); or D/d < 0.50
2. Minimum Pipe Slope = 0.40%; desirable = 0.50%
3. Minimum Sewage Flow Velocity = 2 feet/second
4. Peaking Factor = 2.5
5. Residential Sewage Generated = 220 gallons/EDU/day
6. Pipe Roughness Coefficient 'n' = 0.011 for PVC pipe
7. Maximum sewer depth shall be 16 feet. Depths greater than 16 feet require approval from
the City Engineer.
10-inch diameter pipe:
1. Maximum Depth at Peak Flow = Vi pipe diameter (0.42 feet); or D/d < 0.50
2. Minimum Pipe Slope = 0.28%; desirable = 0.40%
3. Minimum Sewage Flow Velocity = 2 feet/second
4. Ratio Peak to Average Flow = 2.5
5. Residential Demand = 220 gallons/EDU/day
6. Roughness Coefficient 'n' = 0.011 for PVC pipe
7. Maximum sewer depth shall be 16 feet. Depths greater than 16 feet require approval from
the City Engineer.
6.0 DESIGN FLOW AND HYDRAULIC CALCULATIONS
The estimated flow in each reach of 16 sewer pipelines proposed for Bressi Ranch are shown in
Tables 3 and 4 for sewer Systems A and B, respectively. The flows generated in each pipeline
reach are compared to the design criteria described in Section 5.0.
REPORT/13255SSR-2.DOC
Table 3 - Sewer System Design Flows and Calculations (See Exhibit A)
SYSTEM A
14A-12A 118 25,960 2.50 64,900 0.100 0.030 0.011 8 0.0188 0.1376 0.0651 0.029 3.47
13A-12A 137 30,140 2.50 75,350 0.117 0.020 0.011 8 0.0268 0.1631 0.0834 0.037 3.14
12A-llA 262 57,640 2.50 144,100 0.223 0.050 0.011 8 0.0324 0.1791 0.0954 0.042 5.26
llA-lOA 285 62,700 2.50 156,750 0.242 0.060 0.011 8 0.0321 0.1785 0.0949 0.042 5.75
lOA-•9A 405 89,100 2.50 222,750 0.345 0.060 0.011 8 0.0457 0.2120 0.1215 0.054 6.38
9A-3A 457 100,540 2.50 251,350 0.389 0.060 0.011 8 0.0515 0.2252 0.1325 0.059 6.60
8A-6A 61 13,420 2.50 33,550 0.052 0.030 0.011 8 0.0097 0.1003 0.0411 0.018 2.84
7A-6A 228 50,160 2.50 125,400 0.194 0.020 0.011 8 0.0445 0.2094 0.1194 0.053 3.65
6A-5A 298 65,560 2.50 163,900 0.253 0.060 0.011 8 0.0336 0.1823 0.0979 0.044 5.82
5A-4A 337 74,140 2.50 185,350 0.287 0.030 0.011 8 0.0538 0.2301 0.1366 0.061 4.72
4A-3A 375 82,500 2.50 206,250 0.319 0.030 0.011 8 0.0598 0.2427 0.1472 0.065 4.88
3A-2A 832 183,040 2.50 457,600 0.708 0.020 0.011 8 0.1625 0.4089 0.3021 0.134 5.27
2A-lA 895 196,900 2.50 492,250 0.761 0.050 0.011 10 0.0609 0.2450 0.1492 0.104 7.35
REP\13255SSR.DOC
Table 4 - Sewer System Design Flows and Calculations (See Exhibit A)
SYSTEM B
••,i't^.-
10B-9B 100 22,000 2.5 55,000 0.085 0.030 0.011 8 0.0159 0.0451 0.0515 0.0229 3.72
9B-8B 200 44,000 2.5 110,000 0.170 0.020 0.011 8 0.0391 0.1960 0.1086 0.0483 3.52
11B-8B 200 44,000 2.5 110,000 0.170 0.020 0.011 8 0.0391 0.1960 0.1086 0.0483 3.52
8B-7B 400 88,000 2.5 220,000 0.340 0.020 0.011 8 0.0781 0.2779 0.1781 0.0792 4.30
7B-5B 590 129,800 2.5 324,500 0.502 0.032 0.011 8 0.0911 0.3007 0.1988 0.0884 5.68
6B-5B 96 21,120 2.5 52,800 0.082 0.007 0.011 8 0.0307 0.1745 0.0919 0.0409 2.00
5B4B 753 165,660 2.5 414,150 0.641 0.020 0.011 8 0.1471 0.3873 0.2810 0.1249 5.13
12B4B 100 22,000 2.5 55,000 0.085 0.007 0.011 8 0.0321 0.1784 0.0949 0.0422 2.02
4B-3B 902 198,440 2.5 496,100 0.767 0.005 0.011 8 0.3524 0.6530 0.5430 0.2413 3.18
3B-2B 902 198,440 2.5 496,100 0.767 0.005 0.011 8 0.3524 0.6530 0.5430 0.2413 3.18
14B-13B 34 7,480 2.5 18,70(J 0.029 0.030 0.011 8 0.0054 0.0759 0.0272 0.0121 2.39
13B-2B 89 19,580 2.5 48,950 0.076 0.060 0.011 8 0.0100 0.1017 0.0420 0.0186 4.06
2B-1B 1077 236,940 2.5 592,350 0.916 0.070 0.011 8 0.1125 0.3356 0.2313 0.1028 8.91
REP\13255SSR.DOC
7.0 CONCLUSION
It was determined that an 8-inch and 10-inch PVC pipe was suitable to carry the service flow
without exceeding the criteria of depth of peak flow < V2 pipe diameter or D/d < 0.5. The pipes'
minimum velocity requirement of 2 fps was maintained, as well as the minimum slope of 0.40%.
Sewer depth ranges from 8 feet to 16 feet maximum. Depths greater than 16 feet require
approval from the City Engineer.
REPORT/13255SSR-2.DOC
APPENDIX A
HANDBOOK OF HYDRAULIC TABLES
REPORT/13255SSR-2.DOC
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APPENDIX B
LFMP NON-RESIDENTIAL
BUILD-OUT PROJECTIONS
REPORT/13255SSR-2.DOC
EXHIBIT 12
ZONE 17 - LFMP NON RESIDENTIAL BUILD OUT PROJECTIONS
CCNtRAL PLAN
LANDUSE
DEJSICNATIOM
BRESSI RANCH
MASTER PLA.N
PLANNING ABCA
NET
DCVELOTABLE
ACRES
NON-RESIDCNTUL
LANDUSE
INTENSITY
ESTIMATE
MAXIMUM SQ.Fr.
ALLOWED BY
LAND USE
INTENSITY
MAXIMUM SQ.FT.
IDENTIFIED IN
BRCSSI RANCH
MASTER PLAKCUP)
BUILDOUT
PROJECTIONS
(2)
EXISTING
SQ.FT.
APPROVED
SQ.rr.
ESTIMATED
FLTURE
SQ.rr.
CF/P PA 13 11.6 177,725 131.000 138.000 0.0 0.0 138,000
CJ/F TOTAL 13.6 177,72* iM,oin OLO 0.S I3«,0M
Pl-I - PW PAI PA $ AM M I4«.t l,9Ci?,a5 2,160,^ 2,160,500 0.0 0.0 2,160.500
I'l TOTAL 2,160,500 a.o 2,160,500 I'l TOTAL
CF (RHrtJCF)
PA »(>len-
Reudmtial) 21 4 30% 279,655 130,000 130,000 0.0 0.0 130,000
MIXMUM Total (4) 21.4 279,6SS IMyOU 0.0 0.» 130,060
1 -memmm 1M.1 1 liOSOM 0,0 ao 2,«2«s«»|
(0 This column f«|>reMnts those non-reitdemisl square fooU(u jdentided in the B(csil Raoeh Masnr Plan. Extd square rooti«es \«ere not identifled for all piumins
trus within ill* Mister Plan. Where ihis occun. the maximum iqnatc foetiBc allowed was cilculatad based on Orowth Manuemeni procediues.
(2) The Build Oul Pro/ectiont ii Iht ntixlimiin square fooufc aUoofed wilhin Zone IT baaed on the Breui Ranch Muier Plan or Growth Mwaiement.
0) Total ol'2.160,500 squara I'eei, whidt equam to 15,000 ADT bastd on an usmnption of 40% Lighl JndusDial. 40% Research uid Developrnent and 20% ORice. This
breikdown or uses was used fur trslTic /nodeling purposes. The petuentasci of the vuious lues may vity tt the time ofdevelopmeni at iong la the traffic geneiattd by
the uses in Planning Areas 1,2. 3. 4 ind 3 does not exceed 15.000 ADT
(4) Represenu the portion ufthr KH/VCf zone ivailable tor non-residential development A minimum oti.} acres within the same pluming uea would be needed for
tiic development of IOO high density residcntis] uniu.
May 10. 2002 DRAFT-Zone 17 LFMP
APPENDIX C
UNIT FLOW GENERATION FACTORS
REP0RT/13255SSR-2.D0C
Table 5-1
General
To convert Equivalent Dwelling Units to flow assume 220
gallons per day average flow.
Commercial Property
To convert raw land to square feet ofbuilding space assume
30 percent coverage.
To convert improved pads to square feet of building space
assume 40 percent coverage.
To convert square feet ofa building to Equivalent Dwelling
Units assume 1,800 square feet per EDU.
Industrial Property
To convert raw land to square feet ofbuilding space assume
30 percent coverage.
To convert improved pads to square feet of building space
assume 40 percent coverage.
To convert square feet ofbuilding to Equivalent Dwelling
Units assume 60 percent of space is warehouse and 40
percent is office. For warehouse space 5,000 square feet
equals one EDU and for office 1,800 square feet equals one
EDU.
46