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HomeMy WebLinkAboutENGINEER LETTER - 18-00168 - 682 Stonebridge St - Solar Panels___________________________________________________________________________________________ Domus Structural Engineering, LLC P.O. Box 6986 Broomfield, CO 80021 530‐864‐7055 Domusstructural@gmail.com To: Blue Raven Solar 1220 S. 630 E. Ste. 430 American Fork, UT. 84003 Subject: Certification Letter Cooper Residence 682 Stonebridge Street  Rexburg, ID. 83440 To Whom It May Concern, Design Criteria: ● Applicable Codes = 2015 IBC/IRC, ASCE7‐10, and NDS‐12 ● Roof Dead Load = 7 psf (MP1&2) ● Roof Live Load = 20 psf ● Wind Speed = 115 mph, Exposure C ● ● Attachments: (1) 5/16" dia lag screw with 2.5" min embedment depth, at spacing shown above. Sincerely, John Calvert, P.E. Project Engineer The scope of this report is strictly limited to an evaluation of the fastener attachment, underlying framing and supporting  structure only. The attachment's to the existing structure are required to be in a staggered pattern to ensure proper distribution  of loading. All panels, racking and hardware shall be installed per manufacturer specifications and within specified design  limitations. All waterproofing shall be provided by the manufacturer. Domus Structural Engineering assumes no responsibility for  misuse or improper installation of the solar PV panels or racking. Please contact me with any further questions or concerns regarding this project. March 31, 2018 The roof structure of (MP1&2) consists of composition shingle on roof plywood that is supported by pre‐manufactured trusses  that are spaced at @ 24"o.c.. The top chords, sloped at 30 degrees, are 2x4 sections, the bottom chords are 2x4 sections and the  web members are 2x4 sections. The truss members are connected by steel gusset plates. The max unsupported projected  horizontal top chord span is approximately 6'‐0''.  The existing roof framing system of (MP1&2) are judged to be adequate to withstand the loading imposed by the installation of  the solar panels. No reinforcement is necessary. Where required for structural attachments, install vertical blocking for  attachments. See structural drawings for additional information. Ground Snow Load = 50 psf  ‐  Roof Snow Load = 35 psf The spacing of the solar standoffs should be kept at 48" o.c. for landscape and 48" o.c. for portrait orientation, with a staggered  pattern to ensure proper distribution of loads. A jobsite observation of the condition of the existing framing system was performed by an audit team of Blue Raven Solar as a  request from Domus Structural Engineering. All review is based on these observations and the design criteria listed below and  only deemed valid if provided information is true and accurate. On the above referenced project, the roof structural framing has been reviewed for additional loading due to the installation of  the solar PV addition to the roof. The structural review only applys to the section of the roof that is directly supporting the solar  PV system and its supporting elements. The observed roof framing is described below. If field conditions differ, contractor to  notify engineer prior to starting construction. Cooper Residence, Rexburg, ID 1 ____________________________________________________________________________________ Domus Structural Engineering, LLC P.O. Box 6986 Broomfield, CO 80021 530‐864‐7055 Domusstructural@gmail.com 50 psf (ASCE7 - Eq 7-1) 1 (ASCE7 - Table 7-2) 1 (ASCE7 - Table 7-3) 1 35.0 psf (ASCE7 - Eq 7-2) 1 35.0 psf 3.0 psf 4.00 ft 2.67 ft 10.68 sft 32 lb 4.00 2.00 0.73 0.00 (Ceiling Not Vaulted) 0.27 7.0 psf 8.1 psf PV Dead Load = 3 psf (Per Blue Raven Solar) DL Adjusted to 30 Degree Slope Point Loads of Standoffs Miscellaneous Vaulted Ceiling Total Roof DL (MP1&2) Roof Live Load = 20 psf Roof Plywood Roof Dead Load (MP1&2) Composition Shingle Note: Roof live load is removed in area's covered by PV array. Roof Snow Load Calculations pg = Ground Snow Load = Ce = Exposure Factor = pf = 0.7 Ce Ct I pg Ct = Thermal Factor = I = Importance Factor = Cs = Slope Factor = Standoff Tributary Area = ps = Cspf ps = Sloped Roof Snow Load = pf = Flat Roof Snow Load = Gravity Loading PV System Weight Weight of PV System (Per Blue Raven Solar) X Standoff Spacing = Y Standoff Spacing = Note: PV standoffs are staggered to ensure proper distribution of loading 2x4 Top Chords @ 24"o.c. Cooper Residence, Rexburg, ID 2 ___________________________________________________________________________________________ Domus Structural Engineering, LLC P.O. Box 6986 Broomfield, CO 80021 530‐864‐7055 Domusstructural@gmail.com 115 mph C Gable/Hip 30 degrees 20 ft 19.3 ft (Eq. 30.3-1) 0.9 (Table 30.3-1) 1 (Fig. 26.8-1) 0.85 (Table 26.6-1) 115 mph (Fig. 26.5-1A) II (Table 1.5-1) qh = 25.90 15.54 Zone 1 Zone 2 Zone 3 Positive GCp = -0.92 -1.12 -1.12 0.86 (Fig. 30.4-1) Uplift Pressure = -14.36 psf -17.47 psf -17.47 psf 22.3 psf X Standoff Spacing = 4.00 4.00 2.67 Y Standoff Spacing = 2.67 2.67 2.67 Tributary Area = 10.68 10.68 7.12 Footing Uplift = -153 lb -187 lb -124 lb Zone 1 Zone 2 Zone 3 Positive GCp = -0.92 -1.12 -1.12 0.86 (Fig. 30.4-1) Uplift Pressure = -14.36 psf -17.47 psf -17.47 psf 10.0 psf (Minimum) X Standoff Spacing = 4.00 4.00 2.67 Y Standoff Spacing = 1.67 1.67 1.67 Tributary Area = 6.68 6.68 4.45 Footing Uplift = -96 lb -117 lb -78 lb -187 lb 450 lb Therefore, OK Fastener =1 - 5/16" dia Lag Number of Fasteners = 1 Embedment Depth = 2.5 Pullout Capacity Per Inch = 250 lb Fastener Capacity = 625 lb w/ F.S. of 1.5 & DOL of 1.6= 667 lb Therefore, OK Input Variables Wind Speed Effective Wind Area Design Wind Pressure Calculations Roof Shape Standoff Uplift Calculations-Portrait Mean Roof Height Roof Slope 667.2 lb capacity > 187 lb demand 0.6 * qh = Standoff Uplift Calculations-Landscape Wind Calculations Maximum Design Uplift = Standoff Uplift Capacity = 450 lb capacity > 187 lb demand Fastener Capacity Check Standoff Uplift Check Kz (Exposure Coefficient) = Kzt (topographic factor) = Kd (Wind Directionality Factor) = V (Design Wind Speed) = Risk Category = qh = 0.00256 * Kz * Kzt * Kd * V^2 Wind Pressure P = qh*G*Cn Exposure Category Per ASCE7‐10 Components and Cladding Cooper Residence, Rexburg, ID 3 ___________________________________________________________________________________________ Domus Structural Engineering, LLC P.O. Box 6986 Broomfield, CO 80021 530‐864‐7055 Domusstructural@gmail.com (MP1&2)PASS Dead Load 8.1 psf PV Load 3.0 psf Snow Load 35.0 psf Governing Load Combo = DL + SL Total Load 46.1 psf Fb (psi) = f'b x Cd x Cf x Cr (NDS Table 4.3.1) 900 x 1.15 x 1.5 x 1.15 Allowed Bending Stress = 1785.3 psi (wL^2) / 8 = 414.7461 ft# = 4976.954 in# Actual Bending Stress = (Maximum Moment) / S = 1625.2 psi L/180 (E = 1600000 psi Per NDS) = 0.4 in Deflection Criteria Based on = (w*L^4) / (185*E*I) = = L/550 > L/180 Therefore OK Allowed Deflection (Live Load) =L/240 0.3 in (w*L^4) / (185*E*I) L/728 > L/240 Therefore OK Member Area = Fv (psi) = 180 psi (NDS Table 4A) Allowed Shear = Fv * A = Max Shear (V) = w * L / 2 = 276 lb Check Bending Stress Continuous Span 0.131 in 0.099 in Member Properties Member Size 2x4 S (in^3) 3.06 DF#2 Member Spacing @ 24"o.c. Maximum Moment = Check Deflection I (in^4) 5.36 Lumber Sp/Gr Actual Deflection (Live Load) = Allowed Deflection (Total Load) = Actual Deflection (Total Load) = Allowed > Actual -- 91.1% Stressed -- Therefore, OK 945 lb Allowed > Actual -- 29.3% Stressed -- Therefore, OK (True Dimensions) 5.3 in^2 Check Shear w = 92 plf 2x4 Top Chords @ 24"o.c. Member Span = 6' - 0" Framing Check Cooper Residence, Rexburg, ID 4 ___________________________________________________________________________________________ _ Domus Structural Engineering, LLC P.O. Box 6986 Broomfield, CO 80021 530‐864‐7055 Domusstructural@gmail.com Level Area Weight (psf) Weight (lb) Roof 3300 sf 8.1 psf 26674 lb Ceiling 3300 sf 6.0 psf 19800 lb Wood Siding 100 ft 5.0 psf 2000 lb (8'-0" Wall Height) Int. Walls 100 ft 6.4 psf 2560 lb 51034 lb 3.0 psf 212 sf 636 lb 5103 lb 636 lb 1.2% Lateral Check 5103 lb > 636 lb, Therefore OK Per 2015 IBC Chapter 34 Existing Weight of Effected Building Existing Weight of Effected Building Proposed Weight of PV System Weight of PV System (Per Blue Raven Solar) Approx. Area of Proposed PV System Approximate Total Weight of PV System 10% Comparison 10% of Existing Building Weight (Allowed) Approximate Weight of PV System (Actual) Percent Increase Cooper Residence, Rexburg, ID 5