Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
CT 02-14-03; BRESSI RANCH PA 8 UNIT 3; MASTER IN-TRACT SANITARY SEWER RPT; 2003-09-01
MASTER IN-TRACT SANITARY SEWER REPORT BRESSI RANCH PLANNING AREAS 6-10 AND 12 TM CT 02-14 CARLSBAD, CA SEPTEMBER 2003 Prepared For: LENNAR COMMUNITIES c/o LENNAR BRESSI VENTURE, LLC 5780 Fleet Street, Suite 320 Carlsbad, CA 92008 Prepared By: PROJECTDESIGN CONSULTANTS PUNN'INC • EMVJRON'MKNr-U • EN'GINFEKXNG • SimVEY/tyS 701 B Street, Suile 800, San Diego, CA 92101 619-235-M7I FAX 619-234-0349 Job No. 2407.00 Gregory M/Shields RCE 42951 Registration Expires 03/31/04 Prepared By: MW Checked By: GMS TABLE OF CONTENTS Fa2e 1.0 INTRODUCTION 1 2.0 DESCRIPTION OF STUDY AREA 1 3.0 PROPOSED SANITARY SEWER IMPROVEMENTS 1 4.0 ESTIMATED SEWAGE FLOW 1 5.0 DESIGN CRITERIA 3-4 6.0 DESIGN FLOW AND HYDRAULIC CALCULATIONS 4 7.0 CONCLUSION 9 FIGURES 1 Location Map 2 TABLES 1 Total Equivalent Dwelling Units per Planning Area 2 Sewer System Calculations - System A 3 Sewer System Calculations - System B APPENDICES A Handbook of Hydraulic Tables ATTACHMENTS Exhibit A - Sewer System R :\WP\REPOR'n2400\2407SSR.DOC PROJECT SfTE STREET VSE \ LANE ^PHASEi Figure 1. Location Map RiAVP/REPORTC2(.7SSR DOC 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: 6-inch diameter pipe: 1. Maximum Depth at Peak Flow = V2 pipe diameter (0.25 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. 8-inch diameter pipe: 1. Maximum Depth at Peak Flow = V2 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. R:\\VP\REPORT\2400\2407SSR,DOC 10-inch diameter pipe: 1. Maximum Depth at Peak Flow = Vz 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 planning area sewer pipeline proposed for Bressi Ranch are shown in Table 1 for sewer Systems A and B. The flows generated in each pipeline reach are compared to the design criteria described in Section 5.0. R:\WP\REPORT\2400\2407SSR,DOC Table 1. Sewer System Design Flows and Calculations (See Exhibit A) SYSTEM A AND SYSTEM B R:\WP\REPORTV2400\2407SSR.DOC PA-6 (SYSTEM A) File: 2267.00 Page 1 of 3 mh du demand peak factor Q-Qpd Q-cfs s n D K D/d Ca A=Cad V 6-5 - 6-4 8 1760 2.5 4400 0.007 0.057 0.011 0.67 0.000914 0.0325 0.0078 0.004 1.94525 6-4 - 6-3 18 3960 2.5 9900 0.015 0.0461 0.011 0.67 0.002287 0.0506 0.015 0.007 2.27595 6-3 - 6-2 20 4400 2.5 11000 0.017 0.02 0.011 0.67 0.003858 0.0646 0.0215 0.01 1.7643 6-2 - 6-1 23 5060 2.5 12650 0.02 0.02 0.011 0.67 0.004437 0.0691 0.0238 0.011 1.83287 6-7 - 6-6 10 2200 2.5 5500 0.009 0.0521 0.011 0.67 0.001195 0.0371 0.0095 0.004 1.99644 6-6 - 6-1 20 4400 2.5 11000 0.017 0.0609 0.011 0.67 0.002211 0.0499 0.0147 0.007 2.58044 6-1 - 2B 46 10120 2.5 25300 0.039 0.02 0.011 0.67 0.008875 0.0959 0.0385 0.017 2.26609 6-8 - 6-9 6 1320 2.5 3300 0.005 0.011 0.011 0.5 0.00341 0.061 0.0197 0.005 1.03723 6-9-13B 8 1760 2.5 4400 0.007 0.0319 0.011 0.67 0.001222 0.0375 0.0096 0.004 1.58052 PA-10 (SYSTEM A) mh du demand peak factor Q-gpd Q-cfs s n D K D/d Ca A=Cad V 10-5-10-4 4 880 2.5 2200 0.003 0.037 0.011 0.5 0.001239 0.0277 0.0062 0.002 2.19714 10-4-10-3 12 2640 2.5 6600 0.01 0.067 0.011 0.67 0.001265 0.0378 0.0097 0.004 2.34634 10-21 -10-20 3 660 2.5 1650 0.003 0.078 0.011 0.5 0.00064 0.0277 0.0062 0.002 1.64786 10-22-10-20 4 880 2.5 2200 0.003 0.07 0.011 0.5 0.000901 0.0325 0.0078 0.002 1,74645 10-20-10-18 10 2200 2.5 5500 0.009 0.02 0.011 0.5 0.004215 0.0674 0.0229 0.006 1.48715 10-19-10-18 8 1760 2.5 4400 0.007 0.083 0.011 0.67 0.000758 0.0303 0.007 0.003 2.16757 10-18-10-3 22 4840 2.5 12100 0.019 0.049 0.011 0.67 0.002712 0.0546 0.0168 0.008 2.48367 10-3-10-2 37 8140 2.5 20350 0.032 0.039 0.011 0.67 0.005112 0.0662 0.0262 0.012 2.67843 10-15-10-14 3 660 2.5 1650 0.003 0.05 0.011 0.5 0.0008 0.0309 0.0072 0.002 1.41899 10-17-10-16 5 1100 2.5 2750 0.004 0.058 0.011 0.5 0.001237 0.0378 0.0097 0.002 1.75545 10-16-10-14 6 1320 2.5 3300 0.005 0.054 0.011 0.5 0.001539 0.0419 0.0113 0.003 1.80827 10-14-10-13 12 2640 2.5 6600 0.01 0.027 0.011 0.67 0.001993 0.0473 0.0136 0.006 1.67349 10-13-10-8 17 3740 2.5 9350 0.014 0.025 0.011 0.67 0.002933 0.0567 0.0177 0.008 1.82161 10-12-10-11 4 880 2.5 2200 0,003 0.03 0.011 0.5 0.001376 0.04 0.0105 0.003 1.29736 10-11 -10-10 9 1980 2.5 4950 0.008 0.033 0.011 0.5 0.002953 0.0569 0.0178 0.004 1.72192 10-10-10-9 9 1980 2.5 4950 0.008 0.04 0.011 0.5 0.002682 0.0537 0.0153 0.004 2.00328 10-9-10-8 9 1980 2.5 4950 0.008 0.04 0.011 0.5 0.002682 0.0537 0.0153 0.004 2.00328 10-8-10-7 30 6600 2.5 16500 0.026 0.049 0.011 0.67 0.003698 0.0533 0.0208 0.009 2.73551 10-7-10-6 39 8580 2.5 21450 0.033 0.057 0.011 0.67 0.004457 0.0643 0.0213 0.01 3.47269 10-6-10-2 40 8800 2.5 22000 0.034 0.018 0.011 0.67 0.008134 0.092 0.0362 0.016 2.09571 10-2-10-1 77 16940 2.5 42350 0.066 0.013 0.011 0.67 0.018426 0.1362 0.0642 0.029 2.27476 10-1 -10-0 77 16940 2.5 42350 0.066 0.346 0.011 0.67 0.003572 0.0623 0.0203 0.009 7.19408 TABLE/2267swr-report,XLS File: 2267.00 Page 2 of 3 PA-7 (SYSTEM A) mh du demand peak factor Q-gpd Q-cfs s n D K D/d Ca A=Cad V 7-3 - 7-2 4 880 2.5 2200 0.003 0.043 0.011 0.5 0.00115 0.0364 0.0092 0.002 1.48068 7-2 - 7-1 19 4180 2.5 10450 0.016 0.035 0.011 0.67 0.002771 0.0552 0.017 0.008 2.11975 7-1 - 14B 24 5280 2.5 13200 0.02 0.027 0.011 0.67 0.003985 0.004 0.022 0,01 2.06904 PA-7 (SYSTEMS mh du demand peak factor Q-gpd Q-cfs s n D K D/d Ca A=Cad V 7-10-7-9 5 1100 2.5 2750 0.004 0.035 0.011 0.5 0.001593 0.0425 0.0116 0.003 1.46792 7-9 - 7-4 7 1540 2.5 3850 0.006 0.01 0.011 0.5 0.004172 0.067 0.0227 0.006 1.05018 7-8 - 7-7 4 880 2.5 2200 0.003 0.055 0.011 0.5 0.001017 0.0343 0.0085 0.002 1.60262 7-7 - 7-6 10 2200 2.5 5500 0.009 0.024 0.011 0.5 0.003847 0.0645 0.0214 0.005 1.59139 7-6 - 7-5 14 3080 2.5 7700 0.012 0.028 0.011 0.67 0.002283 0.0506 0.015 0.007 1.77018 7-5 - 7-4 19 4180 2.5 10450 0.016 0.065 0.011 0.67 0.002033 0.0478 0.0138 0.006 2.61129 7-4-12A 32 7040 2.5 17600 0.027 0.011 0.011 0.67 0.008324 0.093 0.0368 0.017 1.64924 PA-8 (SYSTEMS) mh du demand peak factor Q-gpd Q-cfs s n D K D/d Ca A=Cad V 9-19-9-18 4 880 2.5 2200 0.003 0.043 0.011 0.5 0.00115 0.0373 0.009 0.002 1.51359 9-21 - 9-20 8 1760 2.5 4400 0.007 0.012 0.011 0.5 0.004353 0.0684 0.023 0.006 1.18455 9-20-9-18 11 2420 2.5 6050 0.009 0.02 0.011 0.67 0.002122 0.0488 0.014 0.006 1.4902 9-18-9-17 18 3960 2.5 9900 0.015 0.052 0.011 0.67 0.002154 0.0492 0.0144 0.006 2.37078 9-17-9-16 23 5060 2.5 12650 0.02 0.046 0.011 0.67 0.002926 0.0567 0.0177 0.008 2.46454 9-16-8-5 27 5940 2.5 14850 0.023 0.035 0.011 0.67 0.003938 0.0652 0.0218 0.01 2.34903 8-5-11A 31 6820 2.5 17050 0.026 0.045 0.011 0.67 0.003987 0.0656 0.022 0.01 2.67251 8-10-8-9 4 880 2.5 2200 0.003 0.038 0.011 0.5 0.001223 0.0371 0.009 0.002 1.51359 8-9 - 8-8 8 1760 2.5 4400 0.007 0.048 0.011 0.5 0.002176 0.0495 0.0145 0.004 1,87894 8-8 - 8-7 11 2420 2.5 6050 0.009 0.0582 0.011 0.67 0.001244 0.0379 0.0097 0.004 2.15081 8-7-IOA 11 2420 2.5 6050 0.009 0.01 0.011 0.67 0.003001 0.0574 0.0147 0.007 1.41924 8-2-8-1 8 1760 2.5 4400 0.007 0.06 0.011 0.67 0.000891 0.0324 0.0075 0.003 2.02306 8-1 - 9-3 15 3300 2.5 8250 0.013 0.077 0.011 0.67 0.001475 0.0411 0.011 0.005 2.5863 8-4 - 8-3 5 1100 2.5 2750 0.004 0.076 0.011 0.67 0.000495 0.0243 0.0051 0.002 1.85943 8-3-9-14 9 1980 2.5 4950 0.008 0.034 0.011 0.67 0.001332 0.0393 0.0102 0.005 1.67349 9-14-9-4 9 1980 2.5 4950 0.008 0.117 0.011 0.67 0.000718 0.0295 0.0067 0.003 2.5477 TABLE/2267swr-report.XLS File: 2267.00 Page 3 of 3 PA - 9 (SYSTEM S) mh du demand peak factor Q-gpd Q-cfs s n D K D/d Ca A=Cad V 9-13-9-12 5 1100 2.5 2750 0.004 0.029 0.011 0.67 0.000801 0.031 0.0072 0.003 1.3171 9-12-9-11 16 3520 2.5 8800 0.014 0.01 0.011 0.67 0.004365 0.0685 0.0235 0.011 1.29132 9-11 -9-10 18 3960 2.5 9900 0.015 0.01 0.011 0.67 0.004911 0.0724 0.0251 0.011 1.36013 9-10-9-9 23 5060 2.5 12650 0.02 0.01 0.011 0.67 0.006275 0.0814 0.0302 0.014 1.44445 9-9 - 9-8 24 5280 2.5 13200 0.02 0.01 0.011 0.67 0.006548 0.083 0.0311 0.014 1.46363 9-8 - 9-7 24 5280 2.5 13200 0.02 0.3 0.011 0.67 0.001196 0.0371 0.0095 0.004 4.79146 9-15-9-7 6 1320 2.5 3300 0.005 0.076 0.011 0.67 0.000594 0.0266 0.0056 0.003 2.03209 9-7 - 9-6 34 7480 2.5 18700 0.029 0.044 0.011 0.67 0.004422 0.069 0.0237 0.011 2.72089 9-6 - 9-5 37 8140 2.5 20350 0.032 0.02 0.011 0.67 0.007138 0.0864 0.033 0.015 2.12651 9-5 - 9-4 37 8140 2.5 20350 0.055 0.21 0.011 0.67 0.003846 0.0645 0.0214 0.01 5.72531 9-4 - 9-3 46 10120 2.5 25300 0.055 0.015 0.011 0.67 0.014391 0.1208 0.0539 0.024 2.27313 9-3 - 9-2 70 15400 2.5 38500 0.055 0.0521 0.011 0.67 0.007722 0.0898 0.0349 0.016 3.51065 9-2 - 9-1 80 17600 2.5 44000 0.055 0.08 0.011 0.67 0.006231 0.0811 0.03 0.013 4.08406 9-1 - 9A 83 18260 2.5 45650 0.071 0.042 0.011 0.67 0.01105 0.1065 0.0449 0.02 3.506 PA-12 (SYSTEMS) mh du demand peak factor Q-gpd Q-cfs s n D K D/d Ca A=Cad V 12-4-12-3 11 2420 2.5 6050 0.009 0.04 0.011 0.67 0.001501 0.0414 0.0111 0.005 1.87953 12-3-12-2 16 3520 2.5 8800 0.014 0.044 0.011 0.67 0.002081 0.0483 0.014 0.006 2.16757 12-2-12-1 20 4400 2.5 11000 0.017 0.053 0.011 0.67 0.00237 0.0514 0.0153 0.007 2.47924 12-6-12-5 3 660 2.5 1650 0.003 0.03 0.011 0.67 0.000473 0.0238 0.0049 0.002 1.1612 12-5-12-1 9 1980 2.5 4950 0.008 0.0518 0.011 0.67 0.001079 0.0353 0.0088 0.004 1.93973 12-1 -3A 29 6380 2.5 15950 0.025 0.03 0.011 0.67 0.004568 0.077 0.0243 0.011 2.26346 12-18-12-17 4 880 2.5 2200 0.003 0.05 0.011 0.67 0.000488 0.0241 0.005 0.002 1.5173 12-17-12-16 11 2420 2.5 6050 0.009 0.05 0.011 0.67 0.001342 0.0394 0.0103 0.005 2.02552 12-16-12-15 17 3740 2.5 9350 0.014 0.021 0.011 0.67 0.003201 0.06 0.0192 0.009 1.6793 12-15-12-14 29 6380 2.5 15950 0.025 0.0265 0.011 0.67 0.00486 0.0715 0.025 0.011 2.20008 12-14-12-13 31 6820 2.5 17050 0.026 0.065 0.011 0.67 0.003317 0.0603 0.0193 0.009 3.04639 12-13-12-12 36 7920 2.5 19800 0.031 0.048 0.011 0.67 0.004483 0.0696 0.024 0.011 2.84493 12-20-12-19 7 1540 2.5 3850 0.006 0.076 0.011 0.67 0.000693 0.0358 0.009 0.004 1.47515 12-19-12-12 8 1760 2.5 4400 0.007 0.076 0.011 0.67 0.000792 0.03 0.009 0.004 1.68589 12-12-12-11 51 11220 2.5 28050 0.043 0.017 0.011 0.67 0.010672 0.1047 0.0438 0.02 2.20839 12-11 -12-10 61 13420 2.5 33550 0.052 0.0175 0.011 0.67 0.012581 0.1133 0.0491 0.022 2.35629 12-10-12-9 63 13860 2.5 34650 0.054 0.0202 0.011 0.67 0.012094 0.1112 0.0478 0.021 2.49973 12-9-12-8 63 13860 2.5 34650 0.054 0.02 0.011 0.67 0.012154 0.1112 0.0478 0.021 2.49973 12-8-12-7 63 13860 2.5 34650 0.054 0.219 0.011 0.67 0.003673 0.0631 0.0207 0.009 5.77232 12-7- IA 63 13860 2.5 34650 0.054 0.02 0.011 0.67 0.012154 0.1115 0.0479 0.022 2.49451 TABLE/2267swr-report,XLS 7.0 CONCLUSION It was determined that a 6-inch and 8-inch PVC pipe are 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 slope of 0.40% was maintained. Sewer depth ranges from 8 feet to 16 feet maximum. Depths greater than 16 feet require approval from the City Engineer. R:\WPiREPORT\2400\2407SSR,DOC APPENDIX A HANDBOOK OF HYDRAULIC TABLES R:\WP\REPORT\2400\2407SSR.DOC STEADY OHIFORM FIX)W IM OFEN CHAKKELS 7-35 Table 7-4. For DeUnateto* the APC. . oC the Crc« Section o(. Oreular 0.ii*«il FtewinR Pwl Full £ .00 .Ot M M JMM jam MS? .1 Mit .0U4 J .tut JMM .lan •WW J jam .MM .« MM sm .SIM .» J93 Am .4» 4a .« .tn jm .»t9 .7 JM .SOS .04 .Mt .sst .T«5 .TW .TH Sta, JH Mi .TOO jM«T JWM .tSM jtn .MS .MO .02 •TII .m .01 .00 .00 jnn OHI .OTM MSO MIX J»U .tM9 .vm JTtI .ISDO .tno .IMI .SMI jm» .tSM jsn J67J J7T7 JOT .iSl .4SS .m .<8S jm JT* .•to .0» .ew .T» .T31 .T» .TW .TTO .TU .TM Table 7-14. Value, of JC tor Ckcufar Chanoeb in the Formula ^ N ,00 o ,1 JUNO* taol .tn .111 JM 4S3 .«•« ,4S3 .01 Mora M«»t jBOO«l|f|«i|tltf iSlrt — .»» JIO JOS 4M «M M MOS J«T JTT ,<« JSS .<w ,«M .OS JM 0 list ,tss« \M3 .4IB tits ,I8S» JTl JM .«» .«TT .4M .OG IMI JIITM ISM JTO JM .4>t 4S1 m JH «1S 4SS .«»4 .eo«04| .aszT Jf93 1410 aico Tti JTJ 441 4M .48* joms MU M— I4M JIM .3M ,3M ,44T ,4tl .4U