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Home My WebLink AboutPIP 06-10; BRESSI RANCH INDUSTRIAL LOTS; SEWER REPORT; 2007-02-21CAA- 0 SEWER REPORT BRESSI RANCH Lots 19-22 February 21, 2007 Prepared For: CITY OF CARLSBAD Prepared By: PROCTDESIGN CONSTANT$ PLANNING • ENVIRONMENTAL • ENGINEERING'. SuRvE/GPS 701 B Street. Suite 800, San Diego, CA 92101 619-235-6471 FAX 619-234-0349 Job No. 3370.10 L A~ Curtis J.Tume RCE 59285 Registration Expires 6/30/07 I 'No. 59285 Prepared By: KO Checked By: NP Pzi' O&-( 1.0 INTRODUCTION This sanitary sewer report has been prepared to document the final design and supporting calculations for the sewer system associated with the proposed development of Bressi Ranch Lots 19-22 within the City of Carlsbad. The sewer system for the development will connect to an existing sewer lateral stub from the existing 8" sewer main at the western edge of the property in the south-west corner of Lot 19. 2.0 DESCRIPTION OF STUDY AREA The property consists of approximately 7.7 acres of undeveloped land located in the vicinity of Gateway Road and Innovation Way in the western portion of Carlsbad, California. The property is bounded on the west by Lots 16 & 18 of Carsbad Tract 02-15, on the south by Gateway Road, to the east by Innovation Way and to the north by Lot 23 of Carlsbad Tract 02-15. 3.0 PROPOSED SANITARY SEWER IMPROVEMENTS The proposed private sewer system consists of an 8" PVC sewer main with 6 access holes and connects to an existing 8" sewer at the western edge of the property in the south-west corner of lot 19. Individual 4" PVC private sewer laterals will service the buildings on site and each will be connected to the onsite 8" main. Bressi Ocean Collection, LLC proposes to develop approximately 108,624 square feet of commercial facilities. 4.0 ESTIMATED SEWAGE FLOW (DEMAND) According to the Carlsbad Standard Sewer System Design Criteria manual, sewage demand is approximated as 220 gallons per dwelling unit for an average day. The Carlsbad Municipal Water District Sewer master Plan (1993) states that every 1,800 SF of building space is equivalent to 1 dwelling unit (EDU). Therefore, average sewage demand is determined by P:3370\ENGRREPORTS\SWR\3370SEWER19-22.DOC dividing the total square feet of building space by 1800 and multiplying this number by 220 gallons per day. See table 1 for these quantities. 5.0 DESIGN CRITERIA Where D = pipe diameter, and d = flow depth: 8-inch diameter pipe: Maximum Depth at Peak Flow = Y2 pipe diameter (0.5 feet) or d/D !~ 0.50 Minimum Pipe Slope = 0.40%, desirable 0.5% Minimum Sewage Flow Velocity =2 feet/second Peaking Factor = 2.50 Unit Flow Generation Factor = 1 EDU/1,800 SF of building space Sewage Generated = 220 gallonsfEDU/day Pipe Roughness Coefficient 'n' = 0.011 for PVC pipe Design calculation equations were obtained from the City of Carlsbad Engineering Standards, Volume 1, Chapter 6, 2004 Edition. Maximum sewer depth shall be 15 feet. Depths greater than 15 feet require approval from the City Engineer. 6.0 CONCLUSION In conclusion, it was determined that 8-inch PVC pipe is suitable to carry the service flow without exceeding the criteria depth of peak flow < Y2 pipe diameter or d/D < 0.50. The pipes' minimum velocity and slope requirements were maintained. The sewer depth ranges from 6.00 feet minimum to 13.94 feet maximum. P:\3370\ENGR\REPORTSSWR\3370SEWERI9.22.DOC Project Design Consultants 701 B Street Suite 800 San Diego CA 92101 PDC job #3370.10 Date: 02121/07 TABLE I SEWER FLOW CALCULATIONS BRESSI RANCH INDUSTRIAL LOTS 19-22 Generation Q-gpd Q-gpd O-cfs Q-cIs Pipe Section by Bldg. Area Factor Avg daily Peak Peak! Peak! Peak! Peak! Area-halt Hyd Red 0-cap Excess Manhole (SF) (EDU) flow (pd) Factor Section Total Section Total Slope n 0 (ft) (sf) (ft) v (ft/sec) (cfs) Cap (cfs) d d/D 7-6 13258.67 7.37 1621 2.5 4051 4051 0.0063 0.0063 c20) 0.011 0.670 0.176 0.0169 1.4104 0.2486 0.2424 0.0259 0.04 6-5 32806.03 18.23 4010 2.5 10024 14075 0.0155 0.0218 0.0240 0.011 0.670 0.176 0.0301 0.3581 0.3363 0.0467 0.07 5-2 11040.00 6.13 1349 2.5 3373 17449 0.0052 0.0270 0.0200 0.011 0.870 0.176 0.0348 2:19 0.3599 0.3329 0.0543 0.08 4-3 21358.88 11.87 2611 2.5 6528 6526 0.0101 0.0101 -0.0i98) 0.011 0.670 0.176 0.0222 1.5055 0.2654 0.2553 0.0341 0.05 3-2 30160.00 16.76 3686 2.5 9216 15742 0.0143 0.0244 0.0210 0.011 0.670 0.176 0.0327 066 0.3537 0.3294 0.0509 0.08 2-EX 0 0.00 0 2.5 0 33191 0.0000 0.0514 0.0134 0.011 0.670 0.176 0.0507 ç3.1472 0.3785 0.3272 0.0808 0.12 IiECEWED FEB 21 2001 ENGINEERING DEPARTMENT