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12C-040 (3) £ _rs` ♦ ''. < 11 vim y .w� �y . PSD B. y' L 1 'Y{ l•. ;Slak 12C 990 s + r y . 41/4' =^r �. .zsx; ^..a t. ` •.=v . 14V a HAYS W y rotary1� • __ a P nia2Jt ti 11 ' 1 oms 7a� CrAr Ep- �eeGtw@: V}.KINT SOLAR 1) OPS. dryqr,M;sr 1.otSizgsti,iJ. 30012.84 1 _ - " toning 1WtOOYURA(10QYWSP(400)( - gi�ps �f).4 *' a� t mac` AgnI**ns4#'ns. CWWCOPEEMAOIO22 Jss(1Ea Ovr2%'2' d este. TO PERFORM THE FOLLOWING A'OAK: STALL ROOF$o4)NTEO814RVS SOLAR ARRAY PQSRZ CARD SO IT IS i1$$Z FROM SHE • a :T Laspeetot wilt IetPector orWinng O.P.. . aellass%Wector Undeieroeaii: - service: - Rotgy- ._. _ - Ronk: ; :2"[:f{1. Rome -FOoatlntion: - f r\ Dr' . . Peal: bitFioal: Rlml: 4: tt�`( - Ropey Frame. ' '��o4144 Cres: FlrepIace/Cyimaey: DOaghs' _ - ;-. laenlatyw: ---_..- Heal: :. 4 THIS PERMIT MAY BE REV 0 4 t int f, C OF NORTHAMPTON UN UPON VIOLATION OF ANY OF ITS RULES AND ' (i 1f/ Certificate OtOccupancy- 8. QS '~ FT` e�1fWs✓e/ rn,t. feerivoin ,.<.Dittc?Rid: Amount,, 2/16/2016 OAOOO $75.00 212 Main Street,Phone(4t3)5. -1240,Fax:(413)587-1272 l ans ffashrouck—Flu gCommissioner „ -., °wwr »rr , :, .a xr 'F ffi ,ss k fit, � nvr ^¢,rt *:)v• moi” f) - ', h r 1 r `b � Ay %4 " • '" + 2,24.22, t ��. �'' . w 2rp i gg{{y! +„q; � C 4 - xi r ' r3',(a- r Y � " #i➢ k}yr tY"hr `:. � "g.t r t 0.T %� a` -Ay yr ` d4 Y e:j2e! k Y ""{y , iiA" / 1 qnw' d .f `" g '. „w, j . Kh Page 2 of 2 /2 / � !'F Stability Evaluation: �dff (,, Q/_l A. Wind Uplift Loading 1. Refer to attached MSI calculations sheet for ASCE/SEI 7-10 Minimum Design Loads for Buildings and other Structures, wind speed of 90 mph based on Exposure Category B and 14, 15, and 37 degree roof slopes on the dwelling areas, Ground snow load is 40 PSF for Exposure B,Zone 3 per (ASCE/SEI 7-10). 2. Total area subject to wind uplift is calculated for the Interior, Edge and Corner Zones of the dwelling. 13. Loading Criteria 10 PSF = Dead Load (roofing/framing) 40 PSF= Live Load (ground snow load) 3 PSF= Dead Load (solar panels/mounting hardware) Total Dead Load- 13 PSF The above values are within acceptable limits of recognized industry standards for similar structures and in accordance with the 2009 International Residential Code with Massachusetts Amendments. Analysis performed on the existing roof structure utilizing the above loading criteria indicates that the existing members will support the additional panel loading without damage, 'rf installed correctly. C. Solar Panel Anchorage 1. The solar panels shall be mounted in accordance with the most recent "Mounting System Inc. Installation Manual", which can be found on the Mounting System Inc. website (usa.mounting- systems.infotentsolar-mounting-systems-company). If during solar panel installation, the roof framing members appear unstable or deflect non-uniformly, our office should be notified before proceeding with the installation. 2. The solar panels are 1 W'thick and mounted 4 off the roof for a total height off the existing roof of 6",At no time will the panels be mourned higher than 6"above the existing plane of the roof. 3. Maximum allowable pullout per lag screw is 205 Ibstnch of penetration as identified in the Nation Design Standards (NDS) of timber construction specifications for Spruce-Pine-Fir assumed. Based on our evaluation, the pullout value, utilizing a penetration depth of 2 W", is less than the maximum allowable per connection and therefore is adequate. 4. Roof Sections (1, 2, and 3): Considering the roof slopes, the size, spacing, condition of the roof, the panel supports shall be placed at and attached no greater than every fourth roof member as panels are installed perpendicular across members and no greater than the panel length when installed parallel to the members (portrait). No panel supports spacing shall be greater than four (4) spaces or 64"ofc,whichever is less. 5. Panel support connections shall be staggered to distribute load to adjacent members. 6. If collar ties are not present per Massachusetts building code we recommend that 2x6 collar ties be installed at two third of the attic height @ 48"on center. Based on the above evaluation, with appropriate panel anchors being utilized the roof system will adequately support the additional loading imposed by the solar panels. This evaluation is in conformance with the 2009 International Residential Code with Massachusetts Amendments, current industry standards and practice, and the information supplied to us at the time of this report. Should you have any questions regarding the above or if you require turth: for - +n do not hest/i ri to contact me. (zN OF \/1 r ► v truly yours, r 777 ` �" I ' �� a � ` . L +fVV! —+u SOW F( - VO_ Scott E.Wyssling, P NO $4b50' MA License No. 5 79 9P 1$tEpa\a4r"4 FSSIONAI te' vivint. vivint. 3301 North Thanksgiving Way, Suite 500 Lehi, UT 84043 Structural Group P: (801) 234-7050 Scott E Wyssling, PE Senior Manager of Engineering scott.wyssling@vlvintsolar.com February 10, 2016 Mr. Dan Rock, Project Manager Vivint Solar 3301 North Thanksgiving Way, Suite 500 Lehi, UT 84043 Re: Structural Engineering Services Wilga Residence 280 N Maple St, Florence MA S-4773755 6.5 kW Dear Mr. Rock: Pursuant to your request, we have reviewed the following information regarding solar panel installation on the roof of the above referenced home: 1. Site VisitNerification Form prepared by a Vivint Solar representative identifying specific site information including size and spacing of members for the existing roof structure. 2. Design drawings of the proposed system including a site plan, roof plan and connection details for the solar panels. This information was prepared by the Design Group and will be utilized for approval and construction of the proposed system. 3. Photovoltaic Rooftop Solar System Permit Submittal identifying design parameters for the solar system. 4. Photographs of the interior and exterior of the roof system identifying existing structural members and their conditions. Based on the above information we have evaluated the structural capacity of the existing roof system to support the additional loads imposed by the solar panels and have the following comments related to our review and evaluation: Description of Residence: The existing residence is typical wood framing construction with the roof system consisting of the following: • Roof Section 1: Roof section is composed of assumed 2x6 dimensional lumber at 16" on center and a single layer of roofing. The attic space is finished and photos indicate that there was no access to visually inspect the size and condition of the roof members. • Root Section 2: Root section is composed of 2x8 dimensional lumber at 16" on center and a single layer of roofing. The attic space is unfinished and photos indicate that there was free access to visually inspect the size and condition of the roof members. • Roof Section 3: Roof section is composed of 2x6 dimensional lumber at 16" on center and a single layer of roofing. The attic space is unfinished and photos indicate that there was free access to visually inspect the size and condition of the roof members. All wood material utilized for the roof system is assumed to be Spruce-Pine-Fir #2 or better with standard construction components. The existing roofing material consists of composite shingle. Our review of the photos of the exterior roof does not indicate any signs of settlement or misalignment caused by overstressed underlying members. vivint.