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Home My WebLink AboutPV2020-034 - CalcsPV o - 4 25542 Code r. HARDWARE ANALYSIS RESULTS Vertical Load Design Shear Governing Load Combo DL LL SL W E Total . ; D 68.8lbs --- --- -- --- 68.8lbs . Lateral Load Design Withdrawal Governing Load Combo DL LL SL W E Total p .... '34.6 lbs 34.6 lbs Fastener Check Withdrawal Load Shear Load Load Duration Factor W. Z' a p W Z Cc = = = = = = = 387.0lbs 145.8 lbs 26.74 2.50 in. 34.6lbs 68.8 lbs 0.90 R Z'a R Z'a '_ = _ 77.0lbs 166.9lbs 0.461381251 _ <_ 1.05 Fass June 29, 2021 City of Newport Beach Project Address: 2542 Circle Drive, Newport Beach CA 92663 Project Name: Marans Residence Plan check comments received, comments/corrections indicated below: Gas Meter located in Site Plan and Rigid steel used for exterior conduit updated. Please do not hesitate to get in touch with me if you have any questions or concerns. Thank you for your time and consideration, Aranza Lopez Juarez PV Design II e I arlopezjurez@tesla.com T = 5 L In Testa, Inc. 3500 Deer Creek Road. Palo ,Alto. CA 94304 p +852 3974 0288 f +852 3974 0287 February 18, 2020 RE: Project/Job # Project Address: AHJ SC Office To Whom it may concern: Powerwall Certification Letter 92614856 Marans Residence 2542 Circle Dr Newport Beach, CA Newport Beach Irvine Version #8.1 Nb. S 5185 Exp 12/31 /20 '� J STgT oi�C A�.O��Q' .., Abelardo De Vera The installation manual for the Tesla Powerwall was reviewed for wall mounting considerations. Based on the weight of the unit and the attachment layout of the mounting bracket, it was determined that the following fasteners should be used: For mounting to walls with wood studs: 4 -1/4 in. Wood Screws with a minimum embedment of 2.5" In addition, the wall structure has been verified as sufficient to support the additional load imposed by the Tesla PowerWall unit. Sincerely, Testa Energy Tesla, Inc. T = 5 L n WALL DESIGN AND LOADING SUMMARY Applicable Codes: IBC/IRC 2018. ASCE 7-16 Member Specs Wall Height 8.0 ft. Stud Size 1.5 x 3.5 Stud Spacing 16 in. O.C. Lumber Type DF Stud Trib. Roof Loading 10.0 ft Applied Dead Load, Live Load, Snow Load PSF (DL adjusted for pitch) Compression Stress (PSI) DL, LL, SL DL LL SL DL LL SL Roof 9.3 20.0 o.0 23.6 50.8 0.0 Ceiling 5.0 12.7 First Floor Wall 8.5 17.3 Second Floor & Ceiling 8.0 40.0 13.5 67.7 Second Floor Wall 8.5 17.3 Total - 84.3 psi ,118.5 psi 0.0.psi Powerwall Dead Load Powerwall Dead Load 275.0lbs No. Stacked PowerWall Units 1 Dead Load per Stud No. Studs 2 137.5 Ibs Resulting Axial Stress = '. >26.2 psi Eccentric Moment Total 1870.3 lbs-in Moment per Stud No. Studs 2 = 935.2 Ibs-in 152.7psi Resulting Bending Stress Applied Wind Load Wind Speed 100 mph Risk Category 2C Exposure Category 0-15 ft. PowerWall Elevation Distance of PowerWall(s) to Corner of Building 10.0 ft. Directionality Factor 0.85 Topographic Factor 1.00 Velocity Pressure Exposure Coefficient = 0.85 989.5 psi Resulting Bending Stress Applied Seismic Load Component Amplification Factor ah 1.00 Soil Site Class D Component Response Modification Factor Rp 2.5 SRA at Short Period Ss 1.383 Component Importance Factor Ip 1.00 SRAat 1s Period Sy 0.492 Component Operating Weight Wp 275.0lbs Wall Dead Load 8.50 psf Wall Bending Stress = 157.2.psi 4.8 psi Battery Axial Stress = 337.8 psi Battery Bending Stress = 28.2 psi Eccentric Battery Stress = WALL ANALYSIS RESULTS Design Axial Stress - Governing Load Combo DL LL SL W E Total D+.75L+.75W+.75S 110.5 psi 88.9 psi. Design Bending Stress Governing Load Combo DL LL SL. W E `. Total - D+-75L+;75W+.75S 152.7,psi --- --- `.340.0psi,. — 493.6psi; Components & Cladding Bending Stress - Governing Load Combo DL LL SL W E Total D+W 152.7.psi -- -- 5g3.7psi --- " 746.4psi.. Load Duration Factor Co = Repetive Member Factor C, = Size Factor: Bending CF = Member Check 1.60 1.15 Size Factor: Compression 1.10 CF = (Cfu= 1.O,CM=1.0,Ct=1.O Ci=1.0,CT=1.O,Cv=1.O,CL71.0,Ke=1,c=0.8) 1.05 Fc = Fb = E = Emi„ = 850.0 psi 700.0 psi 1400000.0 psi 510000.0 psi Based on NOS Eqn. 3.9-3.... 0.700 <= Based on NOS Eqn. 3.9-4.... 0.031 <= 1.05 1.05 Pass Pass: Components &Cladding Bending Check Fs = F'bl = 746.4 psi 1416.8 psi Fa = F'bl 0.527 <_ 1.05 .... Pass HARDWARE DESIGN AND LOADING SUMMARY Fastener Specs - Fastener Type 1/4 in. Wood Screw # Top Fasteners 2 Fastener Diameter 0.25 in. # Bottom Fasteners 2 Fastener Area 0.049 sq.in. Total Fasteners 4 Vertical Distance Between 27.00 in. Fasteners Dead Load Applied to Fasteners - PowerWall Battery Version V2 PowerWall Battery Weight 275.0lbs No. Stacked PowerWall Units 1 Eccentricity Panel Depth 6.10 in. Wall Finish Depth 1.00 in. Half Panel Depth 3.05 in. Total Wall Depth 3.50 in. Frame Depth 1.00 in. Half Wall Depth 1.75 in. Total Eccentricity = 6.80 in. Eccentricity Moment = 1870.3 lbs-in T and C Components = 69.3 lbs / fastener row T per Fastener = ` 34.6 lbs Shear per Fastener = 68.8 lbs Wind Suction Approximate Battery Wind Load 20.35 psf Dimensions Width 29.70 in. Height 45.30 in. Surface Area 1345.41 sq. in. Suction Force = 190.09 lbs Tension per Lag = 47.52.lbs Seismic - Vertical and Lateral Seismic Vertical 50.71 lbs Moment 344.89 lbs-in Shear per lag 12.68 lbs T and C Components 12.8 lbs / fastener row Seismic Vertical = 50.71 lbs Seismic Horizontal = 86.21 lbs Withdrawal per lag = 21.55lbs From Horizontal FP V per fastener = 12.68 lbs From Vertical FP T per fastener = 6.39lbs From Vertical FP Eccentricity (top fasteners only)