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Home My WebLink AboutCT 04-08; La Costa Village Townhomes; Sewer Analysis; 2011-07-15RECORD COPY Sanitary Sewer Analysis Initial Date CT 04-08 La Costa Village Townhomes (Moonstone) Multi-Family Condominiums El Camino Real and Dove Lane In the City of Carlsbad, Califomia Prepared For: City Ventures 2850 Red Hill Ave. Suite 200 Santa Ana. CA 92705 J Prepared By: CONSULTING, INC. 27156 Burbank Foothill Ranch, Califomia 92618 Contact: Vince Scarpati. P.E. (949) 916-3800 February 28, 2011 Revised July 15,2011 cn •• NO. 33520 SFCTION 1. SITE DESCRIPTION AND PURPOSE OF STUDY & LOCATION MAP 2. HYDRAULIC ANALYSIS 3. STRUCTURAL ANALYSIS 4. APPENDIX 1.0 SITE DESCRIPTION & PURPOSE QF STUDY SITE DESCRIPTION: The project consists of 14.4 acres of which 8.9 acres are to remain open space. The subject site is located at northwest comer of El Camino Real and Dove Lane in the City of Carlsbad, Califomia. This is an attached residential project containing 53 residential units, open space, and common area. The site is located in hilly terrain where the development is located on a flat graded area and is border«i by commercial use to the west and open space to the north, and residential to the east. PURPOSE OF STUDY: This study will determine the adequacy ofthe proposed on-site sewer collection system designed under the criteria xt forth by the City ofCarlsbad. The hydraulic analysis portion ofthe study will verify the proposed size of sewer main conveyance pipes as wdl as the flow properties of the system. LOCATION MAP VICINITY A P CITY OF OCEANSIDE HIGHWAY x,,^,^ STA PROJECT LOCATION JY OF AN MARCOS CITY OF ENCINITAS 2.0 HYDRAULIC ANALYSIS DESIGN CRITERIA: An existing 8-inch public sewer main in Dove Lane wil! service the project as shown on the approved Tentative Map for the project. The public sewer flows through the existing Retail Center to the southeast. The As-Built sewer is shown in City of Carisbad drawing no. 305-6. The planned development includes 53 condominium units Sewer Average Flow 250 GPD/Equivalent Dwelling Unit (EDU) shall be used to calculate Average Flow. EDU Factor for Multiple Dweiling jn CMWB-= 1.0 Average Flow = 250 GPD x 53 Units = 13.250 GPD Sewer Peak Flow Sewer pipeline must be designed and sized using peak flow conditions determined by multiplying Average Flow by a Peaking Factor (Chapter 6, Section 4E). Peaking factor = 2.5 for ADF < 100.000 GPD Peak Daily Flow (PDF) = ADF x 2.5 Peak Flow = 13250 x 2.5 = 33,125 GPD = 23 0 gpm or 0.434 Qpm/unit The Table on the following page summarizes the flows in the proposed on-site sewer system and demonstrate the system can easily handle the proposed project flows. On-Site Sevsfer Main Analysis {Moonstone) LA COSTA VILLAGE TOWNHOMES Peak Hour Sewer Demand Pipe Report Start End No. of iDiaaieter Mannings Peak Flow Depth of Velocity Percent Manhole Manhole Unite Length (ft) Slope (ft/ft) i m Material "n" (cfs) Flow (in) (ft/s) Full (%) 1 2 S3 67.09 0.033 \ 1 s PVC 0.013 0.051 0,84 261 105 2 3 53 47.79 0.063 / 8 PVC 0.013 0.051 0.72 3.27 90 3 4 53 -Ji. ••'•64r?1 / 8 PVC 0.013 0.051 0.53 5.12 6.7 4 S 53 l02.9?tO5r34 omo ^ 8 PVC 0.013 0.051 1.12 1.72 14.0 5 6 26 133 90 0,010 8 PVC 0.013 0.025 080 1 38 10.0 6 7 16 80.31 0.010 8 PVC 0013 0015 063 1,19 7,8 7 8 10 50.19 0.010 8 PVC 0.013 0.010 0.52 1.06 65 8 9 10 92.48 0.010 8 PVC 0.013 0.010 0.52 1.05 6.5 9 10 3 59.65 0 028 8 PVC 0.013 0.003 0.23 1.04 2.9 9 11 5 92.48 0020 8 PVC 0.013 0.005 0.32 1.08 4.0 7 17 6 110.95 0.037 8 PVC 0.013 0.006 0.30 1.42 3,7 6 12 10 133.90 0.049 8 PVC 0.013 0.010 0.36 1.82 45 5 13 19 80.26 0.049 8 PVC 0.013 0.018 047 2.18 59 13 14 9 44.65 0.010 8 PVC 0.013 0.009 0 49 1 02 6.1 14 16 9 127,40 0,010 8 PVC 0.013 0.009 0.49 1.02 6.1 13 15 10 131.64 0.027 8 PVC 0.013 0.010 0.41 1.48 51 3.0 STRUCTURAL ANALYSIS C and V Consulting, Inc. Calculation Sheet Pr«f>ar«d8y: Thomas A. Petereen, P.E. Signature Page of 1 <: % m^T\k a*-ASS H: /Afr>C DfefL€£X»c>J 1.4-/4 / c<Tt bJikm-^ C'io? t'i4 P^i^" u^o m ufM...^^- TABLE 27 CALCULATED DEFLECTIONS OF BURIED AWWA C900 - 7S PVC PIPE l>eflection <Percent) For Highway H20 and Railway E80 Loads Hei^t of Cover Live Load "* 2' 4' 6' 8' 10' 12' 15' J 20' 25' Hei^t of Cover Live Load "* mo Em H20 E80 H20 E80 H20 £80 H20 E80 H20 E80 E' Value DR 14 Pressure Class 200 200 400 700 1000 0.5 2,1 0.5 1.93 0.44 1.72 0.40 1.54 0.45 1.63 0,42 1.49 0.37 1.33 0..54 1,19 0.48 1.55 0.44 1,42 0.39 i,26 0.35 1.13 0.55 1.34 0.50 1.22 0.45 1.09 0.40 0,98 0.62 1,19 0.57 L09 0.51 0.97 0.46 0,8? 0.75 1.16 0,69 1.07 0.61 0 95 0.55 0.85 0.94 1,22 0.86 l.i 1 0.76 0.99 0.69 0,89 1.25 1.40 1.14 1.29 1.01 1.14 0.9! 1.03 1.56 1.67 1\43 1,53 i.27 1.36 1.14 1.23 E' Value DR 18 Pressure Class 150 200 400 700 1000 1.1 4,2 0,92 3.58 0.74 2,91 0.63 2.44 0,9 3.28 0.78 2,77 0.63 2.24 0.S3 1.89 0.97 3.11 0.82 2.63 0.66 2.13 0.56 1.79 u 2ir 0.93 2.27 0.75 1.84 0.63 1.55 1.25 2,40 1.06 2.03 0.86 1.64 0.72 1.38 1.51 2.34 1.28 1.98 1.03 1.60 0.87 1.35 1.89 2.45 1.59 2.07 1.29 1.68 1.09 1.41 2.51 2.82 2.12 2.39 1.72 1,93 1,44 1,63 3.14 3.37 2.65 2.84 2.15 2.3! 1.81 1,94 E' Value DR 25 Pressure Class 100 200 400 700 j 1000 2,3 9.0 1 .(> 6.47 I.l7 4.55 0,9 3.51 2.0 6,96 1.41 5,0 0,99 3.52 0.76 2.71 2.0S 6,60 1,47 4.75 1.04 3.34 0.80 2,58 2.34 5.71 1.68 4.10 l.!8 2,88 0.91 2.23 2.66 5.10 1.91 3.66 1.35 2.58 1,04 1.99 3.2! 4.97 2.30 3.57 1.62 2.51 1.25 1.94 4.01 5.19 S.32 5.99 2.88 3.73 3,82 4.31 2.03 2.63 2.69 3.03 1,56 2.03! 2.08 2.34 6.67 7.15 4.79 5,14 3.37 3,61 2.60 2.79 D EQUATION 27 Deflection Calculated by: t2E/3|DR-1Pl+ 0.061 r Where: P K W DR E E' D Prism Load, psi Bedding constant, 0.! Live load, psi Dimension ratio 400,000 psi Modulus of soii reaction. Deflection lag factor. 1,0 NOIE: Cakulaiion based on soil weight (w) = 120 lb/ft» 58 < i TABLE 28 - MAXIMUM LOrs'G TERJVi DEFLECTIONS OF PVC (SDR 3S) PIPE |PEMCENT) ASTM EMBEDMENT MATEWAL CLASSIFICATION DENSITY (PROCTOR) AASHOr HEIGHT OF COVER (FEET) Manufactured Granular \ngulaur Clean Sand Sand & Gmti with Fines SUt& Ciay Organic Soiis CLASS 1 CLASS Ii CLASS 111 CLASS IV CLASS V 0 2 10 I _I2_|_I4 . _ 16 I IH 0 3. 04 0*' J 3 ^ U I 09 I J 4 02 0 4 I Ob 0 8 1 0 3 2_^J,6; 4J OhljJJi^l 1 ._i 2 A.^ 1 fa ^ 0 L 3_5. 24 ; 3 6 0~" I 1 7 5j_l 6 8 1 3 5 Ol 3 5 3 9 i _S_1|_6 0 j 6.4 8.5,; .9<->J.ll.3 •96^1 4|13.0 M , 2 3 i 3 3 4 3 , 5 0 I (1 5] 3.5: 3 91 4 3 4.8 "Sf '9 51106112:2 10 51 26 1.6 73 12 7 14 5 5 2 13 5 20 0 28 1 b ?0 2 0 6.5 14 l{15Srh>8 1601173 18.0 5.6 I 6 0 () 5 r4 r50ll6 3|i7O 22012401260 THIS SOIL CLASS NOT RECOMMENDED _jnnSI /{JNISNOI RI-.COMMl NDFD. No !engO> ot pipe lusiailed liiidei cunditians specified will detlect more than is indicated; the pipe will dellecl less than the jinuunt jiiJicjied tt spcctlied densitv is oblamed l-mbedmeiii .Mjtciul classifications aie as per ASTM designalioti D2321-72 "Underground Installation of Flexible Thermo- plastic Sewer Pipe. * IX'tlcctiuus listed ill table aie maxunuin long term values. Reeummendcd maximum deilectton is 7Vi Listed deflections are tho;,*. caused by soil loading only and do not include initial out of roundness, etc. 1 fit ^11lllll H' 0, ii. 4.0 APPENDIX i8» «5 cmismucnm NOTES tMxxaewj ztootaewj 3+00 tSEW.) two t -s^smtft * «« SWT ^ lis. K jmSMmMMJMJL i+oot^wew is 3" 1 S^j^t„^BJSl *jW 8>. CTie low (sees tHootseweo cmsmucnm NOTES: ' rm, v<.'« «•« > ^astfm t» A' «f—— ' - r"" - III — • H5«E r-s»: H-oo<»r.) 2«»(86W,) I mi it // ^ k y if t I- f- ® S.*! * S cmsmucvm NOTES: stem Warn: 1- 'vrvrm or CARLSBAD •«" I */ j. iiiimsm., ^^s^i i« Am'i^ mot iA!^ San: Kt^ju® vm