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BCOM2014-1001 Revision 1Bin # City of La.'Quin"a Building K Safety. Division P.O. Box 1504, 7?-495 Calle Tampico La Quinta, CA 92253 - (760) 777-7012 i =-✓ Building Perm_it Appjicat►on and Tracking Sheet Permit # Project Address: �l j �j Owner's Name: A. P. Number: Address: Legal Description: City; ST, Zip: Contractor:«W<;?r<::>:>':: Telephone: Address: Project Description: City, ST, Zip: V/� SZn 14 Telephone: P ;::::<;�>:;;::::>.»<<;:>::>::; �:z:;;r:<>;:.>�: State Lic. # : City Lic. #; Arch., Engr., Designer: plqx Address: City., ST, Zip: Telephone: ne: State to Lic. # •:Con tr su cti n o Type: Occupancy: P P Y: ProJe ct (circle one): New tYPe Add'n Alter Repair Demo mo Name of Contact Person:7e,,z VOcS Sq. Ft.: # Stories: #Units: Telephone # of Contact Person: 4*0 — b - / / -Estimated Value of Project: APPLICANT: DO, NOT WRITE:.BELOW THIS LINE # Submittal Req'd Rec'•d TRACKING, PERMIT FEES Plan Sets Plan Check submitted %I % Item Amount Structural Calcs. Reviewed, ready for corrections Plan Check Deposit Truss Calcs. Called Contact Person PIan.Check Balance Title 24 Cafes. Plans picked up Construction Flood plain plan Plans resubmitted Mechanical Grading plan 2" Review, ready for correction issue ! Electrical Subcontactor List 'Called Contact P.ersoq,!1 % Plumbing Grant Deed Plans picked up S.M.I. H.O.A. Approval Plans resubmitted Grading IN HOUSE:- '"' Review, ready for corrections/issueDeveloper Impact Fee Planning Approval Called Contact Person A Lp p Pub. Wks. ,Appr Date of permit issue School Fees Total Permit Fees z . ��• I' U BUILDING ENERGY ANALYSIS REPORT PROJECT: PGA West 55-955 PGA Boulevard La Quinta, CA 92253 Project Designer: PHXARCH 7507 E McDonald Drive Suite B Scottsdale, Arizona 85250 480-477-1111 IL Report Prepared by: CITY OF LA QUINTA BUILDING & SAFETY CREPT. APPROVED FOR CONSTRUCTION DAIgW��BYjEi Hellman/Lober Inc. Job Number: RECEIVED NOV 13 2014 Date: CITY OF LA QUINTA 11/12/2014 COMMUNITY DEVELOPMENT The EnergyPro computer program has been used to perform the calculations summarized in this compliance report. This program has approval and is authorized by the California Energy Commission for use with both the Residential and Nonresidential 2008 Building Energy Efficiency Standards. This program developed by EnergySoft, LLC—www.energysoft.com. EnergyPro 5.1 by Energ Soft User Number: 5100 RunCode: 2014-11-12T16:11:27 ID: TABLE OF CONTENTS Cover Page Table of Contents Form ENV -1-C Certificate of Compliance Form ENV -3-C Overall Envelope TDV Approach Form ENV -MM Envelope Mandatory Measures EnergyPro 5.1 by EnergySoft Job Number: ID: User Number: 5100 1 2 3 11 27 CERTIFICATE OF COMPLIANCE (Part 1 of 4) ENV -1 C AND FIELD INSPECTION ENERGY CHECKLIST Project Name PGA West Date 11111212014 Project Address 55-955 PGA Boulevard La Quinta Climate Zone 15 Total Cond. Floor Area 34,829 Addition Floor Area 0 GENERAL INFORMATION Building Type: m Nonresidential ❑ High -Rise Residential ❑ Hotel/Motel Guest Room ❑ Schools (Public School) ❑ Bledlocatable g. Public School m Conditioned Spaces ❑ Unconditioned Spaces ❑ Skylight Area for Large Enclosed Space > 8000 ftz (If checked include the ENV -4C with submittal) Phase of Construction: ❑ New Construction ❑ Addition m Alteration Approach of Compliance: ❑ Component ® Overall Envelope ❑ Unconditioned (file affidavit) Front Orientation: N, E, S, W or in Degrees: 90 deg FIELD INSPECTION ENERGY CHECKLIST OPAQUE SURFACE DETAILS INSULATION Ta /ID Assembly Type y a C o C Cn O W{� O z V « 7 > j M 0 M O N X lV w> O C X 3 w LL O O N l0 > O C d 7 v X C E O •p O. n a c O N C O O ,�, 0 to ryil M a `— LL 1 Wall 38 (E) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 2 Wall 78 (S) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 3 Wall 38 (W) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 4 Roof 713 (N) 0.051 R-19 4.2.2-A 12 Existing ❑ ❑ 5 Wall 44 (S) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 6 Wall 130 (W) 1 0.244 R-111 4.3.3-A2 I Existing ❑ ❑ 7 Roof 4,074 (N) 0.051 R-19 4.2.2-A 12 Existing ❑ ❑ 8 Wall 44 (S) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 9 Wall 176 (N) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 10 Roof 3,811 (N) 0.051 R-19 4.2.2-A 12 1 Existing ❑ ❑ 1. See Instructions in the Nonresidential Compliance Manual, page 3-96. 2. If Fail, then describe on Page 2 of the Inspection Checklist Form and take appropriate action to correct. A fail does not meet compliance. FENESTRATION SURFACE DETAILS Tag/ID Fenestration Type ^ i a c C d W OZ 5 M m LL 2> V i M LL O > rn U 2 tXa N 2¢ U i S O (n (n c -E > O o V 7 O :° ON N a 'm LL 1 Window 640 (E) 1.190 Default 0.830 Default ❑ Existing ❑ ❑ 2 Window 1,040 (S) 1.190 Default 0.830 Default ❑ Existing ❑ ❑ 3 Window 1,372 (W) 1.190 Default 0.830 Default ❑ Existing ❑ ❑ 4 Window 176 (S) 0.890 COG 0.470 COG ❑ New ❑ ❑ 5 Window 892 (N) 0.890 COG 0.470 COG ❑ New ❑ ❑ 6 Window 232 (SM 0.890 COG 0.470 COG ❑ New ❑ ❑ 7 Window 204 (NW) 0.890 COG 0.470 COG ❑ New ❑ ❑ 8 Window 232 (NE) 0.890 COG 0.470 COG ❑ New ❑ ❑ 9 Window 216 (SE) 1.190 Default 0.830 Default ❑ Existing ❑ ❑ 10 Window 216 (SW) 1.190 Default 0.830 Default ❑ Existing ❑ ❑ 1. See Instructions in the Nonresidential Compliance Manual, page 3-96. 2. If Fail then describe on Page 2 of the Inspection Checklist Form and take appropriate action to correct. Verify building plans if necessary. Energ Pro 5.1 by EnergySoft User Number: 5100 RunCode: 2014-11-12716:11:27 ID: Page 3 of 27 CERTIFICATE OF COMPLIANCE (Part 1 of 4) ENV -1 C AND FIELD INSPECTION ENERGY CHECKLIST Project Name PGA West Date 11/12/2014 Project Address 55-955 PGA Boulevard La Quinta Climate Zone 15 Total Cond. Floor Ar7 el 34,829 Addition Floor Area 0 GENERAL INFORMATION Building Type: m Nonresidential ❑ High -Rise Residential ❑ Hotel/Motel Guest Room ❑ Schools (Public School) ❑ Bledlocatable g. Public School m Conditioned Spaces ❑ Unconditioned Spaces ❑ Skylight Area for Large Enclosed Space ? 8000 ft2 (If checked include the ENV -4C with submittal) Phase of Construction: ❑ New Construction ❑ Addition m Alteration Approach of Compliance: ❑ Component m Overall Envelope ❑ Unconditioned (file affidavit) Front Orientation: N, E, S, W or in Degrees: 90 deg FIELD INSPECTION ENERGY CHECKLIST OPAQUE SURFACE DETAILS INSULATION Ta /ID Assembly Type ¢ C V) Lu UT O z U 4xm m « A5 0 cc C w > O C x w u_ O m > O C 3 U. X C CL oa ¢ c O W C 0 U rn M a m LL 11 Wall 316 (N) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 12 Wall 94 (N) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 13 Roof 2,618 (N) 0.051 R-19 4.2.2-A 12 Existing ❑ ❑ 14 Wall 58 (SIM 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 15 1Wall 124 (NtM 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 16 Wall 58 (NE) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 17 Roof 731 (N) 0.051 R-19 4.2.2-A 12 Existing ❑ ❑ 18 Wall 22 (E) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 19 Wall 58 (SE) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 20 Wall 58 (SM 0244 R-11 4.3.3 A2 Existing ❑ ❑ 1. See Instructions in the Nonresidential Compliance Manual, page 3-96. 2. If Fail, then describe on Page 2 of the Inspection Checklist Form and take appropriate action to correct. A fail does not meet compliance. FENESTRATION SURFACE DETAILS Tag/ID Fenestration Type w �' a c g N C W O> 0 U 0 5 V LL 'o > <n U = N V U = o Cl)N cn c L > O y o _ 'G 7 o ct cn U) a u_ 11 Window 715 (N) 1.190 Default 0.830 Default ❑ Existing ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ [3❑ 1 13 0 1. See Instructions in the Nonresidential Compliance Manual, page 3-96. 2. If Fail then describe on Page 2 of the Inspection Checklist Form and take appropriate action to correct. Verify building plans if necessary. Energ Pro 5.1 by Energ Soft User Number: 5100 RunCode: 2014-11-12T16:11:27 ID: Page 4 of 27 CERTIFICATE OF COMPLIANCE (Part 1 of 4) ENV -1 C AND FIELD INSPECTION ENERGY CHECKLIST Project Name PGA West Date 1 11/12/2014 Project Address 55-955 PGA Boulevard La Quinta Climate Zone 15 Total Cond. Floor Area 34,829 Addition Floor Area 0 GENERAL INFORMATION Building Type: ® Nonresidential ❑ High -Rise Residential ❑ Hotel/Motel Guest Room ❑ Schools (Public School) ❑ Bledlocatable g. Public School m Conditioned Spaces ❑ Unconditioned Spaces ❑ Skylight Area for Large Enclosed Space >_ 8000 ftz (If checked include the ENV -4C with submittal) Phase of Construction: ❑ New Construction ❑ Addition m Alteration Approach of Compliance: ❑ Component m Overall Envelope ❑ Unconditioned (file affidavit) Front Orientation: N, E, S, W or in Degrees: 90 deg FIELD INSPECTION ENERGY CHECKLIST OPAQUE SURFACE DETAILS INSULATION Ta /ID AssemblyType Q c 03. C U1 O; t5 D y 7 t0 U¢ 2 O O X M W> O C X 7 W LL p 0 f0 > O` C 3 U- Tr X _ C CL O=O a c O N a .�. U v> f0 a 'lp W 21 Wall 61 (W) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 22 Roof 2,368 (N) 0.051 R-19 4.2.2-A 12 Existing ❑ ❑ 23 Wall 1,320 (E) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 24 Wall 202 (S) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 25 Wall 147 (N) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 26 Roof 5,012 (N) 0.051 R-19 4.2.2-Al2 Existing ❑ ❑ 27 Roof 2,455 (N) 0.051 R-19 4.2.2-A 12 Existing ❑ ❑ 28 Wall 132 (E) 0.102 R-13 4.3.1-A3 Existing ❑ ❑ 29 Roof 1,342 (N) 0.051 R-19 4.2.2-A 12 Existing ❑ ❑ 30 Wall 292 (N) 0.244 R-11 4.3.3-A2 Existing 1 ❑ ❑ 1. See Instructions in the Nonresidential Compliance Manual, page 3-96. 2. If Fail, then describe on Page 2 of the Inspection Checklist Form and take appropriate action to correct. A fail does not meet compliance. FENESTRATION SURFACE DETAILS Tag/ID Fenestration Type w M a c� B (n C yW O Z O U X t0 2> U ` l- 3 > in V = XCn 2¢ U` :3 n N in t d O c C^' U in y M Li ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ 1. See Instructions in the Nonresidential Compliance Manual, page 3-96. 2. If Fail then describe on Page 2 of the Inspection Checklist Form and take appropriate action to correct. Verify building plans if necessary. EnergyPro 5.1 by EnergySoft User Number: 5100 RunCode: 2014-11-12716:11:27 ID: Page 5 of 27 CERTIFICATE OF COMPLIANCE (Part 1 of 4) ENV -1 C AND FIELD INSPECTION ENERGY CHECKLIST Project Name PGA West Date 1 11/12/2014 Project Address 55-955 PGA Boulevard La Quinta Climate Zone 15 Total Cond. Floor Area 34,829 Addition Floor Area 0 GENERAL INFORMATION Building Type: m Nonresidential ❑ High -Rise Residential ❑ Hotel/Motel Guest Room ❑ Schools (Public School) ❑ Bedlocatable g. Public School m Conditioned Spaces ❑ Unconditioned Spaces ❑ Skylight Area for Large Enclosed Space >_ 8000 ft2 (If checked include the ENV -4C with submittal) Phase of Construction: ❑ New Construction ❑ Addition m Alteration Approach of Compliance: ❑ Component m Overall Envelope ❑ Unconditioned (file affidavit) Front Orientation: N, E, S, W or in Degrees: 90 deg FIELD INSPECTION ENERGY CHECKLIST OPAQUE SURFACE DETAILS INSULATION Ta /ID Assembly Type ` a c O?� « N W O z i O O M y T 7 3 a¢ O w> �n O C w U- �' p > O U. a X _ c C. -°� a C O tp O c) U) t0 a '001. ii a 31 Wall 590 (N) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 32 Wall 26 (N) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 33 Roof 3,243 (N) 0.051 R-19 4.2.2-A 12 Existing ❑ ❑ 34 Wall 42 (E) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 35 Roof 1,934 (N) 0.051 R-19 4.2.2-A 12 Existing ❑ ❑ 36 Wall 331 (E) 1 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 37 Wall 18 (S) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 38 Wall 18 (N) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 39 Roof 662 (N) 0.051 R-19 4.2.2-A 12 Existing ❑ ❑ 40 Wall 251 (E) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 1. See Instructions in the Nonresidential Compliance Manual, page 3-96. 2. If Fail, then describe on Page 2 of the Inspection Checklist Form and take appropriate action to correct. A fail does not meet compliance. FENESTRATION SURFACE DETAILS Tag/ID Fenestration Type _ " w �' a C CN a) w O Z o U M LL 2> o U U LL O' m cn U = m N 2— U O = o N Cn c t > O o _ 7 o v cn a LL ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ 1. See Instructions in the Nonresidential Compliance Manual, page 3-96. 2. If Fail then describe on Page 2 of the Inspection Checklist Form and take appropriate action to correct. Verify building plans if necessary. Energ Pro 5.1 by Ener Soft User Number: 5100 RunCode: 2014-11-12T16:11:27 ID: Page 6 of 27 CERTIFICATE OF COMPLIANCE (Part 1 of 4) ENV -1 C AND FIELD INSPECTION ENERGY CHECKLIST Project Name PGA West Date 11/12/2014 Project Address 55-955 PGA Boulevard La Quinta Climate Zone 15 Total Cond. Floor Area 34,829 Addition Floor Area 0 GENERAL INFORMATION Building Type: m Nonresidential ❑ High -Rise Residential ❑ Hotel/Motel Guest Room ❑ Schools (Public School) ❑ Bledlocatable g. Public School m Conditioned Spaces [3Unconditioned Spaces ❑ Skylight Area for Large Enclosed Space >_ 8000 ft2 (If checked include the ENV -4C with submittal) Phase of Construction: ❑ New Construction ❑ Addition m Alteration Approach of Compliance: ❑ Component m Overall Envelope ❑ Unconditioned (file affidavit) Front Orientation: N, E, S, W or in Degrees: 90 deg FIELD INSPECTION ENERGY CHECKLIST OPAQUE SURFACE DETAILS INSULATION /ID AssemblyType y Q c C 3 ccn aruj OCL 2 0 �i D >> UQ ¢ car «� W> c' W IL 2 y� C> y CIL �* x ca "07Q c cm 0 Urn H a U.Ta 41 Wall 81 (E) 0.102 R-131 4.3.1-A3 Existing ❑ ❑ 42 Roof 662 (N) 0.051 R-19 4.2.2-A 12 Existing ❑ ❑ 43 Wall 86 (S) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 44 Wall 106 I'M 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 45 Slab 1,728 (N) 0.730 None 4.4.7-A 1 Existing ❑ ❑ 46 Wall 408 (W) 0.244 R-11 4.3.3-A2 Existing ❑ ❑ 47 Slab 1,245 (N) 0.730 None 4.4.7-A1 Existing ❑ ❑ 48 Wall 260 (S) 0.244 R-11 I 14.3.3-A2 Existing 1 ❑ 1 ❑ 49 Wall 72 (Vl9 0.244 R-11 4.3.3-A2 Existing 1 ❑ 1 ❑ 50 Slab 1,782 (N) 0.730 None 4.4.7-A1 Existing 1 ❑ 1 ❑ 1. See Instructions in the Nonresidential Compliance Manual, page 3-96. 2. If Fail, then describe on Page 2 of the Inspection Checklist Form and take appropriate action to correct. A fail does not meet compliance. FENESTRATION SURFACE DETAILS Tag/ID Fenestration Type �. w a c B Cn C c W O Z O x lL N> O 0 lL > tin U C7 K Cn al C7 7 v=i r°n r of a! O c ' C U in y a LL ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ 1. See Instructions in the Nonresidential Compliance Manual, page 3-96. 2. If Fail then describe on Page 2 of the Inspection Checklist Form and take appropriate action to correct. Verify building plans if necessary. Energ Pro 5.1 by Energ Soft User Number: 5100 RunCode: 2014-11-12T16:11:27 ID: Page 7 of 27 CERTIFICATE OF COMPLIANCE (Part 2 of 4) AND FIELD INSPECTION ENERGY CHECKLIST ENV -1 C Project Name PGA West Date 11/12/2014 ROOFING PRODUCT (COOL ROOFS) (Note if the roofing product is not CRRC certified, this compliance approach cannot be used). Go to Overall Envelope Approach or Performance Approach. CHECK APPLICABLE BOX BELOW IF EXEMPT FROM THE ROOFING PRODUCT "COOL ROOF" REQUIREMENTS: Pass Fail' N/A ❑ Roofing compliance not required in Climate Zones 1 andl6 with.a Low -Sloped. 2:12 pitch or less. ❑ ❑ ❑ ❑ Roofing compliance not required in Climate Zone 1 with a Steep -Sloped with less than 5 Ib/ft2. Greater than 2:12 pitch. ❑ ❑ ❑ Low -sloped Wood framed roofs in Climate Zones 3 and 5 are exempted, solar reflectance and thermal emittance or ❑ SRI that have a LI -factor of 0.039 or lower. See Opaque Surface Details roof assembly, Column H of ENV -2C. ❑ ❑ ❑ Low -sloped Metal building roofs in Climate Zone 3 and 5 are exempted, solar relectance and thermal emittance or SRI ❑ that have a Ll -factor of 0.048 or lower. See Opaque Surface Details roof assemblybelow, Column H of ENV -2C. ❑ ❑ ❑ ❑ The roof area covered by building integrated photovoltaic panels and building integrated solar thermal panels are exempted. Solar reflectance and thermal emittance or SRI, seespreadsheet calculator at www.energy.ca.gov/title24/ ❑ ❑ ❑ Roof constructions that have thermal mass over the roof membrane with a weight of at least 25 Ib/ft are exempt from ❑ the Cool Roof criteria below. 11 ❑ 11 ❑ High-rise residential buildings and hotels and motels with low -sloped roofs in Climate Zones 1 through 9, 12 and 16 are exempted from the low -sloped roofing criteria. ❑ ❑ ❑ 1. If Fail then describe on this page of the Inspection Checklist Form and take appropriate action to correct. Verify building plans if necessary. CRRC Product ID Number' Roof Slope 5 2:12 > 2:12 Product Weight < 5lb/ft2 z 5lb/ft2 Product Type 2 Aged Solar Reflectance3 Thermal Emmitance SRI' Pass Fail6 ❑ ❑ ❑ ❑ ❑ 4 ❑ ❑ ❑ ❑ ❑ ❑ ❑ ° ❑ ❑ ❑ ❑ ❑ ❑ ❑° ❑ ❑ ❑ ❑ ❑ ❑ ❑ 4 ❑ ❑ ❑ ❑ ❑ ❑ ❑ 4 ❑ ❑ ❑ ❑ ❑ ❑ ❑ ° ❑ ❑ 1. The CRRC Product ID Number can be obtained from the Cool Roof Rating Council's Rated Product Directory at www.coolroofs.org/products/search.php 2. Indicate the type of product is being used for the roof top, i.e. single -ply roof, asphalt roof, metal roof, etc. 3. If the Aged Reflectance is not available in the Cool Roof Rating Council's Rated Product Directory then use the Initial Reflectance value from the same directory and use the equation (0.2+0.7(p;,,;tl„ — 0.2) to obtain a calculated aged value. Where p is the Initial Solar Reflectance from the Cool Roof Rating Council's Rated Product Directory. 4. Check box if the Aged Reflectance is a calculated value using the equation above. 5. The SRI value needs to be calculated from a spreadsheet calculator at http://www.energy.ca.aov/title24/ 6. If Fail then describe on this page of the Inspection Checklist Form and take appropriate action to correct. Verify building Tans if necessary. To apply Liquid Field Applied Coatings, the coating must be applied across the entire roof surface and meet the dry mil thickness or coverage recommended by the coatings manufacturer and meet minimum performance requirements listed in §118(i)4. Select the applicable coating: ❑ Aluminum -Pigmented Asphalt Roof Coating ❑ Cement -Based Roof Coating ❑ Other Discrepancies: Ener Pro 5.1 by Ener Soft User Number: 5100 RunCode: 2014-11-12T16:11:27 ID: Page 8 of 27 CERTIFICATE OF COMPLIANCE (Part 3 of 4) ENV -1 C AND FIELD INSPECTION ENERGY CHECKLIST Project Name PGA West Date 1 1/1 212 0 1 4 Required Acceptance Tests Designer: This form is to be used by the designer and attached to the plans. Listed below is the acceptance test for Envelope Fenestrations system. The designer is required to check the acceptance tests and list all the fenestration products that require an acceptance test. If all the site -built fenestration of a certain type requires a test, list the different fenestration products and the number of systems. The NA7 Section in the Appendix of the Nonresidential Reference Appendices Manual describes the test. Since this form will be part of the plans, completion of this section will allow the responsible party to budget for the scope of work appropriately. Enforcement Agency: Systems Acceptance. Before Occupancy Permit is granted for a newly constructed building or space or whenever new fenestration is installed in the building or space shall be certified as meeting the Acceptance Requirements. The ENV -2A form is not considered a complete form and is not to be accepted by the enforcement agency unless the boxes are checked and/or filled and signed. In addition, a Certificate of Acceptance forms shall be submitted to the enforcement agency that certifies plans, specifications, installation certificates, and operating and maintenance information meet the requirements of §10-103(b) of Title 24 Part 6. The field inspector must receive the properly filled out and signed forms before the building can receive final occupancy. A copy of the ENV -2A for each different fenestration product line must be provided to the owner of the building for their records. Test Description ENV -2A Test Performed By: Fenestration Products Name or ID Area of like Building Envelope Requiring Testing or Verification Products Acceptance Test PPG Solarbronze 1/2" Tinted 1,736 13 13 11 11 11 11 11 11 13 11 11 11 11 11 11 Ener Pro 5.1 by Ener Soft User Number: 5100 RunCode: 2014-11-12T16:11:27 ID: Page 9 of 27 CERTIFICATE OF COMPLIANCE (Part 4 of 4) ENV -1 C AND FIELD INSPECTION ENERGY CHECKLIST Project Name Date PGA West 11/12/2014 Project Address Climate Zone Total Cond. Floor Area Addition Floor Area 55-955 PGA Boulevard La Quinta CA Climate Zone 15 34,829 0 Documentation Author's Declaration Statement I certify that this Certificate of Compliance documentation is accurate and complete. Signature Name Company Hellman/Lober Inc. Date 1111212014 Address CEA # CEPE # City/State/Zip Phone The Principal Envelope Designer's Declaration Statement • I am eligible under Division 3 of the California Business and Professions Code to accept responsibility for the envelope design. • This Certificate of Compliance identifies the envelope features and performance specifications required for compliance with Title -24, Parts 1 and 6 of the California Code of Regulations. • The design features represented on this Certificate of Compliance are consistent with the information provided to document this design on the other applicable compliance forms, worksheets, calculations, plans and specifications submitted to the enforcement agency for approval with this building permit application. ` Name � I &k"i e� y� 1�� Signature Company PHXARCH Date Address 7507 E McDonald Drive Suite B License # City/State/Zip Scottsdale, Arizona 85250 Phone 480-477-1111 Envelope Mandatory Measures Indicate location on building plans of Mandatory Envelope Measures Note Block: INSTRUCTIONS TO APPLICANT ENVELOPE COMPLIANCE & WORKSHEETS (check box if worksheet is included) For detailed instructions on the use of this and all Energy Efficiency Standards compliance forms, please refer to the 2008 Nonresidential Manual published by the California Energy Commission. m ENV -1C Certificate of Compliance. Required on plans for all submittals. ❑ ENV -2C Use with the Envelope Component compliance approach. Optional on plans. m ENV -3C Use with the Overall Envelope compliance approach. Optional on plans. Use with Prescriptive compliance for the minimum skylight requirements for large enclosed spaces in climate zones ❑ ENV -4C 2 through 15. Optional on plans. Ener Pro 5.1 by Ener Soft User Number: 5100 RunCode: 2014-11-12716:11:27 ID: Pae 10 of 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Part 1 of 6) ENV -3C Project Name Date PGA West 11/12/2014 WINDOW RATIO CALCULATION for ALL WALLS A. Total linear display perimeter B. Total Gross Exterior Wall Area I C. Enter Larger of A or B 1,015 ft X 6 It = 11,714 ft2 X 0.40 = 6,087 ft2 4,686 ft2 6,087 ft2 D. Enter Proposed Window Area 5,935 ft2 Proposed Area If the proposed Window Area is greater than the Maximum Standard Area, then the envelope component method may not be used. 50.67 % See RSHG in Table 143-A, 143- E. Window Wall Ratio = (Row D) Divided by (Row B) = B, or 143-C Display Area 40% of Gross Exterior Wall Area Maximum Standard Area I WEST WINDOW RATIO CALCULATION I F. West Linear Display G. West Exterior Wall Area 391 ftX6ft = Z515 ft2 X 0.40 = 2,343 ft2 1,006 ft2 H. Enter Larger of F or G 2,343 ft2 Maximum Standard West Area I. Enter Proposed West Window Area 1,576 ft2 Proposed West Window Area If the proposed West Window Area is greater than the Maximum Standard West Area, then the envelope component method may not be used. 62.66 % See West RSHG in Table 143 A, J. Window Wall Ratio = (Row 1) Divided by (Row G) 143-13, or 143-C West Display Area 40% of West Exterior Wall Area COMBINED AREA FOR NORTH, EAST AND SOUTH WALLS K. N/E/S Display Perimeter (A Minus E) 624 ft X 6 ft = L. N/E/S Exterior Wall Area (B Minus G) 9199 ft2 X 0.40 = M. Enter Larger of K or L N. Proposed N/E/S Window Area (D Minus 1) WINDOW ADJUSTMENT 3,744 ft2 3,680 ft2 3,680 ft2 4,359 ft2 N/E/S of West Exterior Wall Area 40% N/E/S Area Maximum Standard N/E/S Area Proposed N/E/S Area O. If D > C and/or if I > H, proceed to the calculation steps 1 for all walls or 2 for west wall. If not, go to the skylight area test on page 6. 1. If D > C: Use the calculated Window Adjustment Factor (WAF) for all walls. PROPOSED WINDOW MAX. STANDARD AREA AREA WINDOW from C) from D) ADJUSTMENT FACTOR Go to Page 6 to calculate Adjusted Area 2. If I > H: Calculate one Window Adjustment Factor (WAF) for the West wall. MAX. STANDARD WEST PROPOSED WEST AREA WEST WINDOW AREA from H) from 1) ADJUSTMENT FACTOR MAX. STANDARD AREA PROPOSED AREA WEST WINDOW from C from D ADJUSTMENT FACTOR Go to Page 6 to calculate Adjusted Area Ener Pro 5.1 by Ener Soft User Number: 5100 RunCode: 2014-11-12T16:11:27 ID: Pae 11 of 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Part 2 of 6) ENV -3C Project Name Date PGA West 11111212014 SKYLIGHT RATIO CALCULATION §143(b) Actual Gross Roof Maximum Allowed Standard Area Skylight Area 1,481 ft A. If Atrium/Skylight Height is < 55 ft; or 29,625 ft, X 0.05 = B. If Atrium/Skylight Height is > 55 ft ft X 0.10 - ft C. Proposed Skylight Area 0 ft2 D. Skylight Ratio = Proposed Skylight Area (Row C) Divided by Actual Gross Roof Area = 0.0 % SRRPraP E. Maximum Allowed Skylight Roof Ratio = Maximum Allowed Standard Skylight Area = (Row A or B) Divided by Total Gross Exterior Roof Area 5 % SRRSTD IF THE PROPOSED SKYLIGHT AREA IS GREATER THAN THE STANDARD SKYLIGHT AREA, PROCEED TO THE NEXT CALCULATION FOR THE SKYLIGHT AREA ADJUSTMENT. IF NOT, GO TO PAGE 3 OF 6. SKYLIGHT AREA ADJUSTMENT IF F > D, Proceed To Calculation Step 1 Step 1. Calculated the Skylight Adjustment Factor (WAF). STANDARD PROPOSED SKYLIGHT SKYLIGHT ADJUSTMENT SKYLIGHT AREA AREA IF E = 0 ENTER 1) FACTOR(SAF) CARRY THE WINDOW ADJUSTMENT FACTOR (SAF) TO PAGE 6 OF 6 TO CALCULATE THE ADJUSTED AREA Energ Pro 5.1 by Energ Soft User Number: 5100 RunCode: 2014-11-12T16:11:27 ID: Page 12 of 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Page 3 of 6 ENV -3C Project Name PGA West Date 1 11/1212014 Climate Zone 15 TDV for the Standard Design Building, See Reference Nonresidential A endix NA5-2 Occupancy Type and Coefficients Tables m Nonresidential, See Table NA5-3 1 ❑ 24 -Hour Use, See Table NA5-4 1 ® Retail, See Table NA5-5 A B C D E F G H I J K I L M Number Of Like Roofs or Exterior Criteria Assembly Floor Mass Surface Fenetration Assembly Type' Orientation T e° T es Area T e U -factor' SHGC' Coefficients for' U -factor SHGC VT VT' Cs,,.; Cs,., Cs„ Standard TDV Ener i0 Wall E 1 Light 59 0.062 201.13 1 741 Window E 1 1 131 Site -built 0.470 0.310 0.372 40.08 666.01 -28.86 28,012 Wall S 1 Light 122 0.062 201.13 1,522 Window S 1 268 Site -built 0.470 0.310 0.372 32.84 586.58 -33.07 49,569 Wall W 1 Light 38 0.062 201.13 474 Window W 1 152 Site -built 0.4701 0.310 0.372 51.41 713.09 -30.12 35,570 Roof 1 Light 713 0.039 187.17 5,205 Wall S 1 Light 1 69 0.062 201.13 858 Window S 1 151 Site -built 0.470 0.310 0.3721 32.84 586.58 -33.07 27,962 Wall W 1 Light 130 0.062 201.13 1,621 Window W 1 504 Site -built 0.470 0.310 0.372 51.41 713.09 -30.12 117,944 Roof 1 Light 4,074 0.039 187.17 29,739 Wall S 1 Light 69 0.062 201.13 858 Window S 1 1 1 151 Site -built 0.470 0.310 0.372 32.84 586.58 -33.07 27,962 Wall N 1 Light 222 0.062 201.13 2,772 Window N 1 282 Site -built 0.470 0.4001 0.4801 54.491 303.70 -20.19 38,709 Sum of Total Standard Design 1,217,873 1. Indicate type of assembly for the Envelope (e.g. Wall, Floor, Roof, Window, Skylight 8 Door). One assembly type for each row. 2. Enter the area of each different assembly. 3. Enter the type of fenestration; M = Manufactured, SB = Site -built, SK = Skylight and F = Fabricated. 4. Grouping of like assemblies in the same orientation is allowed. Indicate the number in column E. 5. Enter Roofs, Floors, Walls and for Mass Walls the catergoies are; light (HC < 7), medium mass (7 5 HC,15), and heavy mass (HC z 15). 6. Standard Design 1 -1 -factor are from Table 143-A, B or C. 7. Standard Design SHGC are from Table 143-A, B or C. Enter V if not applicable. Note: Not all vertical windows have an overhang then assume SHGC as value entered. 8. To calculate the fenestration standard design VT in Column H. Multiply Column H by 1.2. 9. Coefficients for; Ll -factor (Cs,,,,), SHGC (Cs.,;), and VT(Cs,j, can be found in Table NA5-2, through Table NA5-5 of the Reference Nonresidential Appendices NA5. The Coefficient for SHGC and VT are only entered for the fenestration products. Enter V when not applicable. 10. Calculate the TDV Standard Design for each Envelope Assembly Type: TDVs,d = Column C x [Column E x ((U -factors; x Csw) + (SHGCsi x Css)+ (VT& x Csd))] for each Assembly Type. See Nonresidential Manual Examples in Section 3.7.1 for details. Energ Pro 5.1 by Energ Soft User Number: 5100 Run Code: 2014-11-12716:11:27 ID: Page 13 of 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Page 3 of 6 ENV -3C Project Name PGA West Date 1 11/1212014 I Climate Zone 15 TDV for the Standard Design Building, See Reference Nonresidential Appendix NA5-2 Occupancy Type and Coefficients Tables m Nonresidential, See Table NA5-3 1 ❑ 24 -Hour Use, See Table NA5-4 ® Retail, See Table NA5-5 A B C D E F G H I J I K I L M Number 01 Like Roofs or Exterior Criteria Assembly Floor Mass Surface Fenetration AssemblyType' Orientation Type Type' Area Type U -factor' SHGC' Coefficients for' U -factor SHGC VT VT8 Cs,,; Cs,.; Cs,.; Standard TDV Energy" Roof 1 Light 3,811 0.039 187.17 1 27,819 Wall N 1 Light 343 0.062 201.13 4,271 Window N 1 161 Site -built 0.470 0.400 0.480 54.49 303.70 -20.19 22,187 Wall N 1 Light 147 0.062 201.13 1,834 Window N 1 323 Site -built 0.470 0.400 0.480 54.49 303.70 -20.19 44,373 Roof 1 Light 2,618 0.039 187.17 19,110 Wall S 1 Light 91 0.062 201.13 1,131 Window S 1 199 Site -built 0.470 0.310 0.372 32.84 586.58 -33.07 36,859 Wall W 1 Light 124 0.062 201.13 1,546 Window W 1 204 Site -built 0.470 0.3101 0.372 51.41 713.09 -30.12 47,739 Wall N 1 Light 91 0.062 201.13 1,131 Window N 1 1991 Site -built 0.470 0.400 0.480 54.491 303.70 -20,191 27,379 Roof 1 Light 731 0.039 187.17 5,336 Wall E 1 Light 32 0.062 201.13 394 Window E 1 58 Site -built 0.470 0.310 0.372 40.08 666.01 -28.86 12,532 Wall E 1 Light 88 0.0621 1 201.13 1,103 Sum of Total Standard Design 1,217,873 1. Indicate type of assembly for the Envelope (e.g. Wall, Floor, Roof, Window, Skylight & Door). One assembly type for each row. 2. Enter the area of each different assembly. 3. Enter the type of fenestration; M = Manufactured, SB = Site -built, SK = Skylight and F = Fabricated. 4. Grouping of like assemblies in the same orientation is allowed. Indicate the number in column E. 5. Enter Roofs, Floors, Walls and for Mass Walls the catergoies are; light (HC <7), medium mass (7:5 HC,15), and heavy mass (HC 2 15). 6. Standard Design U -factor are from Table 143-A, B or C. 7. Standard Design SHGC are from Table 143-A, B or C. Enter "0" if not applicable. Note: Not all vertical windows have an overhang then assume SHGC as value entered. 8. To calculate the fenestration standard design VT in Column H. Multiply Column H by 1.2. 9. Coefficients for; U -factor (Cs„j), SHGC (Cs,j), and VT(Cs,j, can be found in Table NA5-2, through Table NA5-5 of the Reference Nonresidential Appendices NA5. The Coefficient for SHGC and VT are only entered for the fenestration products. Enter "0" when not applicable. 10. Calculate the TDV Standard Design for each Envelope Assembly Type: TDV&d = Column C x (Column E x ((U -factors; x Csd) + (SHGCsi x Cu)+ (VTs; x Csu))I for each Assembly Type. See Nonresidential Manual Examples in Section 3.7.1 for details. Energ Pro 5.1 by Energ Soli User Number., 5100 RunCode: 2014-11-12716:11:27 10: Page 14 of 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Page 3 of 6 ENV -3C Project Name PGA West Date 1 11/12/2014 Climate Zone 15 TDV for the Standard Design Building, See Reference Nonresidential A endix NA5-2 Occupancy Type and Coefficients Tables m Nonresidential, See Table NA5-3 ❑ 24 -Hour Use, See Table NA5-4 1 ® Retail, See Table NA5-5 A B C D E F G H I J K I L M Number Of Like Roofs or Exterior Criteria Assembly Floor Mass Surface Fenetration AssemblyType' Orientation T Type' Area Type U -factors SHGC' Coefficients fors U -factor SHGC VT VT° Cs,,,; Cs,+ Cs,.; Standard TDV Ener 's Window E 1 186 Site -built 0.470 0.310 0.372 40.08 666.01 -28.86 39,807 Wall S 1 Light 88 0.062 201.13 1,103 Window S 1 186 Site-builtl 0.470 0.310 0.372 32.84 586.58 -33.07 34,317 Wall W 1 Light 61 0.062 201.13 761 Window W 1 228 Site -built 0.470 0.310 0.372 51.41 713.09 -30.12 53,356 Roof 1 Light 2,368 0.039 187.17 17,286 Wall E 1 Light 1,320 0.062 201.13 16,460 Wall S 1 Light 226 0.062 201.13 2,815 Window S 1 144 Site -built 0.470 0.310 0.372 32.84 586.58 -33.07 26,691 Wall N 1 Light 188 0.0621 201.13 1 2,349 Window N 1 252 Site -built 0.470 0.400 0.480 54.49 303.70 -20.19 34,578 Roof 1 Light 5,012 0.039 187.17 36,586 Roof 1 Light 2,4551 0.039 187.17 17,921 Wall E 1 Light 144 0.042 201.13 1,220 Window E 1 76 Site -built 0.470 0.310 0.372 40.08 666.01 -28.86 16,218 Roof 1 Light 1,342 0.0391 187.171 1 9,796 Sum of Total Standard Design 1.217,873 1. Indicate type of assembly for the Envelope (e.g. Wall, Floor, Roof, Window, Skylight 8 Door). One assembly type for each row. 2. Enter the area of each different assembly. 3. Enter the type of fenestration; M = Manufactured, SS = Site -built, SK = Skylight and F = Fabricated. 4. Grouping of like assemblies in the same orientation is allowed. Indicate the number in column E. 5. Enter Roofs, Floors, Walls and for Mass Walls the catergoies are; light (HC < 7), medium mass (7 5 HC, 15), and heavy mass (HC t 15). 6. Standard Design U -factor are from Table 143-A, B or C. 7. Standard Design SHGC are from Table 143-A, B or C. Enter "0" if not applicable. Note: Not all vertical windows have an overhang then assume SHGC as value entered. 8. To calculate the fenestration standard design VT in Column H. Multiply Column H by 1.2. 9. Coefficients for; U -factor (Cso), SHGC (Cs,a), and VT(Cs,,,, can be found in Table NA5-2, through Table NA5-5 of the Reference Nonresidential Appendices NA5. The Coefficient for SHGC and VT are only entered for the fenestration products. Enter "0" when not applicable. 10. Calculate the TDV Standard Design for each Envelope Assembly Type: TDVs,d = Column C x [Column E x ((U -factors, x Csw) + (SHGCsi x Cs9)+ (VT& x Cse))) for each Assembly Type. See Nonresidential Manual Examples in Section 3.7.1 for details. Energ Pro 5.1 by Energ Soft User Number., 5100 RunCode: 201411-12T16:11:27 ID: Page 15 of 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Page 3 of 6 ENV -3C Project Name PGA West Date 11/12/2014 I Climate Zone 15 TDV for the Standard Design Building, See Reference Nonresidential A ndix NA5-2 Occupancy Type and Coefficients Tables 10 Nonresidential, See Table NAS -3 ❑ 24 -Hour Use, See Table NA5-4 ® Retail, See Table NA5-5 A B C D E F G H I J I K I L M Number Of Like Roofs or Exterior Criteria Assembly Floor Mass Surface Fenetration Assembly Type' Orientation Type' Type' Area Type 1.1 -factor" SHGC' Coefficients for' U -tactor SHGC VT VTs Cs,,.i Cs:.r Cs,.i Standard TDV Ener 10 Wall N 1 Light 292 0.062 201.13 3,641 Wall N 1 Light 5901 0.062 201.13 7,357 Wall N 1 Light 751 0.062 201.13 940 Window N 1 301 Site -built 0.470 0.400 0.480 54.49 303.70 -20.19 41,305 Root 1 Light 3,243 0.039 187.17 23,673 Wall E 1 Light 66 0.062 201.13 819 Window E 1 144 Site -built 0.470 0.310 0.372 40.08 666.01 -28.86 30,961 Root 1 Light 1,934 0.039 187.17 14,117 Wall E 1 Light 331 0.105 201.13 6,990 Wall S 1 Light 28 0.1051 201.13 595 Window S 1 62 Site -built 0.470 0.260 0.312 32.84 586.58 -33.07 9,748 Wall N 1 Light 28 0.105 201.13 595 Window N 1 621 Site -built 0.470 0.310 0.372 54.49 303.70 -20.19 6,942 Root 1 Light 662 0.028 187.17 3,469 Wall E 1 Light 251 0.062 1 1 201.13 3,130 Wall E 1 Light 104 0.0421 201.131 1 1 880 Sum of Total Standard Design 1,217,873 1. Indicate type of assembly for the Envelope (e.g. Wall, Floor, Roof, Window, Skylight & Door). One assembly type for each row. 2. Enter the area of each different assembly. 3. Enter the type of fenestration; M = Manufactured, SB = Site -built, SK = Skylight and F = Fabricated. 4. Grouping of like assemblies in the same orientation is allowed. Indicate the number in column E. 5. Enter Roofs, Floors, Walls and for Mass Walls the catergoies are; light (HC < 7), medium mass (7 5 HC, 15), and heavy mass (HC 2:15). 6. Standard Design U -factor are from Table 143-A, B or C. 7. Standard Design SHGC are from Table 143-A, B or C. Enter V if not applicable. Note: Not all vertical windows have an overhang then assume SHGC as value entered. 8. To calculate the fenestration standard design VT in Column H. Multiply Column H by 1.2. 9. Coefficients for; U -factor (Cs„ j), SHGC (Cs.1), and VT(Cs,a, can be found in Table NA5-2, through Table NA5-5 of the Reference Nonresidential Appendices NA5. The Coefficient for SHGC and VT are only entered for the fenestration products. Enter V when not applicable. 10. Calculate the TDV Standard Design for each Envelope Assembly Type: TDVsm = Column C x [Column E x ((U -factory x Csw) + (SHGCSi x Cs9)+ (VTy x Csn))j for each Assembly Type. See Nonresidential Manual Examples in Section 3.7.1 for details. EnergyPro 5.1 by Ener Soft User Number: 5100 RunCode: 2014-11-12T16:11:27 ID: Page 16772-7-1 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Page 3 of 6 ENV-3C Project Name PGA West Date 1 11/1212014 Climate Zone 15 TDV for the Standard Design Building, See Reference Nonresidential Appen ix NA5-2 Occupancy Type and Coefficients Tables 10 Nonresidential, See Table NA5-3 1 ❑ 24-Hour Use, See Table NA5-4 1 ® Retail, See Table NA5-5 A B C D E F G H I J K I L M Number Of Like Roofs or Exterior Criteria Assembly Floor Mass Surface Fenetration AssemblyType' Orientation T T es Area T e U-factor' SHGC' Coefficients for' 1.1-factor SHGC VT Standard TDV VT' Cs,,,, Cs,; Cs,.; Ener 10 Window E 1 141 Site-built 0.470 0.310 0.372 40.08 666.01 -28.86 30,224 Roof 1 Light 662 0.039 187.17 4,832 Wall S 1 Light 130 0.062 253.96 2,047 Window S 1 268 Site-built 0.470 0.310 0.3721 17.55 311.65 -7.90 27,313 Wall W 1 Light 106 1 0.062 253.96 1,669 Window W 1 424 Site-built 0.470 0.310 0.372 21.34 297.46 -6.94 42,256 Wall W 1 Light 408 0.062 201.13 5,088 Window W 1 16 Site-built 0.470 0.310 0.372 51.41 713.09 -30.12 3,744 Wall S 1 Light 260 0.062 253.96 4,094 Wall W 1 Light 72 0.062 253.96 1,134 Window W 1 48 Site-built 0.470 0.310 0.372 21.34 297.46 -6.94 4,784 Sum of Total Standard Design 1,217,873 1. Indicate type of assembly for the Envelope (e.g. Wall, Floor, Roof, Window, Skylight & Door). One assembly type for each row. 2. Enter the area of each different assembly. 3. Enter the type of fenestration; M = Manufactured, SB = Site-built, SK = Skylight and F = Fabricated. 4. Grouping of like assemblies in the same orientation is allowed. Indicate the number in column E. 5. Enter Roofs, Floors, Walls and for Mass Walls the catergoies are; light (HC < 7), medium mass (7 5 HC, 15), and heavy mass (HC a 15). 6. Standard Design U-factor are from Table 143-A, B or C. 7. Standard Design SHGC are from Table 143-A, 8 or C. Enter V if not applicable. Note: Not all vertical windows have an overhang then assume SHGC as value entered. 8. To calculate the fenestration standard design VT in Column H. Multiply Column H by 1.2. 9. Coefficients for; U-factor (Cs„j), SHGC (Cs,,,), and VT(Cs,a, can be found in Table NA5.2, through Table NAS-5 of the Reference Nonresidential Appendices NA5. The Coefficient for SHGC and VT are only entered for the fenestration products. Enter V when not applicable. 10. Calculate the TDV Standard Design for each Envelope Assembly Type: TDVs,a = Column C x [Column E x ((U-factors; x Cse) + (SHGC. x Csa)+ (VT& x Cso))) for each Assembly Type. See Nonresidential Manual Examples in Section 3.7.1 for details. Energ Pro 5.1 by Energ Soft User Number., 5100 RunCode: 2014-11-12T16:11:27 ID: Page 17 of 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Page 4 of 6 ENV -3C Project Name Date PGA West 1 11/1212014 TDV for the Proposed Desion Building. See Reference Nonresidential Appendix NA5.3 Occupancy Type and Coefficients m Nonresidential, See ❑ 24 -Hour Use, See Table 10 Retail, See Table NA5-5 Climate Zone: 15 Tables Table NA5-3 NA5-4 A B C D E F I G H I J K L M N Number Total Coefficientsfor Of Lke Exterior Criteria 1.1 -factor' RSHGC' VT' Cool Roofs Overhang" Assembly Surface Fenestration Proposed TDV Assembly Type' Orientationz Type' Area' Type 4 U -factors I SHGC' VT' CSU,i Cy; Ct,i MCR MOH Energy" Wall E 1 38 0.2441 201.13 1,865 Window E 1 152 Site -built 1.190 0.830 0.996 40.08 666.01 -28.86 1.000 86,904 Wall S 1 78 0.244 201.13 3,828 Window S 1 312 Site -built 1.190 0.830 0.996 32.841 586.58 -33.07 1.000 153,817 Wall W 1 38 0.244 201.13 1,865 Window W 1 152 Site -built 1.190 0.830 0.996 51.41 713.09 -30.12 1.000 94,703 Roof 1 713 0.051 187.17 2.053 1 13,973 Wall S 1 44 0.244 201.13 2,159 Window S 1 176 Site -built 1.190 0.830 0.996 32.84 586.58 -33.07 1.000 86,759 Wall W 1 130 0.244 201.13 6,380 Window W 1 504 Site -built 1.190 0.830 0.996 51.41 713.09 -30.12 1.000 314,014 Roof 1 4,074 0.051 187.17 2.053 79,839 Wall IS 1 44 0.244 201.13 1 2,159 Window S 1 176 Site -built 1.087 0.484 0.270 32.84 586.58 -33.07 1.000 54,700 Wall N 1 176 0. 2 4 41 201.13 8,637 Window N 1 3281 Site -built 1.0871 0.4841 0.2701 54.491 303.70 -20.19 1.000 65,874 Total Proposed Desi n" 3,235,350 Proposed 5 Standard NO 1. Indicate type of assembly for the Envelope (e.g. Wall, Floor, Roof, Window, Skylight & Door). One assembly type for each row. 2. Indicate the orientation for walls, doors & windows. 2A. Note: Grouping of like assemblies in the same orientation is allowed. Enter the number in column C. 3. Indicate the Exterior Surface Area of the Assembly for that one assembly or if like assemblies then the total surface area of all assemblies in the same orientation. 4. Enter the type of fenestration; M = Manufactured, SB = Site -built, SK = Skylight and F = Fabricated. 5. Proposed Design 1.1 -factor are from Table 143-A, B or C for the appropriate assembly type. 6. Proposed Design SHGC are from Table 143-A, B or C. Enter V if not applicable. Note: Not all vertical windows have an overhang then assume SHGC as value entered. 7. To calculate the fenestration proposed design VT in Column H. Multiply Column G by 1.2. 8. Coefficients for; U -tactor (Cs„j), SHGC (Cs,j), and VT(Cs,a, can be found in Table NA5.2, through Table NA5.5 of the Reference Nonresidential Appendices NA5. The Coefficient for SHGC and VT are only entered for the fenestration products. Enter V when not applicable. 9. Calculate the Cool Roof, MCR, first by using the next page (Page 5 of 6). Enter the value in the Proposed Column L. 10. Calculate the Overhang MOH on the next page (Page 5 of 6). Enter the value in the Proposed Column M. 11. The Proposed TDV energy use for all assemblies other than roofs must be equal to or less than Standard TDV in Page 3 of 6. Therfore; TDVP = Column D x [(U factor x CSu) + (CRui x URi x MCRi) + (SHGCP x CSsi x MOH ) + (VTP x CSI)] Enter the calculated value in Column N. 12. Sum up all the Proposed TDV Energy in Column N and enter value in the cell. Similarly enter the sum of all Standard TDV Energy and compare. Proposed must be s to the Standard. EnergyPro 5.1 by EnerpySoft User Number: 5100 RunCode: 201411-12716:11:27 ID: Pae18 of 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Page 4 of 6 ENV -3C Project Name Date PGA West 1 1111212014 TDV for the Proposed Design Building, See Reference Nonresidential Appendix NA5.3 Occupancy Type and Coefficients m Nonresidential, See ❑ 24 -Hour Use, See Table m Retail, See Table NA5-5 15 Tables Table NA5-3 NA5-4 Climate Zone: A B C D E F G H 1 J K I L M N Number Total Coefficientsfor Of Lke Exterior Criteria U-faclor8 RSHGC8 VTB Cool Roof' Overhang" Assembly Surface Fenestration Proposed TDV AssemblyType' Orientation T eu' Area Type' U -tactors SHGCB VTr Csu,i Cs:; Ct,i MCR W. Ener " Roof 1 3,811 0.051 187.17 2.053 74,685 Wall N 1 316 0.244 201.13 15,508 Window N 1 188 Site -built 1.087 0.484 0.270 54.49 303.70 -20.19 1.000 37,757 Wall N 1 94 0.244 201.13 4,613 Window N 1 376 Site -built 1.087 0.484 0.270 54.49 303.70 -20.19 1.000 75,514 Roof 1 2,618 0.051 187.17 2.053 51,306 Wall S 1 58 0.244 201.13 2,846 Window S 1 232 Site -built 1.087 0.484 0.270 32.84 586.58 -33.07 1.000 72,104 Wall W 1 124 0.244 201.13 6,085 Window W 1 204 Site -built 1 1.087 O.4841 0.270 51.41 713.09 -30.12 1.000 80,179 Wall N 1 58 0.244 201.13 2,846 Window N 1 232 Site -built 1.087 0.484 0.270 54.49 303.70 -20.19 1.000 46,594 Roof 1 731 0.051 187.17 2.053 14,326 Wall E 1 22 0.244 201.13 1,080 Window E 1 68 Site -built 1.190 0.830 0.996 40.08 666.01 -28.86 1.000 38,878 Wall I E 1 1 58 1 0.244 1 F 201.13 2,846 Total Proposed Design 12 3,235,350 Proposed 5 Standard NO 1. Indicate type of assembly for the Envelope (e.g. Wall, Floor, Roof, Window, Skylight & Door). One assembly type for each row. 2. Indicate the orientation for walls, doors & windows. 2A. Note: Grouping of like assemblies in the same orientation is allowed. Enter the number in column C. 3. Indicate the Exterior Surface Area of the Assembly for that one assembly or if like assemblies then the total surface area of all assemblies in the same orientation. 4. Enter the type of fenestration; M = Manufactured, SB = Site -built, SK = Skylight and F = Fabricated. 5. Proposed Design U -factor are from Table 143-A, B or C for the appropriate assembly type. 6. Proposed Design SHGC are from Table 143-A, B or C. Enter "0" if not applicable. Note: Not all vertical windows have an overhang then assume SHGC as value entered. 7. To calculate the fenestration proposed design VT in Column H. Multiply Column G by 1.2. 8. Coefficients for; U -factor (Cs„ j), SHGC (Cs,j), and VT(Csl,, can be found in Table NA5.2, through Table NA5.5 of the Reference Nonresidential Appendices NA5. The Coefficient for SHGC and VT are only entered for the fenestration products. Enter "0" when not applicable. 9. Calculate the Cool Roof, MCR, first by using the next page (Page 5 of 6). Enter the value in the Proposed Column L. 10. Calculate the Overhang MOH on the next page (Page 5 of 6). Enter the value in the Proposed Column M. 11. The Proposed TDV energy use for all assemblies other than roofs must be equal to or less than Standard TDV in Page 3 of 6. Therfore; TDVr = Column D x [(U factor x CSu) + (CRui x URi x MCRi) + (SHGCP x CSsi x MOH ) + (VTP x CSt)] Enter the calculated value in Column N. 12. Sum up all the Proposed TDV Energy in Column N and enter value in the cell. Similarly enter the sum of all Standard TDV Energy and compare. Proposed must be s to the Standard. EnergyPro 5.1 by EnergySoft User Number. 5100 RunCode: 201411-12T16:11:27 ID: Pae 19 of 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Page 4 of 6 ENV -3C Project Name Date PGA West 11/12/2014 TDV for the Proposed Desion Building. See Reference Nonresidential Appendix NA5.3 Occupancy Type and Coefficients m Nonresidential, See ❑ 24 -Hour Use, See Table to Retail, See Table NA5-5 Climate Zone: 15 Tables Table NA5-3 NA5-4 A B C D E F I G H I J K L M N Number Total Coefficients for Of Uke Exterior Criteria 1.1 -factor" RSHGCe We Cool Roof' Overhang'" Assembly Surface Fenestration Proposed TDV Assembly Type' Orientationz Type' Area' Type 4 U -factor' SHGC" VT' Csu,i C&J Ct,i Mca Mo. Energy" Window E 1 216 Site -built 1.190 0.830 0.996 40.08 666.01 -28.86 1.000 123,496 Wall S 1 58 0.244 201.13 2,846 Window S 1 216 Site-buift 1.190 0.830 0.996 32.84 586.58 -33.07 1.000 106,489 Wall W 1 61 0.244 201.13 2,994 Window W 1 228 Site -built 1.190 0.830 0.996 51.41 713.09 -30.12 1.000 142,054 Roof 1 2,368 0.051 187.17 2.053 46,406 Wall E 1 1,320 0.244 201.13 64,780 Wall S 1 202 0.244 201.13 9,913 Window S 1 168 Site -built 1.190 0.830 0.996 32.84 586.58 -33.07 1.000 82,825 Wall N 1 147 0.244 201.13 7,214 Window N 1 293 Site -built 1.1901 0.830 0.996 54.49 303.70 -20.19 1.000 86,964 Roof 1 5,012 0.051 187.17 2.053 98,221 Roof 1 2,455 0.051 1 187.17 2.053 48,111 Wall E 1 1321 0.102 201.13 2,708 Window E 1 88 Site -built 1.190 0.830 0.996 40.08 666.01 -28.86 1.000 50,313 Roof 1 1,342 0.051 187.17 2.053 26,300 Total Proposed Desi n1z 3,235,350 Proposed 5 Standard I NO 1. Indicate type of assembly for the Envelope (e.g. Wall, Floor, Roof, Window, Skylight & Door). One assembly type for each row. 2. Indicate the orientation for walls, doors & windows. 2A. Note: Grouping of like assemblies in the same orientation is allowed. Enter the number in column C. 3. Indicate the Exterior Surface Area of the Assembly for that one assembly or it like assemblies then the total surface area of all assemblies in the same orientation. 4. Enter the type of fenestration; M = Manufactured, SB = Site -built, SK = Skylight and F = Fabricated. 5. Proposed Design U -factor are from Table 143-A, B or C for the appropriate assembly type. 6. Proposed Design SHGC are from Table 143-A, B or C. Enter V if not applicable. Note: Not all vertical windows have an overhang then assume SHGC as value entered. 7. To calculate the fenestration proposed design VT in Column H. Multiply Column G by 1.2. 8. Coefficients for; U -factor (C%,,), SHGC (Cs,a), and VT(Crnj, can be found in Table NA5.2, through Table NA5.5 of the Reference Nonresidential Appendices NA5. The Coefficient for SHGC and VT are only entered for the fenestration products. Enter V when not applicable. 9. Calculate the Cool Roof, Mcs, first by using the next page (Page 5 of 6). Enter the value in the Proposed Column L 10. Calculate the Overhang Mom on the next page (Page 5 of 6). Enter the value in the Proposed Column M. 11. The Proposed TDV energy use for all assemblies other than roofs must be equal to or less than Standard TDV in Page 3 of 6. Therfore; TDVP = Column D x [(U factor x CSu) + (CRui x URi x MCRi) + (SHGCP x CSsi x MOH ) + (VTP x CSt)] Enter the calculated value in Column N. 12. Sum up all the Proposed TDV Energy in Column N and enter value in the cell. Similarly enter the sum of all Standard TDV Energy and compare. Proposed must be s to the Standard. 7__ nPro 5.1 by EnergySoft User Number: 5100 RunCode: 2014-11-12716:11:27 ID: Page 20 of 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Page 4 of 6 ENV -3C Project Name Date PGA West 1 11/12/2014 TDV for the Proposed Design Building. See Reference Nonresidential Appendix NA5.3 Occupancy Type and Coefficients m Nonresidential, See ❑ 24 -Hour Use, See Table m Retail, See Table NA5-5 15 Tables I Table NA5-3 NA5-4 Climate Zone: A B C D E F I G H I J K L M N Number Total Coefficients for Of Uka Exterior Criteria U -factors RSHGC8 VT6 Cool Roof' Overhang"' Assembly Surface Fenestration Proposed TDV Assembly Type' Orientation2 T e' Area T factors SHGC6 VT Type' U-' Csu,i Cy; .CtJ MCR Mom Energy" Wall N 1 292 0.244 201.13 14,330 Wall N 1 590 0.244 201.13 28,955 Wall N 1 26 0.244 201.13 1,276 Window N 1 350 Site -built 1.190 0.830 0.996 54.49 303.70 -20.19 1.000 103,882 Roof 1 3,243 0.051 187.17 2.053 63,554 Wall E 1 42 0.244 201.13 12,061 Window E 1 168 Site -built 1.190 0.830 0.996 40.08 666.01 -28.86 1.000 96,052 Roof 1 1,934 0.051 187.17 2.053 37,901 we// E 1 331 0.244 201.13 16,244 Wall S 1 18 0.244 201.13 883 Window S 1 72 Site -built 1.190 0.830 0.996 32.84 586.58 -33.07 1.000 35,496 Wall N 1 18 0.244 201.13 863 Window N 1 721 Site -built 1.190 0.830 0.996 54.49 303.70 -20.19 1.000 21,370 Roof 1 662 0.051 187.17 2.0531 12,973 Wall E 1 251 0.2441 1 1 201.13 12,318 Wall JE 1 811 0.102 201.131 1,662 Total Proposed Design 12 3,235,350 Proposed 5 Standard NO 1. Indicate type of assembly for the Envelope (e.g. Wall, Floor, Roof, Window, Skylight & Door). One assembly type for each row. 2. Indicate the orientation for walls, doors & windows. 2A. Note: Grouping of like assemblies in the same orientation is allowed. Enter the number in column C. 3. Indicate the Exterior Surface Area of the Assembly for that one assembly or if like assemblies then the total surface area of all assemblies in the same orientation. 4. Enter the type of fenestration; M = Manufactured, SB = Site -built, SK = Skylight and F = Fabricated. 5. Proposed Design U -factor are from Table 143-A, B or C for the appropriate assembly type. 6. Proposed Design SHGC are from Table 143-A, B or C. Enter V if not applicable. Note: Not all venical windows have an overhang then assume SHGC as value entered. 7. To calculate the fenestration proposed design VT in Column H. Multiply Column G by 1.2. 8. Coefficients for; U -factor (Cs„ j), SHGC (Cs,,,), and VT(Cs,o, can be found in Table NA5.2, through Table NA5.5 of the Reference Nonresidential Appendices NA5. The Coefficient for SHGC and VT are only entered for the fenestration products. Enter "0" when not applicable. 9. Calculate the Cool Roof, MCA, first by using the next page (Page 5 of 6). Enter the value in the Proposed Column L. 10. Calculate the Overhang Mom on the next page (Page 5 of 6). Enter the value in the Proposed Column M. 11. The Proposed TDV energy use for all assemblies other than roofs must be equal to or less than Standard TDV in Page 3 of 6. Therfore; TDVP = Column D x I(U factor x CSu) + (CRui x URi x MCRi) + (SHGCP x CSsi x MOH ) + (VTP x CSt)] Enter the calculated value in Column N. 12. Sum up all the Proposed TDV Energy in Column N and enter value in the cell. Similarly enter the sum of all Standard TDV Energy and compare. Proposed must be s to the Standard. EnergyPro 5.1 by EnergySoft User Number. 5100 Run Code: 2014-11-12T16:11:27 ID: Pa a 21 of 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Page 4 of 6 ENV -3C Project Name PGA West Date 1 11/12/2014 TDV for the Proposed Desion Building. See Reference Nonresidential Appendix NA5.3 Occupancy Type and Coefficients Tables m Nonresidential, See I Table NA5-3 1 ❑ 24 -Hour Use, See Table NA5-4 10 Retail, See Table NA5-5 Climate Zone: 15 A B C D E F I G I H I J K L M N Number Total Coefficientsfor Of Like Exterior Criteria 1.1 -factor' RSHGC' VI' Cool Roof' Overhang" Assembly Surface Fenestration AssemblyType' Orientation Type' Area' Type' 1.1 -factor' SHGC' VT' Csu,i CS,.; Ct,i MCR Mom Proposed TDV Energy" Window E 1 164 Site -built 1.190 0.830 0.996 40.08 666.01 -28.86 1.000 93,765 Roof 1 662 0.051 1 187.17 2.053 12,973 Wall S 1 86 0.244 253.96 5,329 Window S 1 312 Site -built 1.190 0.830 0.996 17.55 311.65 -7.90 1.000 84,766 Wall W 1 106 0.244 253.96 6,568 Window W 1 424 Site -built 1.190 0.830 0.996 21.34 297.46 -6.94 1.000 112,519 Wall W 1 408 1 0.244 201.13 20,023 Window W 1 16 Site -built 1.190 0.830 0.996 51.41 713.09 -30.12 1.000 9,969 Wall S 1 260 0.244 253.96 16,111 Wall W 1 72 0.244 253.96 4,462 Window W 1 48 Site -built 1.190 0.830 0.996 21.34 297.46 -6.94 1.000 12,738 Total Proposed Design 12 3,235,350 Proposed 5 Standard NO 1. Indicate type of assembly for the Envelope (e.g. Wall, Floor, Roof, Window, Skylight 8 Door). One assembly type for each row. 2. Indicate the orientation for walls, doors 8 windows. 2A. Note: Grouping of like assemblies in the same orientation is allowed. Enter the number in column C. 3. Indicate the Exterior Surface Area of the Assembly for that one assembly or if like assemblies then the total surface area of all assemblies in the same orientation. 4. Enter the type of fenestration; M = Manufactured, SB - Site -built, SK = Skylight and F = Fabricated. 5. Proposed Design U -factor are from Table 143-A, B or C for the appropriate assembly type. 6. Proposed Design SHGC are from Table 143-A, B or C. Enter V if not applicable. Note: Not all vertical windows have an overhang then assume SHGC as value entered. 7. To calculate the fenestration proposed design VT in Column H. Multiply Column G by 1.2. 8. Coefficients for; U -factor (Cs„ j), SHGC (Cs,j), and VT(C%j. can be found in Table NA5.2, through Table NA5.5 of the Reference Nonresidential Appendices NA5. The Coefficient for SHGC and VT are only entered for the fenestration products. Enter V when not applicable. 9. Calculate the Cool Roof, MCR, first by using the next page (Page 5 of 6). Enter the value in the Proposed Column L. 10. Calculate the Overhang Mom on the next page (Page 5 of 6). Enter the value in the Proposed Column M. 11. The Proposed TDV energy use for all assemblies other than roofs must be equal to or less than Standard TDV in Page 3 of 6. Therfore; TDVP = Column D x ((U factor x CSu) + (CRui x URi x MCRi) + (SHGCP x CSsi x MOH ) + (VTP x CSt)] Enter the calculated value in Column N. 12. Sum up all the Proposed TDV Energy in Column N and enter value in the cell. Similarly enter the sum of all Standard TDV Energy and compare. Proposed must be s to the Standard. EnergyPro 5.1 by EnergySoft User Number: 5100 RunCode: 2014-11-12T16:11:27 ID: Page 22=.f27 OVERALL ENVELOPE TDV ENERGY APPROACH (Part 5 of 6) ENV -3C Project Name PGA West Date 11111212014 Cool Roof multiplier (McR) Occupancy Type and Coefficients Tables m Nonresidential, See I Table NA5-3 ❑ 24 -Hour Use, See Table NA5-4 ® Retail, See Table NA5-5 Climate Zone: 15 Coefficients of Calculation A B C D E F G Reflectance Emittance Proposed Aged Solar Reflectance Standard Aged Solar Reflectance' Proposed Thermal Emittance Standard Thermal Emittance Cool Roof Multi lier2 -2.540 -0.900 0.10 0.55 0.85 0.75 2.053 -2.540 -0.900 0.10 0.55 0.85 0.75 2.053 -2.540 -0.900 0.10 0.55 0.85 0.75 2.053 -2.540 -0.900 0.10 0.55 0.85 0.75 2.053 -2.540 -0.900 0.10 0.55 0.85 0.75 2.053 -2.540 -0.900 0.10 0.55 0.85 0.75 2.053 -2.540 -0.900 0.10 0.55 0.85 0.75 2.053 -2.540 -0.900 0.10 0.55 0.85 0.75 2.053 -2.540 -0.900 0.10 0.55 0.85 0.75 2.053 2.540 0.900 0.10 0.55 0.85 0.75 2.053 Enter multiplier in Page 4 of 6, Column J. Where: Standard design values for Solar Reflectance and Thermal Emittance. Except from Table NA5-2 Standard Aged Solar Reflectance Column D Standard Thermal Emittance Column F Low -Rise, Low -Sloped, CZ2 through CZ15 0.55 0.75 Low -Rise, Low -Sloped, CZ1 through CZ16 0.10 0.75 High -Rise, Low -Sloped, CZ10 through CZ15 0.55 0.75 High -Rise, Low -Sloped, CZ1-9 through CZ16 0.10 0.75 Steep -Sloped, CZ2 through CZ15 0.25 0.75 Steep -Sloped, all other 0.10 0.75 1. Proposed Aged Design Solar Reflectance; paged prop = 0.7 X (pini; prop + 0.06). Where (pinit prop) reflectance value is found in the CRRC Directory. Enter results of the Cool Roof Multiplier equation in footnote 2. 2. Cool Roof Multiplier MCR,, = 1 + CRef X (Paged prop - Paged std) + C+Emii X (Eprop - Esid) or 1 + Col A X Col C - Col D + Col B X (Col E - Col F Overhang Multiplier (MOH) Occupancy Type and Coefficients Tables ® Nonresidential, See I Table NA5-3 I ❑ 24 -Hour Use, See Table NA5-4 m Retail, See Table NA5-5 Climate Zone: 15 Coefficients of Fenestration Overhang Calculation A B C D E F G is,2" Projection Orientation Factor' Horizontal Projection Projection Factor'(ft) Vertical Distance ftz Projection Factorz Overhan Multiplier Enter multiplier in Page 4 of 6 Column K. 1 . Where ai and b; are he coefficients for the overhang projection factor (see tables) and is climate zone dependent. 2. PF = HN (Horizontal (H) projection of the overhang from the surface of the window in feet, but no greater than V and the Vertical (V) distance from the window sill to the bottom of the overhang, in feet.) Enter results in Column F. 3. MoH,i = 1+ ai X PF; + bi X PF;Z. Enter results in Column G. EnergyPro 5.1 by Energysc User Number: 5100 RunCode: 2014-11-12716:11:27 ID: Page 23 of 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Part 5 of 6) ENV -3C Project Name PGA West Date 11111212014 Cool Roof multiplier (MCR) Occupancy Type and Coefficients Tables m Nonresidential, See Table NA5-3 ❑ 24 -Hour Use, See Table NA5-4 ® Retail, See Table NA5-5 Climate Zone: 15 Coefficients of Calculation A B C D E F G Reflectance Emittance Proposed Aged Solar Reflectance Standard Aged Solar Reflectance' Proposed Thermal Emittance Standard Thermal Emittance Cool Roof Multiplier 2 -2.540 -0.900 0.10 0.55 0.85 0.75 2.053 -2.540 -0.900 0.10 0.55 0.85 0.75 2.053 -2.540 -0.900 0.10 0.55 0.85 0.75 2.053 Enter multiplier in Page 4 of 6, Column J. Where: Standard design values for Solar Reflectance and Thermal Emittance. Except from Table NA5-2 Standard Aged Solar Reflectance Column D Standard Thermal Emittance Column F Low -Rise, Low -Sloped, CZ2 through CZ15 0.55 0.75 Low -Rise, Low -Sloped, CZ1 through CZ16 0.10 0.75 High -Rise, Low -Sloped, CZ10 through CZ15 0.55 0.75 Hi h -Rise, Low -Sloped, CZ1-9 through CZ16 0.10 0.75 Steep -Sloped, CZ2 through CZ15 0.25 0.75 Steep -Sloped, all other 0.10 0.75 1. Proposed Aged Design Solar Reflectance; paged Prop = 0.7 X (p;n;t prop + 0.06). Where (pipit prop) reflectance value is found in the CRRC Directory. Enter results of the Cool Roof Multiplier equation in footnote 2. 2. Cool Roof Multiplier MgRj = 1 + CRet X (Paged prop - Paged std + CEmit X (Eprop - Estd or 1 + Col A X Col C - Col D + Col B X Col E - Col F Overhang multiplier (MOH) Occupancy Type and Coefficients Tables ® Nonresidential, See I Table NA5-3 ❑ 24 -Hour Use, See Table I NA5-4 m Retail, See Table NA5-5 Climate Zone: 15 Coefficients of Fenestration Overhang Calculation A B C D E F G 1s Projection Orientation Factor' 2" Horizontal Projection Projection Factor' ft' Vertical Distance ft' Projection Factor' Overhan Multiplier Enter multiplier in Page 4 of 6 Column K. 1. Where a; and b; are he coefficients for the overhang projection factor (see tables) and is climate zone dependent. 2. PF = HN (Horizontal (H) projection of the overhang from the surface of the window in feet, but no greater than V and the Vertical (V) distance from the window sill to the bottom of the overhang, in feet.) Enter results in Column F. 3. M01-1.1 = 1+ a; X PF; + b; X PF;'. Enter results in Column G. EnergyPro 5.1 by Energysc User Number: 5100 RunCode: 2014-11-12T16:11:27 ID: Page 24 of 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Part 6 of 6) ENV-3C Project Name PGA West Date 11111212014 WINDOW AREA ADJUSTMENT CALCULATION A B C D E F G Wall Name (e.g. Wall-1, Wall-2 Orientation Gross Area Door Area Window Area .Window Adjustment Factor From Pagel) Adjusted Window Area D X E Adjusted Wall Area B — F + C N E S W Exterior Wall East ❑ ❑ ❑ ❑ ❑ ❑ 0 0 0 ❑ ❑ 0 ❑ ❑ ❑ ❑ ❑ ❑ 0 ❑ ❑ 0 ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ 0 0 ❑ ❑ 0 ❑ ❑ 0 ❑ ❑ 0 ❑ 0 ❑ 0 ❑ ❑ ❑ 0 ❑ ❑ ❑ ❑ 0 ❑ ❑ 0 ❑ ❑ ❑ ❑ ❑ 0 ❑ 0 ❑ ❑ ❑ ❑ ❑ © ❑ ❑ ❑ ❑ 0 ❑ ❑ ❑ ❑ ❑ 190 0 152 0.859 131 59 Exterior Wall South 390 0 312 0.859 268 122 Exterior Wall West 190 0 152 1.000 152 38 Exterior Wall South 220 0 176 0.859 151 69 Exterior Wall West 634 0 504 1.000 504 130 Exterior Wall South 220 0 176 0.859 151 69 Exterior Wall West 504 0 328 0.859 282 222 Exterior Wall West 504 0 188 0.859 161 343 Exterior Wall North 470 0 376 0.859 323 147 Exterior Wall South West 290 0 232 0.859 199 91 Exterior Wall North East 328 0 204 1.000 204 124 Exterior Wall North East 290 0 232 0.859 199 91 Exterior Wall East 90 0 68 0.859 58 32 Exterior Wall South East 274 0 216 0.859 186 88 Exterior Wall South West 274 0 216 0.859 186 88 Exterior Wall West 289 0 228 1.000 2281 61 Exterior Wall East 1,320 0 0 0.859 0 1,320 Exterior Wall South 370 0 168 0.859 144 226 Exterior Wall North 440 0 293 0.859 252 188 Exterior Wall East 220 0 881 0.8591 76 144 7,507 0 4,3091 1 3,8551 3,652 Totals: SKYLIGHT AREA ADJUSTMENT CALCULATIONS A B C D E F Roof Name (e.g. Roof-1, Roof-2 Gross Area Skylight Area Skylight Adjustment Factor From Pae 1 Adjusted Skylight Area C X D Adjusted Roof Area B — E Totals: Ener Pro 5.1 by Ener Soft User Number: 5100 RunCode: 2014-11-12T16:11:27 ID: Page 25 of 27 OVERALL ENVELOPE TDV ENERGY APPROACH (Part 6 of 6) ENV -3C Project Name PGA West Date 11111212014 WINDOW AREA ADJUSTMENT CALCULATION A B C D E F G Wall Name (e.g. Wall -1, Wall -2 Orientation Gross Area Door Area Window Area Window Adjustment Factor From Pagel) Adjusted Window Area D X E Adjusted Wall Area B — F + C N E I S I W Exterior Wall West 0 0 0 ❑ ❑ ❑ 0 ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ 0 0 ❑ ❑ 0 0 ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ 0 ❑ ❑ ❑ 0 ❑ ❑ 0 ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ 0 0 ❑ 0 ❑ ❑ ❑ ❑ ❑ ❑ ❑ 1 292 0 0 0.859 0 292 Exterior Wall North 590 0 0 0.859 0 590 Exterior Wall East 376 0 350 0.859 301 75 Exterior Wall East 210 0 168 0.859 144 66 Exterior Wall East 331 0 0 0.859 0 331 Exterior Wall South 90 0 72 0.859 62 28 Exterior Wall North 90 0 72 0.859 62 28 Exterior Wall East 251 0 0 0.859 0 251 Exterior Wall North 245 0 164 0.859 141 104 Exterior Wall South 398 0 312 0.859 268 130 Exterior Wall West 530 0 424 1.000 424 106 Exterior Wall West 424 0 16 1.000 16 408 Exterior Wall South 260 0 0 0.859 0 260 Exterior Wall West 120 0 48 1.000 48 72 4,207 0 1,6261 1,465 2,742 Totals: SKYLIGHT AREA ADJUSTMENT CALCULATIONS A B C D E F Roof Name (e.g. Roof -1, Roof -2 Gross Area Skylight Area Skylight Adjustment Factor From Pae 1 Adjusted Skylight Area C X D Adjusted Roof Area B — E Totals: Ener Pro 5.1 by Ener Soft User Number: 5100 RunCode: 2014-11-12716:11:27 ID: Page 26 of 27 ENVELOPE MANDATORY MEASURES: NONRESIDENTIAL ENV -MM Project Name Date PGA West 11/12/2014 DESCRIPTION Building Envelope Measures: §118(a): Installed insulating material shall have been certified by the manufacturer to comply with the California Quality Standards for insulating material, Title 20 Chapter 4, Article 3. §118(c): All Insulating Materials shall be installed in compliance with the flame spread rating and smoke density requirements of Sections 2602 and 707 of Title 24, Part 2. §118(f): The opaque portions of framed demising walls in nonresidential buildings shall have insulation with an installed R -value of no less than R-13 between framing members. §117(a): All Exterior Joints and openings in the building that are observable sources of air leakage shall be caulked, gasketed, weatherstripped or otherwise sealed. Manufactured fenestration products and exterior doors shall have air infiltration rates not exceeding 0.3 cfm/ft.2 of §116(a) 1: window area, 0.3 cfm/ft.2 of door area for residential doors, 0.3 cfm/ft.2 of door area for nonresidential single doors (swinging and sliding), and 1.0 cfm/ft.2 for nonresidential double doors (swinging). §116(a) 2: Fenestration U -factor shall be rated in accordance with NFRC 100, or the applicable default U -factor. §116(a) 3: Fenestration SHGC shall be rated in accordance with NFRC 200, or NFRC 100 for site -built fenestration, or the applicable default SHGC. §116(b): Site Constructed Doors, Windows and Skylights shall be caulked between the unit and the building, and shall be weatherstripped (except for unframed glass doors and fire doors). Ener Pro 5.1 by Ener Soft User Number: 5100 RunCode: 2014-11-12T16:11:27 ID: Pa e 27 of 27