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Home My WebLink AboutENGINEERED LETTER - 22-00786 - 11 Sunset circle - Solar Panel 9089 S 1300 W Suite 160, West Jordan, Utah 84088 Phone: 801-707-9004 Fax: 801-590-6611 Website: www.perigeecivil.com Email: info@perigeecivil.com October 20, 2022 Intermountain Wind and Solar Attn: Ryan Shaw 1041 North 950 West Centerville, UT 84014 RE: 11 West Sunset Circle, Rexburg, ID Structural Evaluation for Solar Panel Installation Dear Ryan, This letter is regarding the residence at the above referenced address. It’s our understanding that Intermountain Wind and Solar would like to add solar panels to the structure in the area shown in the attached sketch. The solar panels proposed by Intermountain Wind and Solar are less than 4 pounds per square foot (psf). The home was constructed in 2002 with pre-manufactured trusses, and typical design loads for roofs in residential construction of that era are 10-15 psf, with a roof live load design of 20 psf and roof snow load of 25 psf. Based on typical materials used in residential construction for asphalt roofs, actual dead loads are generally less than that, around 7-8 psf. This would allow for 2-3 psf to be added. Additionally, Section 706.2 of the International Existing Building Code (IEBC) 2018 indicates that alterations to a building which results in less than 5% of a gravity load increase may be performed without structural evaluation of the existing structure, which would allow an additional 2 psf. Based on the pitch of the roof and the addition of the array, the snow load can be reduced by approximately 5 psf, as shown in the attached calculations. Because of these factors, it is our opinion that the roof is structurally adequate to support the additional dead weight of the proposed solar panels. Supports from the array to the roof should not be spaced greater than 4’ apart, and connections between adjacent railing rows should be staggered. Please contact me if you have questions or need further information. Sincerely, Letizia Wetzel, PE 10-20-2022 Merrill Solar Array Roof snow load calculation(per ASCE 7-16)Design roof snow load =35 psf Ground Snow, pg =50 psf Roof pitch 6 :12 Flat roof snow load, pf = 0.7 Ce Ct Is pg (Eq. 7.3-1) Ce =0.9 (Table 7.3-.1) Ct =1.2 (Table 7-3.2; cold roof with solar panels) Is =1.0 pf =37.8 psf Sloped roof snow load, p s = Cs pf (Eq. 7.4-1) Cs =0.8 (From Figure 7.4-1b, slippery surface) ps =30.2 psf (5 psf reduction from design roof snow load)