The URL can be used to link to this page

08-1709 (AC) Title 24TITLE 24 REPORT Title 24 Report for: Desert Sage Restaurant (Skylight Addition) 78-065 Avenida Lafonda La Quinta, CA 92253 B ITyOF U1LDING & sA QUIN7-A ' DlEp-r Pro'ect.Desi ner• F RPPR0VE . J 9 CO D 71ON Benjamin Hertz Archit 645 Oleander Road y Palm Springs, CA 92264 (760) 320-1644 R Report Prepared By: C.J. McFadden BREEZE AIR CONDITIONING 75-145 ST. CHARLES PLACE PALM DESERT, CA 92211 (760) 346-0855 4 Job Number: Date: 10/29/2008 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 2005 Building Energy Efficiency Standards. This program developed by EnergySoft, LLC - www.energysoft.com. EnergyPro 4.4 by EnergySoft Job Number: User Number: 3665 I TABLE OF CONTENTS I Cover Page Table of Contents z Form ENV -1-C Certificate of Compliance Form ENV -3-C Overall Envelope Method Form ENV -MM Envelope Mandatory Measures Form MECH=1-C Certificate of Compliance Form MECH-3-C, Mechanical Ventilation Form MECH-4-C HVAC Misc. Prescriptive Requirements Form MECH-MM Mechanical Mandatory Measures HVAC System Heating and Cooling Loads Summary Zone Load Summary Room Load Summary ' Room Heating Peak Loads Room Cooling Peak Loads Room Cooling Coil Loads 1 2 3 6 14 15 17 18 20 22 24 26 28 30 32 I EnergyPro 4.4 by EnergySoft Job Number. User Number: 3665 CERTIFICATE OF COMPLIANCE (Part 1 of 2) ENV -1-C PROJECT NAME DATE Desert Sage Restaurant (Skylight Addition 10/29/2008 PROJECT ADDRESS "– 78-065 Avenida Lafonda La Quintat a PRINCIPAL DESIGNER - ENVELOPE TELEPHONE ?Butldmg'Fermit Benjamin Hertz Architects (760) 320-1644 DOCUMENTATION AUTHOR TELEPHONE Checked.by/Date BREEZE AIR CONDITIONING (760) 346-0855 Enforcement Agenc Use' GENERAL INFORMATION DATE OF PLANS BUILDING CONDITIONED FLOOR AREA CLIMATE ZONE 3,551 Sq.Ft. 1 15 BUILDING TYPE [—X] NONRESIDENTIAL ❑ HIGH RISE RESIDENTIAL ❑ HOTEL/MOTEL GUEST ROOM ❑ RELOCATABLE- Indicate:❑ Specific Climate - list: , or ❑ All Climates PHASE OF CONSTRUCTION ❑ NEW CONSTRUCTION ❑ ADDITIONX❑ ALTERATION ❑ UNCONDITIONED (File Affidavit) METHOD OF ENVELOPE ❑ COMPONENT(ENV-2-C) ' r OVERALL ENVELOPE(ENV-3-C) ❑ PERFORMANCE COMPLIANCE STATEMENT OF COMPLIANCE This Certificate of Compliance lists the building features and performance specifications needed to comply with Title 24, Parts 1 and 6 of the California Code of Regulations. This certificate applies only to building envelope requirements. The documentation preparer hereby certifies that the document is accurate and complete. DOCUMENTATION AUTHOR SIGNATURE DATE C.J. McFadden 1 i01o .o The Principal Envelope Designer hereby certifies that the proposeif build' g design represented in this set of construction documents is consistent with the other compliance forms and worksheets, with the specifications, and with any other calculations submitted with this permit application. The proposed building has been designed to meet the envelope requirements contained in Sections 110, 116 through 118, and 140, 142, 143 or 149 of Title 24, Part 6. Please check one: ❑ I hereby affirm that I am eligible under the provisions of Division 3 of the Business and Professions Code to sign this document as the person responsible for its preparation; and that I am licensed in the state of California as a civil engineer or mechanical engineer, or I am a licensed architect. ❑ I affirm that I am eligible under the exemption to Division 3 of the Business and Professions Code by Section 5537.2 or 6737.3 to sign this document as the person responsible for its preparation; and that I am a licensed contractor performing this work. ❑ I affirm that I am eligible under Division 3 of the Business and Professions Code to sign this document because it pertains to a structure or type of work described as exempt pursuant to Business and Professions Code Sections 5537, 5538, and 6737.1. PRINCIPAL ENVELOPE DESIGNER - NAME SIGNATURE DATE LIC. # Benjamin Hertz Architects ENVELOPE MANDATORY MEASURES Indicate location on plans of Note Block for Mandatory Measures ENVELOPE COMPLIANCE FORMS & 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 Nonresidential Manual published bl. the California Energy Commission. ®ENV -1-C: Certificate of Compliance. Required on plans for all submittals. Part 2 may be incorporated in schedules on plans. ❑ENV -2-C: Used Envelope Component compliance method ®ENV -3-C: Used with Overall Envelope Compliance method DENV-4-C: Optional. Use for minimum skylight requirements for large enclosed spaces EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:3 of 33 CERTIFICATE OF COMPLIANCE (Part 2 of 2) ENV -1 -C PROJECT NAME DATE Desert Sage Restaurant (Skylight Addition) 10/29/2008 OPAQUE SURFACES # Surface Type Area U -Fac. Insulation Cay. Cont. Act. Azm. Tilt Cond' Status Joint Appendix IV Reference Location / Comments 1 Roof 3.182 0.049 R-19 R-0.0 315 45 Existing_01-A4 (N) Existina Restaurant 2 lWall 41 0.074 R-19 R-0.0 0 90 Existing 09-A5 Existing Restaurant 3 lWall 11 0.074 R-19 R-0.0 0 90 Removed 09-A5 Existing Restaurant 4 lWall 59 0.074 R-19 R-0.01 90 90 Existing 09-A5 Existing Restaurant 5 Wall 93 0.074 R-19 R-0.0 90 90 lRemoved 09-A5 Existing Restaurant 6 lWall 45 0.074 R-19 R-0.0 180 90 Existing 0.83 Existing Restaurant 7 lWall 1 84 0.074 R-19 R-0.0 180 90 -09-A5 Removed 09-A5 Existing Restaurant 8 1wall 1 59 0.074 R-19 R-0.0 270 90 Existing 09-A5 Existing Restaurant 9 lWall 1 57 0.074 R-19 R-0.0 270 90 Removed 09-A5 Existing Restaurant 10 IRoof I 0 0.297 None R-0.0 0 0 New 02 -Ai New Dining Area 11 Wall 1 5 0.074. R-19 R-0.01 0 90 New 09-A5 New Dining Area 12 Wall 54 0.074 R-19 R-0.0 90 90 New 09-A5 New Dining Area 13 Wall 51 0.074 R-19 R-0.0 180 90 New 09-A5 New Dining Area 14 Wall 54 0.074 R-19 R-0.0 270 90 New 09-A5 New Dining Area - N, E, A. R (New, Existing, Altered, Removed) FENESTRATION SURFACES 1FI More than or equal to 10,000 sq.. of site -built fenestration area must include a label certificate either issued by NFRC or provide a CEC Default Label Certificate using the default Ll -factors from I Slandards Tahle 116-A and R r lifimip shall he filed in the rnntmrtnrs nrniert nffice durina rnnstmrfinn and in the huildino manners office after construction ye illyTindow ## Window Overhang Left Fin Right Fin Exterior Shade Type SHGC Hgt. Wd. Len. Hgt. LExt.RExt. Dist. Len. Hgt. Dist. Len. Hgt_ Area U -Fac' SHGC 2 Act. Cond. Azm. Stat. Glazing Tye Location/ Comments 7_1 Rear (N) 48 1.250 116-A 0.80 116-B 0 Existing Existing French Door Existing Restaurant 2 iWindow Rear (N) 40 1.250 116-A 0.80 116-B 0 Removed Existing French Door Existing Restaurant 3 lWindow Rear (N) 1 40 1.250 116-A 0.80 116-B 0 Removed Existing French Door Existing Restaurant 4 Window Right E 128 1.250 116-A 0.80 116-B 901 Removed Existing SGD Existing Restaurant 5 lWinclow Front S 20 1.250 116-A 0.80 116-B 180 Removed I Existing French Door Existing Restaurant 6 lWindow Front (S) 12 1.190 116-A 0.83 116-B 180 Removed Existing Fixed Window Existing Restaurant 7 lWindow Front (S) 48 1.250 116-A 0.80 116-B 1 180 Removed Existing French Door Existing Restaurant 8 lWindow Front S 12 1.1901 116-A 0.83 116-B1 180 Removed Existing Fixed Window Existing Restaurant 9 (Window Front (S) 20 1.250 116-A 0.80 116 -BI 180 Removed Existing French Door Existing Restaurant 10 Window Left (W) 12 1.190 116-A 0.83 116 -BI 270 Removed Existing Fixed Window Existing Restaurant 11 lWindow Left (W) 40 1.250 116-A 0.80 116-B 1 2701 Removed Existing French Door Existing Restaurant 12 lWindow Left (W) 12 1.190 116-A 0.83 116 -BI 2701 Removed Existing Fixed Window I Existing Restaurant 13 iWindow Left (W) 12 1.190 116-A 0.83 116 -BI 2701 Removed Existing Fixed Window I Existing Restaurant (1)1.1 -factor Type: 116-A Default Table from Standards, Table NI -1 Default Table from the ACM Manual Appendix, NFRC Labeled value. (2) SHGC Type: 116-B Default Table from Standards, COG Center of Glass, NFRC Labeled Value EXTERIOR SHADING ## Window Overhang Left Fin Right Fin Exterior Shade Type SHGC Hgt. Wd. Len. Hgt. LExt.RExt. Dist. Len. Hgt. Dist. Len. Hgt_ 1 j None 0.76 2 None 0.76 7_1 None 0.76 4 None 0.76 5 None 0.76 6 None 0.76 7 None 0.76 8 None 0.76 9 None 0.76 10 None 0.76 11 None 0.76 12 1 None 1 0.76 13 lNone 10.76 MINIMUM SKYLIGHT AREA FOR LARGE ENCLOSED SPACES The proposed building Is In climate zones 2 through 15 and contains an enclosed space with Floor area greater than 25,000 W, a ceiling height greater than 15 feet, and an LPD for general lighting of at least 0.5 W/ft2. See Section 143(c). If this box Is checked, ENV -4-C must be filled out. when submitting under the Prescriptive Compliance Approach. i EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:4 of 33 1 CERTIFICATE OF COMPLIANCE art 2 o ENV -1 -C1 PROJECT NAME DATE Desert Sage Restaurant Skylight Addition 10/29/2008 OPAQUE SURFACES # I Surface Insulation Act. Cond. lint Appendix Tvne Area U -Fac. Cay. Cont. Azm. Tilt Status I IV Reference I Location/ Comments N, E. A, R (New, Existing, Altered, Removed) FENESTRATION SURFACES FMore than or equal to 10,000 sq.fl. of site -built fenestration area must include a label certificate either issued by NFRC or provide a CEC Default Label Certificate using the default LI -factors from Standards Table 116-A and B. Ceniftcate shall be filed in the contractor's oroiect office during construction and in the building managers office after construction # Tye Area U -Fac' SHGC2 Act. Cond. Azm. Stat. Glazing Type Location/ Comments 14 iWindow Left W 48 1.250 116-A 0.80 116-B 2701 Removed Existing French Door Existing Restaurant 15 lWindow Left (W) 40 1.250 116-A 0.80 116-B 270 Removed Existing French Door Existing Restaurant 16 ISkylight Rear (N) 369 0.340 NFRC 0.27 NFRC 0 New Polycarb Skylight New Dining Area MINIMUM SKYLIGHT AREA FOR LARGE ENCLOSED SPACES (1) U -factor Type:116-A Default Table from Standards, Table NI -1 Default Table from the ACM Manual Appendix, NFRC Labeled value. (2) SHGC Type: 116-B Default Table from Standards, COG Center of Glass, NFRC Labeled Value EXTERIOR SHADING ## Exterior Shade Type SHGC Window Overhang Left Fin Right Fin Hgt. Wd. Len. Hgt. LExt.RExt. Dist. Len. Hgt Dist. Len. Hgt. 14 None 0.76 15 None 0.76 16 None 1.00 MINIMUM SKYLIGHT AREA FOR LARGE ENCLOSED SPACES f The proposed building Is In climate zones 2 through 15 and contains an enclosed space with floor area greater than 25,000 ft2, a ceiling height greater than 15 feet, and an LPD for general U lighting of at least 0.5 W/ft2. See Section 143(c). If this box Is checked, ENV4-C must be filled out. when submitting under the Prescriptive Compliance Approach. EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:5 of 33 1 OVERALL ENVELOPE METHOD (Part 1 of 7) ENV -3-C PROJECT NAME � DATE Desert Saqe Restaurant (Skvlight Addition) 10/29/2008 WINDOW AREA CALCULATION A. DISPLAY PERIMETER O ftx 6 ft = Q ft' DISPLAY AREA B. GROSS EXTERIOR WALL AREA 2,318 ftx 0.40 = 9271 W 40% GROSS WALL AREA C. ENTER LARGER OF A OR B 2,318 927 W MAXIMUM STND. AREA D. ENTER PROPOSED WINDOW AREA 481 W PROPOSED AREA E. WINDOW WALL RATIO = Proposed Window Area Divided by Gross Exterior Wall Area = 2.070/1, F. WEST DISPLAY PERIMETER 0 ftx 6 ft = Q w WEST DISPLAY AREA G. WEST EXTERIOR WALL AREA 649 ftx 0.40 = 260 ft'40% WEST WALL AREA H. ENTER THE LARGER OF F AND G 649 260 ftZ MAX. STND. WEST AREA I. ENTER PROPOSED WEST WINDOW AREA 01 ftZ PROPOSED WEST AREA J. WEST WINDOW WALL RATIO= Proposed West Window Area Divided by West Exterior Wall Area= 0.000/10 Combined Values for North, East and South Walls K. N/EIS DISPLAY PERIMETER (A - F) 01 ftx 6 ft = Q ft WEIS DISPLAY AREA 1, 6 6 91 6681 ft� 40% N/EIS AREA L. N/EIS EXTERIOR WALL AREA (B - G) ftx 0.40 = M. ENTER LARGER OF K OR L 1669 6681 ft MAX. STAND. WE/S AREA N. PROPOSED N/E/S WINDOW AREA (D -1) 481 W PROPOSED N/E/S AREA WINDOW ADJUSTMENT O. IF D > C and/or if I > H, PROCEED TO CALCULATION STEPS 1 OR 2, AS APPROPRIATE, FOR THE WINDOW AREA ADJUSTMENT. IF NOT, GO TO THE SKYLIGHT AREA TEST, ENV -3-C, PART 2 OF 7. 1. IF I < H: Use the calculated Window adjustment for all walls. MAXIMUM STANDARD PROPOSED WINDOW WINDOW AREA (from C) AREA (from D) ADJUSTMENT FACTOR 2. IF I > H: Calculate one window adjustment factor (WAF) for the West wall. a. Calculate the WAF for the West wall. MAX. STANDARD WEST PROPOSED WEST WEST WINDOW AREA (from H) AREA (from 1) ADJUSTMENT FACTOR b. If N > M: Calculate the WAF for the North, East and South walls. MAX. STANDARD NIE/S PROPOSED N/E/S N/E/S WINDOW AREA from M) AREA (from N) ADJUSTMENT FACTOR GO TO PART 7 TO CALCULATE ADJUSTED AREAS. EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:6 of 33 OVERALL ENVELOPE METHOD (Part 2 of 7) ENV -3-C -r PROJECT NAME DATE Desert Sage Restaurant (Skylight Addition 10/29/2008 A. ATRIUM HEIGHT 14 ft GROSS STANDARD ALLOWED ROOF AREA SKYLIGHT AREA B. IF <= 55 FT 3,551 ft'x 0.05 = 178 ft: C. IF > 55 FT f'x 0.10 = ftZ D. PROPOSED SKYLIGHT AREA 369 ft2 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 PART 3 OF 7. 1. IF PROPOSED SKYLIGHT AREA >= STANDARD SKYLIGHT AREA: PROPOSED SKYLIGHT AREA SKYLIGHT STANDARD SKYLIGHT AREA (IF E = 0 ENTER 1) ADJUSTMENT FACTOR 1781 369 = 0.481 GO TO PART 7 TO CALCULATE ADJUSTED AREAS. EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:7 of 33 OVERALL ENVELOPE METHOD (Part 3 of 7) ENV -3-C PROJECT NAME A ASSEMBLY NAME (e.g. Wall -1, Floor -1) Existing Roof North Wall (Existing) FrenchDr (6080) (E) East Wall (Existing) South Wall (Existing) West Wall (Existing) Polycarb Skylight (Plastic) North Wall East Wall South Wall I West Wall B C D I I E PROPOSED AREA HEAT CAP. U- FACT' ACM J.A. IV Ref. UA (B X D) 3,182 162.3 0.049 01-A4 155.9 411 0.470 0.074 09-A5 30.4 48 4591 1.250 46.8 60.0 595 60.7 0.074 09-A5 44.0 4591 0.102 0.074 09-A5 34.0 595 51 0.074 09-A5 44.0 369 5.5 0.3401 125.5 51 0.074 09-A5 3.8 54 0.074 09-A5 4.0 51 0.074 09-A5 3.8 54 0.074 09-A5 4.0 DATE F I G I H STANDARD AREA* (Adjusted) U- FACT. UA (F X G) 3,182 0.051 162.3 411 0.102 41.9 48 0.470 22.6 595 0.102 60.7 4591 0.102 46.8 595 0.102 60.7 178 1.320 234.4 51 0.102 5.2 541 0.102 5.5 51 0.102 5.2 54 0.102 5.5 1) In climate zones 1 and 16 the insulating R -value of continuous *If Window and/or Skylight Area Adjustment is insulation materials installed above the roof waterproof Required, use Adjusted Areas from Part 7 of 7. 509 This Page Total 65 membrane shall be multiplied times 0.8 before choosing the table column for determining assebmly U -factor. See Footnotes, 509 Building Tota I 66 Tables IV.1 through IV.7 in the Joint Appendices. EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:8 of 33 OVERALL ENVELOPE METHOD (Part 4 of 7) ENV -3-C PROJECT NAME DATE Desert Sage Restaurant Sk li ht Addition 10/29/2008 VERALL HEAT GAIN FROM CONDUCTION A B C D E F G H I I J ASSEMBLY NAME (e.g. Wall -1, Floor -1) PROPOSED, STANDARD AREA TF HEAT CAP. U- FACT. ACM J.A. IV Ref. HEAT GAIN (BxCxE) AREA* (Adjusted) U- FACT. TF HEAT GAIN (GxHxl) Existing Roof 3,182 55 1 0.049 01-A4 8,575 3,182 0.051 55 8,926 North Wall (Existing) 411 55 0.074 09-A5 1,673 411 0.102 55 2,306 FrenchDr (6080) (E) 48 55 1 1.250 3,300 48 0.470 55 1,241 East Wall (Existing) 595 55 0.074 09-A5 2,422 595 0.102 55 3,338 South Wall (Existing) 459 55 0.074 09-A5 1,868 459 0.102 55 2,575 West Wall (Existing) 595 55 0.074 09-A5 2,422 595 0.102 55 3,338 Polycarb Skylight (Plastic) 369 55 0.340 6,900 1781 1.320 55 1 12,890 North Wall 51 55 1 0.074 09-A5 208 51 0.102 55 286 East Wall 54 55 0.074 09-A5 220 54 0.102 55 303 South Wall 51 55 0.074 09-A5 208 51 0.102 55 286 West Wall 54 55 0.074 09-A5 220 54 0.102 55 303 1) In climate zones 1 and 16 the insulating R -value of continuous insulation materials installed above the roof waterproof membrane shall be multiplied times 0.8 before choosing the table column for determining assembly U -factor. See footnotes, Tables IVA through IV.7 in the Joint Appendices. If Window and/or Skylight Area Adjustment is Required, use Adjusted Areas from Part 6 of 7. 28,015 35,791 Subtotal Subtotal EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:9 of 33 (Part 5 of 7) ENV -3-C PROJECT NAME DATE Desert Saqe Restaurant (SkVlight Addition) I 10/29/2008. ROOF ABSORPTANCE CALCULATION R-0 Roof Cathedral CHECK APPLICABLE BOXES H I J K Case 1 -Proposed YES NO STANDARD 1. CRRC-1 Certified? 2. Is the thermal emittance > 0.75? 3. Enter the initial reflectance pwt value: 4. Calculate a o.", = 0.94 - 0.7 p m—P AREA Go to 2. Go to 3. X Go to 8. Go to 5. Go to 4. Insert value in calculation. Enter calculated value in Column F below. Absorp HEAT GAIN (BxCxDxExF) Pm.o,00 = a a", = Absorp Case 2 - CRRC-1 Tested Existing Roof 5. Enter initial reflectance & emittance values from CRRC-1 6. Calculate pR.o,", = - 0.448 + 1.121 pw,+ 0.524 Ewt 7. Calculate a P. , = 0.94 - 0.7 p Rto,� 123 Ewe = Go to 6. Insert values in calculation. Go to 7. Insert value in calculation. Enter calculated value in Column F below. pw, = pRkPWP = a ".p = 3 182 8. Not CRRC-1 Tested 0.73 13.406 For nonresidential low -sloped roofs: For all other roofs: a ,., = 0.87 Enter default value in Column F below. a Pac = 0.73 Enter default value in Column F below. Standard absorptance values for Column J are either For nonresidential low -sloped roofs: For all other roofs: a.. = 0.45 Enter standard value in Column J below. a.. = 0.73 Enter standard value in Column J below. (OVERALL HEAT GAIN FROM RADIATION OPAQUE SURFACES I A0 ;x i o y B C D E F G H I J K PROPOSED STANDARD ASSEMBLY NAME (e.g. Roof -1) AREA SF WF U- FACTOR Absorp HEAT GAIN (BxCxDxExF) AREA' (ADJUSTED) U -Factor Absorp HEAT GAIN (CxDxHxlxJ) Existing Roof 3,182 123 0.92 0.049 0.73 12.880 3 182 0.051 0.73 13.406 12 88 Subtotals are entered under "Subtotal" 13 406 SUBTOTAL in COLUMNS I and M of ENV -3-C, Part SUBTOTAL 6of7. EnerovPro 4.4 by EnergvSoft User Number: 3665 Job Number: Page: 10 of 33 (Part 5 of 7) ENV -3-C PROJECT NAME DATE Desert Saae Restaurant (Skvlight Addition) I 10/29/2008 ROOF ABSORPTANCE CALCULATION Default Roof 1978 to Present CHECK APPLICABLE BOXES F� 0— B C D E F G Case 1 -Proposed YES NO STANDARD 1. CRRC-1 Certified? 2. Is the thermal emittance > 0.75? 3. Enter the initial reflectance p pit value: 4. Calculate a,.,p = 0.94 - 0.7 p Ri-,p AREA Go to 2. Go to 3. X Go to 8. Go to 5. Go to 4. Insert value in calculation. Enter calculated value in Column F below. Absorp HEAT GAIN (BxCxDxExF) pR.P.P = a ,,., = Absorp Case 2 - CRRC-1 Tested 5. Enter initial reflectance & emittance values from CRRC-1 6. Calculate pm -.p = - 0.448 + 1.121 pw, + 0.524 Ew. 7. Calculate a,..p = 0.94 - 0.7 p Ri.p p Ew = Go to 6. Insert values in calculation. Go to 7. Insert value in calculation. Enter calculated value in Column F below. pm = pR.,,., = a,,.p = 8. Not CRRC-1 Tested For nonresidential low -sloped roofs: For all other roofs: a pm = 0.87 Enter default value in Column F below. a w.p = 0.73 Enter default value in Column F below. Standard absorptance values for Column J are either For nonresidential low -sloped roofs: For all other roofs: a .e = 0.45 Enter standard value in Column J below. a.a = 0.73 Enter standard value in Column J below. OVERALL HEAT GAIN FROM RADIATION OPAQUE SURFACES a o' o � A F� 0— B C D E F G H I J K STANDARD ASSEMBLY NAME (e.g. Roof -1) AREA SF WF U- FACTOR Absorp HEAT GAIN (BxCxDxExF) AREA' (ADJUSTED) U -Factor Absorp HEAT GAIN (CxDxHxlxJ) L� Subtotals are entered under "Subtotal" SUBTOTAL in COLUMNS I and M of ENV -3-C, Part SUBTOTAL 6of7. EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 11 of 33 a o' o � PROPOSED STANDARD ASSEMBLY NAME (e.g. Roof -1) AREA SF WF U- FACTOR Absorp HEAT GAIN (BxCxDxExF) AREA' (ADJUSTED) U -Factor Absorp HEAT GAIN (CxDxHxlxJ) OVERALL ENVELOPE METHOD (Part 6 of 7) ENV -3-C' PROJECT NAME DATE Desert Sage Restaurant (Skylight Addition) 1 10/29/2008 OVERALL HEAT GAIN FROM RADIATION FENESTRATION SURFACES A B C D E I I J K I L M .WINDOW/SKYLIGHT NAME (e.g. Wind -1, Sky -1) ORIENT. WEIGHTING FACTOR PROPOSED STANDARD AREA SF 1 SHGC OVERHANG HEAT GAIN? (BxCxDxExH) AREA 3 (ADJUSTED) RSHG 4 or SHGC SF HEAT GAIN (BxJxKxL) H V H[V OHF FrenchDr6( 080) Q N 0.61 48 123 0.80 Part 6 Subtotal from Part 6 of 7. 2,881 48 0.61 123 2197 Polycarb Skylight H 2.29 369 123 0.27 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:12 of 33 28.063 178 0.58 123 29,006 1. From Fenestration Surfaces ENV -1-C, Part 2, Column G, or when Column Part 4 Subtotal 28,015 Part 4 Subtotal 36,328 H has a "C identifier, calculate using the center of glass value SHGCc in SHGCfen =.08 + (0.86xSHGCc) and enter value. 12 880 Part 5 Subtotal 13,903 2. Proposed Heat Gain, Column I may be no greater than Standard Heat Part 5 Subtotal Gain Column M. 30,944 31,203 3. If Window and/or Skylight Area Adjustment is required, use adjusted area Part 6 Subtotal Part 6 Subtotal from Part 6 of 7. 4. Only SHGC is used for Skylights 71,839 Total Heat Gain 81,434 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:12 of 33 OVERALL ENVELOPE METHOD Part 7 of 7 ENV -3-C PROJECT NAME DATE Desert Saqe Restaurant (Skylight Addition) 1 10/29/2008 WINDOW AREA ADJUSTMENT CALCULATIONS X❑ CHECK IF NOT APPLICABLE (See Part 1 of 7) ORIENTATION D E E F G WINDOW ADJUST. OR (From Peart 1) ADJUSTED WINDOW AREA (D X E) ADJUSTED WALL B A(F +AC) A B C D WALL NAME (e.g. Wall -1, Wall -2) GROSS AREA DOOR AREA WINDOW AREA N I E I S JW ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑o❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ 3,182 TOTALS 3,182 01 N/Al 01 3,182 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:13 of 33 TOTALS N/A SKYLIGHT AREA ADJUSTME T CALCULATION ❑ CHECK IF NOT APPLICABLE (See Part 2 of 7) D E F SKYLIGHT ADJUST. FACTOR (From Part 1) ADJUSTED SKYLIGHT AREA (C X D) ADJUSTED ROOF AREA (B - E) A B C ROOF NAME (e.g. Roof -1, Roof -2) GROSS AREA SKYLIGHT AREA Existing Roof 3,182 00.481 0 3,182 TOTALS 3,182 01 N/Al 01 3,182 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:13 of 33 ENVELOPE MANDATORY MEASURES ENV -MM PROJECT NAME DATE Desert Sage Restaurant (Skylight Addition) 10/29/2008 DESCRIPTION Designer Enforcement §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. X] § 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. X § 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. § 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). X❑ § 116(a)1 Manufactured Doors and Windows installed shall have air infiltration rates not exceeding those shown in Table Number 1-E. of the Standards. Manufactured fenestration products must be labeled for U -value according to NFRC procedures. X❑ .§118(e) Demising Walls in Nonresidential Buildings: 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. EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 14 of 33 [CERTIFICATE OF COMPLIANCE (Part 1 of 2) MECH-1-C PROJECT NAME Desert Sage Restaurant (Skylight Addition) DATE OF PLANS DATE 10/29/2008 PROJECT ADDRESS 31551sq.Ft. 78-065 Avenida Lafonda La Quinta BUILDING TYPE a NONRESIDENTIAL ❑ HIGH RISE RESIDENTIAL ❑ HOTEL/MOTEL GUEST ROOM PHASE OF CONSTRUCTION ❑ NEW CONSTRUCTION ❑ ADDITION a ALTERATION ❑ UNCONDITIONED (File Affidavit) Building Permit#' PRINCIPAL DESIGNER - MECHANICAL Breeze Air Conditioning TELEPHONE (760) 346-0855 , DOCUMENTATION AUTHOR BREEZE AIR CONDITIONING TELEPHONEChecked'by/Date., (760) 346-0855 jiEnforcementAgency: GENERAL INFORMATION DATE OF PLANS BUILDING CONDITIONED FLOOR AREA CLIMATE ZONE 15 31551sq.Ft. BUILDING TYPE a NONRESIDENTIAL ❑ HIGH RISE RESIDENTIAL ❑ HOTEL/MOTEL GUEST ROOM PHASE OF CONSTRUCTION ❑ NEW CONSTRUCTION ❑ ADDITION a ALTERATION ❑ UNCONDITIONED (File Affidavit) METHOD OF MECHANICAL PRESCRIPTIVE ❑ PERFORMANCE COMPLIANCE PROOF OF ENVELOPE COMPLIANCE ❑ PREVIOUS ENVELOPE PERMIT ❑ ENVELOPE COMPLIANCE ATTACHED STATEMENT OF COMPLIANCE This Certificate of Compliance lists the building features and performance specifications needed to comply with Title 24, Parts 1 and 6 of the California Code of Regulations. This certificate applies only to building mechanical requirements. The documentation preparer hereby certifies that the documentation is accurate and complete. DOCUMENTATION AUTHOR SIGNATURE DATE 1 C.J. McFadden 1 I ---,° 1 °6 The Principal Mechanical Designer hereby certifies that the prop( sluitld*g�design represented in this set of construction documents is consistent with the other compliance forms and worksheets, with the specifications, and with any other calculations submitted with this permit application. The proposed building has been designed to meet the mechanical requirements contained in the applicable parts of Sections 100, 101, 102, 110 through115, 120 through 125, 142, 144, and 145. ❑ The plans & specifications meet the requirements of Part 1 (Sections 10-103a). ❑ The installation certificates meet the requirements of Part 1 (10-103a 3). The operation & maintenance information meets the requirements of Part 1 (10-103c). Please check one: (These sectionsof the Business and Professions Code are printed in full in the Nonresidential Manual.) ❑ I hereby affirm that I am eligible under the provisions of Division 3 of the Business and Professions Code to sign this document as the person responsible for its preparation; and that I am licensed in the State of California as a civil engineer, or mechanical engineer or I am a licensed architect. ❑ I affirm that I am eligible under the exemption to Division 3 of the Business and Professions Code by Section 5537.2 or 6737.3 to sign this document as the person responsible for its preparation; and that I am a licensed contractor performing this work. ❑ 1 affirm that I am eligible under the exemption to Division 3 of the Business and Professions Code to sign this document because it pertains to a structure or type of work described pursuant to Business and Professions Code sections 5537, 5538, and 6737.1. PRINCIPAL MECHANICAL DESIGNER - NAME SIGNATURE DATE LIC. # 0 ,16 A►e354 Breeze Air Conditioning INSTRUCTIONS TO APPLICANT M MECH-1-C: Certificate of Compliance. Part 1, 2, 3 of 3 are required on plans for all submittals. Air/Water/Service/Water Pools Requirements. Part 1 of 3, 2 of 3, 3 of 3 are required for all submittals, but may be on ❑ MECH-2-C: plans. 0 MECH-3-C: Mechanical Ventilation and Reheat is required for all submittals with mechanical ventilation, but may be on plans. fN MECH-4-C: HVAC Misc. Prescriptive Requirements is required for all prescriptive submittals, but may be on plans. ❑ MECH-5-C: Mechanical Equipment Details are required for all performance submittals. EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 15 of 33 CERTIFICATE OF COMPLIANCE (Part 2 of 2) MECH-1-C PROJECT NAME DATE Desert Sage Restaurant S( kylight Addition) 10/29/2008 Designer: This form is to be used by the designer and attached to the plans. Listed below are all the acceptance tests for mechanical systems. The designer is required to check the boxes by all acceptance tests that apply and list all equipment that requires an acceptance test. If all equipment of a certain type requires a test, list the equipment description and the number of systems to be tested in parentheses. The NJ number designates the Section in the Appendix of the Nonresidential ACM Manual that describes the test. Also indicate the person responsible for performing the tests (i.e. the installing contractor, design professional or an agent selected by the owner). 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. Building Departments: SYSTEM ACCEPTANCE. Before an occupancy permit is granted for a newly constructed building or space, or a new space -conditioning system serving a building or space is operated for normal use, all control devices serving the building or space shall be certified as meeting the Acceptance Requirements for Code Compliance. In addition a Certificate of Acceptance, MECH-I-A Form shall be submitted to the building department that certifies plans, specifications, installation _____.:__ __� __:_.......---;_4:_......#;. ---f 0'.ren iiromcnfc of Rprtinn in-10.1thl and Title 24 Part 6. uumucates, and U ciatui alio nianncnai we unv�n,mw„,��..... .. ... ... ..��......,..._,.._--- STATEMENT OF COMPLIANCE ❑ MECH-2-A: Ventilation System Acceptance Document -Variable Air Volume Systems Outdoor Air Acceptance Constant Air Volume Systems Outdoor Air Acceptance Equipment requiring acceptance testing Test required on all New systems both New Construction and Retrofit. i ❑ MECH-3-A: Packaged HVAC Systems Acceptance Document Equipment requiring acceptance testing Test required on all New systems both New Construction and Retrofit. MECH-4-A: Air -Side Economizer Acceptance Document Equipment requiring acceptance testing Test required on all New systems both New Construction and Retrofit. Units with economizers that are installed at the factory and certified with the commission do not require equipment testing but do require construction inspection. ❑ MECH-5-A: Air Distribution Acceptance Document Equipment requiring acceptance testing This test required If the unit serves 5,000 R2 of space or less and 25% or more of the ducts are in nonconditioned or semiconditioned space like an attic. New systems that meet the above requirements. Retrofit systems that meet the above requirements and either extend ducts, replace ducts or replace the packaged unit. ❑ MECH-6-A: Demand Control Ventilation Acceptance Document Equipment requiring acceptance testing All new DCV controls installed on new or existing packaged systems must be tested. MECH-7-A: Supply Fan Variable Flow Control Acceptance Document Equipment requiring acceptance testing All new VA fan volume controls installed on new or existing systems must be tested MECH-8-A:-Hydronic System Control Acceptance Document -Variable Flow Controls Applies to chilled and hot water systems. -Automatic Isolation Controls Applies to new boilers and chillers and the primary pumps are connected to a common header. -Supply Water Temperature Reset Controls Applies to new constant flow chilled and hot water systems that have a design capacity greater than or equal to 500,000 Btu/hr. -Water-loop Heat Pump Controls Applies to all new waterfoop heat pump systems where the combined loop pumps are greater than 5 hp. -Variable Frequency Controls Applies to all new distribution pumps on new variable flow chilled, hydronic heat pump or condenser water systems where the pumps motors are greater than 5 hp. Equipment requiring acceptance testing EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 16 of 33 MECHANICAL VENTILATION MECH-3-C PROJECT NAME Desert Sage Restaurant (Skylight Addition) DATE 10/29/2008 PRESCRIPTIVE REHEAT LIMITATION (Section 144(d)) L= MECHANICAL VENTILATION (Section 121(b)2) AREA BASIS OCCUPANCY BASIS VAV MINIMUM —, --+ ZONE/SYSTEM B o�a C W.0 � 0 D Cr '�(D D nm3 E c 3 o F n �v3m G is p i� H m vim L°�3 a I m n0n 3D39T J No no, U) E K -nW 3 o L n 2. ow33 W 3o �c O � M o3x DI— F3 N —I n D Existing Restaurant 3,182 0.38 1,209 1,209 191 1,018 Existing A/C Total 1,209 191 New Dining Area 36 0.50 184 184 22 162 New Fijitsu Mini Split Total 184 22 C Minimum ventilation rate per Section 121, Table 121-A E Based on fixed seat or the greater of the expected number of occupants and 50% of the CBC occupant load foregress purposes fors aces without fixed seating. H Required Ventilation Air (REO'D V.A.) is the larger of the ventilation rates calculated on and AREA or OCCUPANCY BASIS (column D or G). I Must be greater than orequal to H, or use Transfer Air column N to make up the difference. J Design fan supply cfm (Fan CFM) x 30%; or K 1condition area (ft. sq.) x 04 cfm/ft. sq.; or L I Maximum of Columns H, J. K, or 300 cfm M This must be less than orequal to Column L and greater that orequal to the sum of Columns H + N. N Transfer air must be provided where the Required Ventilation Air (column 1) is greater than the Design Minimum Air (column M). Where required, transfer air must be greater than or equal to the difference between the Required Ventilation Air (column 1) and the Design Minimum Air (column M), column H - M. EnergyPro 4.4 by EnergySoft User Number 3665 Job Number: Page: 17 of 33 MECHANICAL SIZING AND FAN POWER MECH-4-C 3ROJECT NAME I DATE Desert Sage Restaurant (Skylight Addition) 10/29/2008 SYSTEM NAME FLOOR AREA Existing A/C 3,182 FAN POWER CONSUMPTION I B C D E F DESIGN EFFICIENCY NUMBER PEAK WATTS BRAKE HP MOTOR DRIVE OF FANS B x E x 746 / (C X D) 0.750 77.0% 97.0% 2.0 1,498 1. TOTAL FAN SYSTEM POWER INDEX or ADJUSTED FAN POWER INDEX must not exceed 0.8 W/cfm for Constant Volume systems or 1.25 W/cfm for VAV systems. ITEM or SYSTEM TAG(S) Total Adjustments FILTER PRESSURE ADJUSTMENT EQUATION 144-A A) If filter pressure drop is greater than 1 inch W.C. enter filter pressure drop. SPa on line 4 and Total Fan pressure SPf on Line 5. B) Calculate Fan Adjustment and enter on Line 6. C) Calculate Adjusted Fan Power Index and enter on Line 7. 1 TOTAL FAN SYSTEM POWER Watts, Sum Column F 1,498 2) SUPPLY DESIGN AIRFLOW (CFM) 4,000 3 TOTAL FAN SYSTEM POWER INDEX Row 1/Row 2)1 4 SPa 144 (h) 5 SPf 6) Fan Adjustment =1-(SPa -1)/SPf 144 (i) 7) ADJUSTED FAN POWER INDEX (Line 3 x Line 6)1 1 0.375 1. TOTAL FAN SYSTEM POWER INDEX or ADJUSTED FAN POWER INDEX must not exceed 0.8 W/cfm for Constant Volume systems or 1.25 W/cfm for VAV systems. ITEM or SYSTEM TAG(S) PRESCRIPTIVE MEASURES Electric Resistance Heating 1 Heat Rejection System 2 Air Cooled Chiller Limitation 3 T-24 Section Capacity Exception Notes 144 (g) 144 (h) 144 (i) 1. Total installed capacity (MBtu/hr) of all electric heat on this project exclusive of electric auxiliary heat for heat pumps. If electric heat is used, explain which exception(s) to Section(g) apply. 2. Are centrifugal fan cooling towers used on this project? (Enter "Yes" or "No") If centrifugal fan cooling tower are used, explain which exception(s) to Section 144(h) apply. 3. Total installed capacity (tons) of all water and air cooled chillers under this permit. If there are more than 100 tons of air-cooled chiller capacity being installed, explain which exception(s) to Section 144(i) apply. - I �l EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:18 of 33 f a i t MECHANICALSIZING AND FAN POWER MECH-4-C PROJECT NAME DATE Desert Sage Restaurant (Skylight Addition 10/29/2008 SYSTEM NAME New Fijitsu Mini Split FLOOR AREA 369 FAN POWER CONSUMPTION FAN DESCRIPTION Supply Fan Return Fan B DESIGN BRAKE HP 0.500 0.750 C I D EFFICIENCY FILTER PRESSURE ADJUSTMENT EQUATION MOTOR DRIVE 76.0% 100.0% 77.0% 100.0% SPf on Line 5. 4 SPa E NUMBER OF FANS 2.0 2.0 PEAK WATTS B x E x 746 / (C X D) 982 1.453 1. TOTAL FAN SYSTEM POWER INDEX or ADJUSTED FAN POWER INDEX must not exceed 0.8 W/cfm for Conslan! Volume systems or 1.25 W/cfm for VAV systems. ITEM or SYSTEM TAG(S) Total Adjustments FILTER PRESSURE ADJUSTMENT EQUATION 1 TOTAL FAN SYSTEM POWER Watts, Sum Column F 982 144-A A) If filter pressure drop is greater than 1 inch W.C. enter filter pressure drop. SPa on line 4 and Total Fan pressure 2) SUPPLY DESIGN AIRFLOW (CFM) 800 3 TOTAL FAN SYSTEM POWER INDEX Row 1/Row 2 1 SPf on Line 5. 4 SPa B) Calculate Fan Adjustment and enter on Line 6. 5 SPf 6) Fan Adjustment=14SPa -1)/SPf C) Calculate Adjusted Fan Power Index and enter on Line 7. 7) ADJUSTED FAN POWER INDEX Line 3 x Line 6 1 1 .227 1. TOTAL FAN SYSTEM POWER INDEX or ADJUSTED FAN POWER INDEX must not exceed 0.8 W/cfm for Conslan! Volume systems or 1.25 W/cfm for VAV systems. ITEM or SYSTEM TAG(S) PRESCRIPTIVE MEASURES Electric Resistance Heating ' Heat Rejection System 2 Air Cooled Chiller Limitation 3 T-24 Section Capacity Exception Notes 144 g) 144 (h) 144 i 1. Total installed capacity (MBIu/hr) of all electric heal on this project exclusive of electric auxiliary heat for heal pumps. If electric heat is used, explain which exception(s) to Section(g) apply. 2. Are centrifugal fan cooling lowers used on this project? (Enter "Yes" or "No") If centrifugal fan cooling tower are used, explain which exception(s) to Section 144(h) apply. 3. Total installed capacity (tons) of all water and air cooled chillers under this permit. If there are more than 100 tons of air-cooled chiller capacity being installed, explain which exception(s) to Section 144(i) apply. EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:19 of 33 MECHANICAL MANDATORY MEASURES Part 1 of 2 MECH-MM PROJECT NAME DATE Desert Sage Restaurant (Skylight Addition) 1 10/29/2008 DESCRIPTION Designer Enforcement Equipment and Systems Efficiencies a11 Any appliance for which there is a California standard established in the Appliance Efficiency Regulations will comply with the applicable standard. ❑ §115(a) Fan type central furnaces shall not have a pilot light. a§123 Piping, except that conveying fluids at temperatures between 60 and 105 degrees Fahrenheit, or within HVAC equipment, shall be insulated in accordance with Standards Section 123. FX] §124 Air handling duct systems shall be installed and insulated in compliance with Sections 601, 602, 603, 604, and 605 of the 2001 CMC Standards. Controls §122(e) Each space conditioning system shall be installed with one of the following: r§122(e)1A Each space conditioning system serving building types such as offices and manufacturing facilities (and all others not explicitly exempt from the requirements of Section 112 (d)) shall be installed with an automatic time switch with an accessible manual override that allows operation of the system during off -hours for up to 4 hours. The time switch shall be capable of programming different schedules for weekdays and weekends and have program backup capabilities that prevent the loss of the device's program and time setting for at least 10 hours if power is interrupted; or X❑ §122(e)1 B An occupancy sensor to control the operating period of the system; or FX] §122(e)1C A 4 -hour timer that can be manually operated to control the operating period of the system. XJ §122(e)2 Each space conditioning system shall be installed with controls that temporarily restart and temporarily operate the system as required to maintain a setback heating and/or a setup cooling thermostat setpoint. §I22(g) Each space conditioning system serving multiple zones with a combined conditioned floor area more than 25,000 square feet shall be provided with isolation zones. Each zone: shall not exceed 25,000 square feet; shall be provided with isolation devices, such as valves or dampers, that allow the supply of heating or cooling to be setback or shut off independently of other isolation areas; and shall be controlled by a time control device as described above. o§122(a&b) Each space conditioning system shall be controlled by an individual thermostat that responds to temperature within the zone. Where used to control heating, the control shall be adjustable down to 55 degrees F or lower. For cooling, the control shall be adjustable up to 85 degrees F or higher. Where used for both heating and cooling, the control shall be capable of providing a deadband of at least 5 degrees F within which the supply of heating and cooling is shut off or reduced to a minimum. X❑ §122(c) Thermostats shall have numeric setpoints in degrees Fahrenheit (F) and adjustable setpoint stops accessible only to authorized personnel. a§1 12(b) Heat pumps shall be installed with controls to prevent electric resistance supplementary heater operation when the heating load can be met by the heat pump alone. EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:20 of 33 MECHANICAL MANDATORY MEASURES Part 2 of 2 MECH-MM DATE PROJECT NAME Desert Sage Restaurant (Skylight Addition) 10/29/2008 Description Designer Enforcers Ventilation §121(e) Controls shall be provided to allow outside air dampers or devices to be operated at the ventilation rates as specified on these plans. F] §122(f) Gravity or automatic dampers interlocked and closed on fan shutdown shall be provided on the outside air intakes and discharges of all space conditioning and exhaust systems. §122(f) All gravity ventilating systems shall be provided with automatic or readily for accessible manually operated dampers in all openings to the outside, except §l21(f)3 combustion air openings. §121(f)1 Air Balancing: The system shall be balanced in accordance with the National Environmental Balancing Bureau (NEBB) Procedural Standards (1983), or §121(f)4 Associated Air Balance Council (AABC) National Standards (1989); or F] §121(f)2 Outside Air Certification: The system shall provide the minimum outside air as shown on the mechanical drawings, and shall be measured and certified by the installing licensed C-20 mechanical contractor and certified by (1) the design mechanical engineer, (2) the installing licenced C-20 mechanical contractor, or (3) the person with overall responsibility for the design of the ventilation system; or §l21(f)3 Outside Air Measurement: The system shall be equipped with a calibrated local or remote device capable of measuring the quantity of outside air on a continuous basis and displaying that quantity on a readily accessible display divice; or §121(f)4 Another method approved by the Commission. Service Water Heating Systems §113(b)2 If a circulating hot water system is installed, it shall have a control capable of automatically turning off the circulating pump(s) when hot water is not required. §113(c) Lavatories in restrooms of public facilities shall be equipped with controls to limit the outlet temperature to 110 degrees F. EneravPro 4.4 by EnergySoft User Number: 3665 Job Number Page:21 of 33 1 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME Desert Sage Restaurant (Skylight Addition DATE 10/29/2008 SYSTEM NAME Existin A/C FLOOR AREA 3,182 ENGINEERING CHECKS SYSTEM LOAD COIL COOLING PEAK COIL HTG. CFM Sensible Latent CFM I Total Room Loads 5,246 40,5301,973 1,649 Return Vented Lighting 0 Return Air Ducts 2,027 Return Fan 0 Ventilation 19 6,604 249191 Supply Fan 0 Supply Air Ducts 2,027 TOTAL SYSTEM LOAD F 51,188 1,723 PEAK Number of Systems 2 Sensible Heating System Output per System 56,000 24,174 Total Output (Btuh) 112,000 Output (Btuh/sqft) 35.2 1,209 0 Cooling System Output per System 35,000 8,882 Total Output (Btuh) 70,000 0 1,209 Total Output (Tons) 5.8 35,473 Total Output (Btuh/sgft) 22'0 Total Output (sgft/Ton) 545.5 Air System HVAC EQUIPMENT SELECTION CFM per System 2,000 69,952 69,952 Existing Packaged Air Conditioner 41,563 25,846 Airflow (cfm) 4,000 Airflow (cfm/sqft) 1.26 Airflow (cfm/Ton) 685.7 Total Adjusted System Output 41,563 25,846 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Jul 2 pm Outside Air % t ) 48 Outside Air (cfm/sqft) 0.06 Jan 12 am Note: values above given at ARI conditions EATING SYSTEM PSYCHROMETRICS Airstream Temperatures at Time of Heating Peak 26.0 OF 67.6 OF 84.1 OF 84.1 OF Supply Air Ducts Outside Air �, UF11 191 cfm 83.8 of Heating Coil Supply Fan 4000 cfm ROOMS 70.0 of 69.7 of Return Air Ducts DOLING SYSTEM PSYCHROMETRICS Airstream Temperatures at Time of Cooling Peak 111.0 / 77.6 OF Outside Air 191 cfm 78.5/69.0 of 80.0 / 69.6 OF 70.3166.4 OF 70.3 / 66.4 OF Supply Air Ducts Cooling Coil Supply Fan 70.7 / 66.6 OF 4000 cfm 63.7% R.H. ROOMS 78.0 / 68.9 OF Return Air Ducts EnergyPro 4.4 by EnergySoft User Number 3665 Job Number: Page:22 of 33 w PROJECT NAME DATE Desert Sa a Restaurant Sk Int Addition 10/29/2008 SYSTEM NAME FLOORAREA New Fi'itsu Mini Split 369 Total Output (Tons) 5.1 Total Output (Btuh/sqft) 166.4 Total Output (sgft/Ton) 72.1 Air System CFM per System 400 Airflow (cfm) 800 Airflow (cfm/sgft) 2.17 Airflow (cfm/Ton) 156.4 Outside Air N 2.8 Outside Air (cfm/sgft) 0.06 Note: values above given at ARI conditions EATING SYSTEM PSYCHROMETRICS 26.0 OF 74.4 of Outside Air 22 cfm 75.8 of OOLING SYSTEM PSYCHROM 109.0 / 75.1 of Outside Air 22 cfm 83.8/63.9 ° F i EnergyPro 4.4 by EnergySoft EM Total Room Loads Return Vented Lighting Return Air Ducts Return Fan Ventilation Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COIL COOLING PEAK COIL HTG. PEAK CFM Sensible Latent CFM Sensible 36 53 ; ,280 L� HVAC EQUIPMENT SELECTION Fijitsu Mini Split System (14 SEER) 53,734 1,012 30,542 Total Adjusted System Output53,734 1,012 30,542 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Jun 3 pm Jan 12 am Heating Coil ►irstream 1 84.5164.3 of User Number: 3665 s at Time of Heating Peak) 108.9 of J Supply Air Ducts 108.9 of Supply Fan 800 cfm ROOMS 70.0 of k Return Air Ducts ',I eratures at Time of Cooling Peak) 55.0 / 53.3 of 58.9 / 54.9 OF j Olr�a Supply Air Ducts Supply Fan 58.9 / 54.9 of 800 cfm 40.4% R.H. ROOMS 78.0 / 62.0 of Return Air Ducts I Cooling Coil Job Number: :23 of 33 ZONE LOAD SUMMARY PROJECT NAME Desert Sage Restaurant (Skylight Addition DATE 10/29/2008 SYSTEM NAME Existing A/C FLOOR AREA 3,182 ZONE LOAD SUMMARY ZONAL SYSTEM COOLING PEAK HEATING PEAK ZONE NAME SYSTEM NAME Mult. CFM Cooling Latent Heating CFM SENSIBLE LATENT CFM SENSIBLE Existing Restaurant 1.0 5,246 47,231 4,370 1,649 33,113 Values include ventilation load COINCIDENT TOTAL 1 47,231 4,370 33,113 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:24 of 33 ZONE LOAD SUMMARY PROJECT NAME Desert Sage Restaurant (Skylight Addition DATE 10/29/2008 SYSTEM NAME New Fi'itsu Mini Split FLOOR AREA 369 ZONE LOAD SUMMARY ZONAL SYSTEM COOLING PEAK HEATING PEAK ZONE NAME SYSTEM NAME Mult. CFM Cooling Latent Heating CFM I SENSIBLE LATENT CFM SENSIBLE New Dining Area 1.0 1,118 28,107 319 167 7,241 Values include ventilation load COINCIDENT TOTAL 1 28,107 319 7,241 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page:25 of 33 ROOM LOAD SUMMARY PROJECT NAME DATE Desert Sa e Restaurant Skylight Addition 10/29/2008 SYSTEM NAME FLOOR AREA Existing A/C 3,182 ROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Mult. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE Existing Restaurant Existing Restaurant 1 5,246 40,530 1,973 5,246 40,530 1,973 1,649 24,174 PAGE TOTAL 1 5,246 40,530 1,973 17649 24,174 TOTAL 1 5,246 40,530 1,973 1,649 24,174 EnergyPro 4.4 by EnergySoft ' User Number: 3665 Job Number: Page: 26 of 33 ROOM LOAD SUMMARY PROJECT NAME Desert Sage Restaurant (.§ i ht Addition DATE 10/29/2008 SYSTEM NAME New Fi'itsu Mini Split FLOOR AREA 369 ROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK COIL HTG. PEAK ZONE NAME ROOM NAME Mult. CFM SENSIBLE LATENT CFM SENSIBLE LATENT CFM SENSIBLE New Dining Area New Conditioned Dining Are 1 1,118 27,377 229 1,118 27,377 229 167 6,204 PAGE TOTAL 1,118 27,377 229 167 6,204 TOTAL 1,118 27,377 229 IF 167 6,204 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 27 of 33 ROOM HEATING PEAK LOADS Project Title Date Desert Sa a Restaurant (Skylight Addition) 10/29/2008 Room Information Design Conditions Room Name Existing Restaurant Time of Peak Jan 12 am Floor Area 3,182 Outdoor Dry Bulb Temperature 260E Indoor Dry Bulb Temperature 70°F Conduction Area U -Value AT of Btu/hr Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 24 1741 Infiltration: [ 1.00 x 1.064 x 3 182 x 10.50 x 0.000 16] X Schedule Air Sensible Area Ceiling Height ACH DT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 24,174 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 28 of 33 3.182.0 x X x X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 0.0490 x X x X x x x X X X x x x x x x x x X x x x x X x x x X X x x X x x x X X X X 44 = = = = = = = = = = = = = = = = = = = = = = = = = = = = _ = = = 6,860 411.0 0.0740 44 1,338 48.0 1.2500 44 2,640 595.0 0.0740 44 1,937 459.0 0.0740 44 1,495 595.0 0.0740 44 1,937 perimeter = 248.0 0.7300 44 7,966 Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 24 1741 Infiltration: [ 1.00 x 1.064 x 3 182 x 10.50 x 0.000 16] X Schedule Air Sensible Area Ceiling Height ACH DT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 24,174 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 28 of 33 t ROOM HEATING PEAK LOADS Project Title Date Desert Sage Restaurant (Skylight Addition) 110/29/2008 Room Information Desi n Conditions Room Name New Conditioned Time of Peak Jan 12 am Floor Area Dining "'0 Outdoor Dry Bulb Temperature 260F Indoor Dry Bulb Temperature 70 OF Conduction Area U -Value AT of Btu/hr Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 6 204 Infiltration: [ 1.00 x 1.064 x 369 x 14.00 x 0.000 16] x Schedule Air Sensible Area Ceiling Height ACH ILT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 6,204 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 29 of 33 369.0 X x x X x X X x x x x x x x x X X x x x x x x x x x x x x x x x x x x x X x X 0.3400 x x X x X X x x x x x x x x x x X x x x x x x x x x x x x x x x x x x x x x x 44 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = 5,520 51.0 0.0740 44 166 54.0 0.0740 44 176 51.0 0.0740 44 166 54.0 0.0740 44 176 Items shown with an asterisk (') denote conduction through an interior surface to another room. Page Total: 6 204 Infiltration: [ 1.00 x 1.064 x 369 x 14.00 x 0.000 16] x Schedule Air Sensible Area Ceiling Height ACH ILT Fraction TOTAL HOURLY HEAT LOSS FOR ROOM 6,204 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 29 of 33 , .: 0,, ROOM COOLING PEAK LOADS Title Desert Sage Restaurant MATION Room Name Floor Area Indoor Dry Bulb Temperature Conduction Default Roof 1978 to Present R-19 Wall 19 t Addition Existing Restaurant I Time of Peak 3,182 1 Outdoor Dry Bulb Temperature 780F Outdoor Wet Bulb Temperature Area 3,182.0 411.0 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value 1.2500 0.0740 Date 10/29/2008 X X X X X X X X X DETD = = = = = = = = = 66.7 32.5 20.3 35.1 38.3 48.2 Page Total Weighting Orientation Area SGF SC Factor (N) 48.0 X 46 X 0.856 X 0.735 = X X x = x X X = x X X X x X = X x x x X x = X x X X X X _ X X x = Page Total Jul 2 pm 111 OF 78 OF Btu/hr 10,399 988 1,217 1,547 1 300 2 123 17 575 Btu/hr 1,389 1 389 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor Lights —1.0-0, X 3,182 X 1.200 Watts/sgft X 3.413 Btuh/Watt x 0.999 = 13,018 Occupants 1.01 x 3,182 X 245 Btuh/occ. 1 25 sqft/occ. X 1.00 = 3,118 Receptacle — 1.00 X 3,182 X 0.500 Watts/sqft x 3.41 Btuh/Watt X 1.00 = 5,430 Process 1.00 X 3,182 X 0.000 Watts/sqft X 3.41 Btuh[Vllatt X 1.00 = 0 Infiltration: [ 1.00 x 1.064 x 3 182 x 10.50 x 0.00 /6 ] x Schedule Air Sensible Area Ceiling Height ACH QT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 40,530 Schied. Btu/hr Latent Gain Frac. Area Heat Gain Occu ants 1.00 x 3,182 x 155 Btuh/OCC. / 250 sqft/occ. = 1 973 Receptacle x,_00 x 3,18 x 0.900 Watts/sqft x 3413 Btuh/Watt = !Process r 1.00 X 3,182 X 0.000 Watts/sqft x 3.413 BtuhfWatt = �0� Infiltration: L 1�0 x 4Z71 x g,18 x 1.0.50 x 0_0.0 / 6] x 0_OOQ00 = L --OJ Schedule Air Latent Area Ceiling Height ACH InW Fraction TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 1,9731 EnergyPro 4.4 by EnergySoft User Number 3665 Job Number Page: 30 of 33 ROOM COOLING PEAK LOADS Title ROOM INFO Room Name Desert Sage Restaurant (Skylight Addition VIATION DE: :Ioor Area ndoor Dry Bulb Temperature Conduction New Conditioned Dining Area I Time of Peak 369 (Outdoor Dry Bulb Temperature 780F Outdoor Wet Bulb Temperature Area 54.0 51.0 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain Orientation Area (Skv) 369.0 x x x x U -Value 0.3400 0.0740 Date 10/29/2008 X X X X X X X X X DETD 1 = = = = = = = = = 17.8 31.0 33.3 31.6 51.4 0.828 Page Total SGF x x x x x x x x x x Sc Weighting Factor = = = = = = = = = = 234 0.310 0.828 X x x X Page Total Jun 3 pm 109 75 Btulhr 2,233 117 133 119 205 2 Sol Btu/hr 22,194 22 194 Sched. Weighting Btulhr Internal Gain Frac. Area Heat Gain Factor r— 1Lights 1.00 x 369 X 1.100 Watts/sgft X 3.413 Btuh/Vllatt X 0.999 = 1,384 Occl— u ants 1 00 x 369 x 245 Btuh/occ. I 25 sgft/occ. X 1.00 = 362 Receptacle 1 00 X 369 x 0.500 Watts/sgft x 3.413 BtuhlWatt x 1.00 = 630 Process 1 00 x 369 x 0.000 Watts/sgft x 3.41 BtuhlWatt x 1.00 = 001 L Infiltration: [ 1.00 x 1.064 x 369 x 14.00 x 0.00 l6] x Schedule Air Sensible Area Ceiling Height ACH Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 27,377 Sched. Btu/hr Latent Gain Frac. Area Heat Gain O cupants 1.00 x 369 X 155 Btuh/occ. / 250 sqft/OCC. = 229 Receptacle �i*OQ x 36 x 0.999 Watts/sgft x Btuh/Watt = 0 (Process 1.00 x 369 x 0.000 Wattslsgft x 3.413 BtuhlWatt = 00I Infiltration: [ 1_.0.0 x 4,77 x 369 x 1_4.09 x 0 0.0 / 6] x X000.00 = L—OJ Schedule Air Latent Area Ceiling Height ACH DW Fra TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 229 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 31 of 33 ROOM COOLING COIL LOADS Project Title Desert ROOM INFORMATION Room Name Floor Area e Restaurant (Skylight Addition oor Dry Bulb Temperature Conduction Default Roof 1978 to Present R-19 Wall :7 Existing Restaurant I Time of Peak 31182 I Outdoor Dry Bulb Temperature 78cl' Outdoor Wet Bulb Temperature Area 3,182.0 411.0 48.0 595.0 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value X 0.0490 X X 0.0740 X X 1.2500 X X 0.0740 X X 0.0740 X X 0.0740 X X X X X X X Date 10/29/2008 DETD 1 66.7 = 32.5 = 20.3 = 35.1 = 38.3 = 48.21 = Page Total Weighting Orientation Area SGF SC Factor (N) 48.0 X 46 X 0.856 X 0.735 = X x X X X X X X X = X X X = X X X = X X X = X X X = X X X = X I X X = Page Total Jul 2 pm 111 9F 78 c� Btu/hr 10,399 988 1,217 1,547 1,300 2,123 17 575 Btu/hr 1,389 1 389 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor Lights 1.00 x 3,182 x 1.200 Watts/sgft x 3.413 Btuh[Watt x 0.999 = 13,018 �Occupants 00{ x 3,182 x 245 Btuh/occ. / 25 sgft/occ. x 1.00 = 3,118 'Receptacle 1.00 x 3,182 x 0.500 Watts/sgft X 3.413 Btuh/Watt x 1.00 = 5,430 Process 1.017 x 3,182 x 0.000 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 0 Infiltration: [ 1.00 x 1.064 x 3 182 x 10.50 x 0.00 /6 0] x 34 = LJ Schedule Air Sensible Area Ceiling Height ACH OT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 40,530 Sched. Btu/hr Latent Gain Frac. Area Heat Gain Occ upants 1.00 x 3182 x 155 Btuh/OCC. I 250 SgftlocC. Receptacle �_QQ X 3,18 x 0009 Wattslsgft x 3 BtuhlWatt = ,Process ess 1.00 x 3,182 x 0.000 Watts/sqft x 3.413 Btuh[Watt = 0 Infiltration: [ 1_ Q x 477 x 3 �_g x 10.50 x 0 Q / 60] x Q.Q000_ Schedule Air Latent Area Ceiling Height ACH Z�lw Fraction - TOTAL HOURLY LATENT HEAT GAIN FOR ROOM '1,973 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 32 of 33 t . " ROOM COOLING COIL LOADS Title Desert Saae Restaurant (Skylight Addition )M INFO! m Name r Area or Dry Bulb Temperature Conduction 19 Wall DESIGN CON New Conditioned Dining Area I Time of Peak NS 369 Outdoor Dry Bulb Temperature 789k Outdoor Wet Bulb Temperature Area 51 1. Design Equivalent Temperature Difference (DETD) Items shown with an asterisk (') denote conduction through an interior surface to another room. Solar Gain U -Value 0.3400 0.0740 Date 10/29/2008 DETD 1 17.8 = 31.0 = 33.3 = 31.6 = 51.4 = Page Total Weighting Orientation Area SGF SC Factor (�) 369.0 x 234 X 0.310 x 0.828 x x x = X X X = X X X X x X x X X X X X = X X X X X X = X X x Page Total Jun 3 pm 109 OF 75 OF Btu/hr 2,233 117 133 119 205 2 807 Btu/hr 22,194 22 194 Sched. Weighting Btu/hr Internal Gain Frac. Area Heat Gain Factor fights 1.00{ X 369 X 1.100 Watts/sqft x 3.413 Btuh/Watt X 0.999 = 1,384 O�pants 1.0 I X.— 369 X 245 Btuhlocc. 1 25( sgft/OCc. X 1.00 = 362 Receptacle 1.00 x 369 x 0.500 Wattslsgft x 3.413 Btuh/Watt x 1.00 = 630 Process 01 x 369 x 0.000 Wattslsgft x 3.413 Btuh/Watt x 1.00 = 0 Infiltration: [ 1.00 x 1.064 x 369 x 14.00 x 0.00 /6 01 x Schedule Air Sensible Area Ceiling Height ACH DT Fraction TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 27,377 Sched. Btu/hr Latent Gain Frac. Area Heat Gain OL ccupa its 1.00 x9 x 155 Btuhlocc. 1 250 sgftlocc. = 229 Receptacle x_00 xF7719- x 0900 Wattslsgft x 3413 Btuh/V11att = 0 iProcess 1.00 x 369 x 0.000 Wattslsgft x 3.413 Btuh/Watt = 0 Infiltration: [ 1.00 X 4,77_1 X 3.6.9 x '_4..000 X 0.00 / 60� x 000000 = I o Schedule Air Latent Area Ceiling Height ACH Z�lw TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 229 EnergyPro 4.4 by EnergySoft User Number: 3665 Job Number: Page: 33 of 33 *wl.jw * m * * * A * A a & A A A&A^ GLAZING SPECIFICATIONS 15EE: Nex4 pa Je -foc egvCA+,0(N to eoc%vec} 5G -ta 51AGC. , 6MM 8MM LU 0 4 C7 10MM 16M M * U -values calculated by ASTM C-236. ASHRAE standard 15 mph (winter) and 7.5 mph (summer) winds assumed. * 112' dead air space between each glazing_ Single Glazed [tt�ttt�ttl•�� Double Glazed TRANSMISSIONLIGHT • SHADING -COEFFICIENTS 01 CAN + a TO MEET DESIRED SPECIFICATIONS Light Transmittance Shading Coefficient U -Values (Winter) U -Values (Summer) Glazing Color Single Double; Single Double Single Double Single Double Glazed Glazed Glazed Glazed Glazed Glazed Glazed Grazed (same color) same color) (same color) .(same color) Clear 83% $9% 0.98 0.85 0.61 0.29 0.61 0.29 L1. Bronze 50% 25% 0.70 0.49 0.61 0.29 0.70 0.35 Dk. Bronze 25% 13% 0.61 0.40 0.61 0.29 0.74 0.37 Opal 40% 19% 0.66 0.47 0.61 0.29 0.72 0.32 White 20% - 10% 0.53 0.32 0.61 0.29 0.71 0.38 Clear 82% 67% 0.96 0.82 0.56 Or27 0.58 0.28 Lt. Bronze 50% 25% 0.70 0.49 0.56 0.27 0.68 0.34 Dk_ Bronze 25% 13% 0.61 0.40 0.56 0.27 0.70 0.35 Opal 40% 19% 0.66 0.47 0.56 0.27 0.70 0.30 White 2001a 10% 0.53 0.32 0.56 0.27 0.67 0.36 Clear 80% 64% 10.89 0.72 0.53 0.25 0.56 0.28 Lt. Bronze 50% 25% 0.70 0.49 0.53 0.25 0.66 0.32 Dk. Bronze 25% 13% 0.61 0.40 0.53 0.25 0.68 0.34 Opal 40% 19% 0.66 0.47 0.53 0.25 0.69 0.29 White 20% 10% 0.53. 0.53 .-�2a 0.64 -6.34, Clear 74% 55% 0.87 0.69 0.48 0.22 0.51 0.27 Lt. Bronze 50% 25% 0.70 0.49 0.48 0.22 0.52 0.30 Dk. Bronze 25% 13% 0.61 0.40 0.48 0.22 0.61 0.31 Opal 40% 19% 0.66 0.47. 0.48 0.22 0,54 0.28 White 20% 10% 0.53 0.32 0.48 0.22 0.58 0.31 * U -values calculated by ASTM C-236. ASHRAE standard 15 mph (winter) and 7.5 mph (summer) winds assumed. * 112' dead air space between each glazing_ Single Glazed [tt�ttt�ttl•�� Double Glazed TRANSMISSIONLIGHT • SHADING -COEFFICIENTS 01 CAN + a TO MEET DESIRED SPECIFICATIONS 11 any int e ral ,le--tv-t or thewilldbw syster.fl that red'u-cesthe floe Orsola.v- lira -L sud'i as, layers.; reflective creat- is'Ir.d.h.terwed- lay all the scmic fi,,ictors aslheSC lout since lturin.beaplied,.to p t.he ei'Alre vvindavv assembly. 7; ilie SFIGC is also affected by sly adi,ng r ons the rrarne a:,4*- vvoall- as the ratio orglaxing alid, fr-aime.'F'or arty gJazing Alie SITGC Is fryou riti,d:tiii..o:ldetif,,nfortii.at4,ioii. source wiLh.SC values, ardy, ofn:make ersi, . on . to. - S110 C 4 104. theli &m`:ng1s y I V tae SC vatue by.0,87..Total windovv S'f,iG,,C Ls ttsed thlrough.oul ffils booR.- and, Is round 1 0 n th'.e INFRC latiels. MGC C: = 5 C =-AO - (Y7 C).2-7 = c), 2> �L /',1- O. � 7 t> `A &'C. = 0..,-7