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Home My WebLink AboutPROPOSAL PHOTOVOLTAIC SOLAR PANEL INSTALLATIONDaniel W. Dunzik Architect LEED-AP 370 Burnt Hill Rd. Skillman NJ. 08558 908-872-3664 StudioGdesign@comcast.net August 19, 2021 Re: Proposed Photovoltaic Solar Panel Installation Bosener Louis -Charles 605 BEACH AVE PORT ST. LUCIE, FL 34952 Dear Plan Reviewer: Certification: I have reviewed the engineering testing reports for the racking and attachments to be used on this project and I certify that the products are capable of supporting the code required loads and are suitable for this installation when installed in strict compliance with the manufacturers printed instructions. Regarding the solar panel array installation on the above referenced project please note that an inspection was performed by a representative of the Architect/Engineer of Record, and analysis of the existing structure was conducted. There is adequate structural capacity for the installation of the array with the following recommendations: 1. The array will be installed on the existing roof The roof framing is constructed of 2"x4" wood trusses @24" o.c. spanning 13'11" with a top chord length of 147' with intermediate supports at 1/2 points, making the effective longest span equals T 10" with 1 "x6" T&G sheathing. The new array (See Site map by contractor) will add 2.63 Lb. / Sf. overall to the roof The existing structure is sufficient to support the new loads associated with the additional weight & wind resistance. No additional structural support is required for the roof structure. 2. The attachment system shall be secured to the roof and shall be in strict compliance with manufacturers printed instructions. The attachment system shall be UL 1703 approved tested. Provide 6 mil. vapor barrier between dissimilar metals. Provide water tight gasket and sealant at all penetrations. Attachments shall follow panel rows as specified by the system manufacturer's installation manual. The panel angle shall match the roof slope. Reference summary table below: Roof Type: Shingle Fastener Max Spacing (in.) Attachment System: "SnapNrack" "Ultra Rail" Please See Manufacture Specification and PV- min. 5/16" x 4" long stainless -steel lags with a min. Fastener Info: 3.6 embedment of 3" into the rafters 3. Solar Modules shall be UL-1703 rated. Refer to manufacturers specifications sheets. 4. Positive drainage of the system shall be so as not to void the existing roof warranty. 5. All aspects of the installation shall comply with the Florida Administrative Code, 2020 Florida Building Code - Residential Seventh Edition, ASCE-7-16, 2020 Florida Building Code — Energy Conservation, Seventh Edition, 2017 National Electric Code, All Local Governing County and Municipal Ordinances adopted by reference or enacted by law. All components used meet the criteria of the Florida Solar Energy Center. 6. Please refer to the attached structural calculations. If you have any questions relating to this matter, please contact me at your earliest convenience. Thank you. Daniel W. Dunzik, RA. LEED-AP FL. Lic. No. AR98795 y�P0--L W. DQAt i 9 AR98795 •V FRED AR� Digitally signed by: Daniel W Dunzik DN: CN = Daniel W Dunzik C = US O = Daniel Dunzik Architect OU = A01410C00000170DO714 41330000DD10 Date: 2021.08.19 15:02: 37-04'00' Daniel W. Dunzik 370 Burnt Hill Rd. Skillman NJ. 08558 StudioGdesign@comcast.net Gravity Load Calculation Criteria Structural Design Loads per ASCE 7-16 Dead Loads = 10 psf + 2.6 psf (new solar panels) = 12.6 psf Roof Live Load = 20 psf Ground Snow Load/Live Load = 0 psf Roof Slope = 17 degrees Roof Mean Height = 15 ft Basic Wind Speed = 160 mph Exposure = C Wind Load Calculation Criteria Wind Loads per ASCE 7-16, Equation 29.4-7 Using an effective wind area of 10 SF, external pressure coefficient from Figure 30.3-A-I Array Interior: Array Edge: Zone 1 = -75.75 psf Zone 1 =-113.63 psf Zone 2e = -75.75 psf Zone 2e =-113.63 psf Zone 2n =-113.63 psf Zone 2n =-170.45 psf Zone 2r = -113.63 psf Zone 3e =-113.63 psf Zone 3r = -136.36 psf Zone 2r = -170.45 psf Zone 3e =-170.45 psf Zone 3r = -204.55 psf Per section 2.4.1, ASD combo = 0.6D + 0.6W: Array Interior: Zone 1 = 0.6 x 2.6 psf + 0.6 x (-75.75 psf) = -43.89 psf Zone 2e = 0.6 x 2.6 psf + 0.6 x (-75.75 psf) = -43.89 psf Zone 2n = 0.6 x 2.6 psf+ 0.6 x (-113.63 psf) _ -66.62 psf Zone 2r = 0.6 x 2.6 psf + 0.6 x (-113.63 psf) _ -66.62 psf Zone 3e = 0.6 x 2.6 psf+ 0.6 x (-113.63 psf) _ -66.62 psf Zone 3r = 0.6 x 2.6 psf + 0.6 x (-136.36 psf) _ -80.26 psf Array Edge: Zone 1 = 0.6 x 2.6 psf + 0.6 x (-113.63 psf) = -66.62 psf Zone 2e = 0.6 x 2.6 psf+ 0.6 x (-113.63 psf) = -66.62 psf Zone 2n = 0.6 x 2.6 psf+ 0.6 x (-170.45 psf) =-100.71 psf Zone 2r = 0.6 x 2.6 psf + 0.6 x (-170.45 psf) =-100.71 psf Zone 3e = 0.6 x 2.6 psf+ 0.6 x (-170.45 psf) =-100.71 psf Zone 3r = 0.6 x 2.6 psf + 0.6 x (-204.55 psf) =-121.17 psf Check Attachment to Wood Truss Use 5/16 dia. Lag screw w/ 3" embedment into 2 in. wide roof rafter Please refer to design PV-3.6 and manufacturer specification for maximum allowable span. Architect LEED-AP 908-872-3664 August 19, 2021