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07-2788 (AC) Title 24
:'k TITLE 24 REPORT IIIIIIIIVIIIIIIVIIIIIII 44 _ . IE .-. _ ...� Title 24 Report for: Additions_ estaurant Qj 78-164 Avenue 52 a Quinta Project Designer: Roy A. Asaro, Architect 42-220 Green Way, Suite H Palm Desert, Ca 92211 (760)341-4420 Report Prepared By: Ric Krown Desert Energy Services, P.O. Box 6251 La Quinta, CA 92248 (760) 250-2084 Job Number: / 0772 Date: 9/21/2007 CITY Q� QUINTA BUILDING - "JETY DEPT. AM a �l .._. �,XED FOR CONS G'i L)CTION DATE II b FIY..__ D7.27� U SEP 2 5 2007 � 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. EnerovPro 4.1 by EnergvSoft Job Number. 0772 User Number. 2366 &-tof =IT=( 4f4p�r It I TABLE OF CONTENTS I Cover Page Table of Contents fi Form ENV -1-C Certificate of Compliance Form ENV -3-C Overall Envelope Method Form ENV -MM Envelope Mandatory Measures ,r 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 Room Load Summary 1 2 3 5 12 13 15 16 18 20 22 EnergyPro 4.1 by EnergySoft Job Number. 0772 User Number: 2366 CERTIFICATE OF COMPLIANCE (Part 1 of 2) ENVA PROJECT NAME DATE Additions to Arnold Palmer's Restaurant 9/21/2007 PROJECT ADDRESS 78-164 Avenue 52 La Quinta Building Permit # PRINCIPAL DESIGNER - ENVELOPE TELEPHONE Roy A. Asaro, Architect (760)341-4420 - DOCUMENTATION AUTHOR TELEPHONE Checked by/Date Desert Energy Services, LLC (760) 250-2084 1 EnforcementAgency Use GENERAL INFORMATION DATE OF PLANS BUILDING CONDITIONED FLOOR AREA CLIMATE ZONE 9/21/07 518 Sq.Ft. 15 BUILDING TYPE ❑X NONRESIDENTIAL ❑ HIGH RISE RESIDENTIAL ❑ HOTEUMOTEL GUEST ROOM ❑ RELOCATABLE- Indicate: ❑ Specific Climate -list: -,or ❑ All Climates PHASE OF CONSTRUCTION ❑ NEW CONSTRUCTION ADDITION ❑ ALTERATION ❑ UNCONDITIONED (File Affidavit) METHOD OF ENVELOPE ❑ COMPONENT(ENv-2-C) ❑X 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/acquratSan complete. DOCUMENTATION AUTHOR SIGNAT DAT Ric Krown 2 The Principal Envelope Designer hereby certifies that the pred building design represented in this set of construction documents is consistent with the other compliance forms ane'.' - heets, 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 Prof sions Code to sign this document because it pertains to a structure or type of work described as exempt pursuant to usi ess and Professions Code Sections 5537, 5538, and 6737.1. PRINCIPAL ENVELOPE DESIGNER - NAME I SIGNATURE k R DATE 2 LIC. # RoV A. Asaro Architect M 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 the California Energy Commission. I ®ENV -1-C: Certificate of Compliance. Required on plans for all submittals. Part 2 maybe incorporated in schedules on plans. ❑ENV -2-C: Used Envelope Component compliance method ®ENV -3-C: Used with Overall Envelope Compliance method ❑ENV -4-C: Optional. Use for minimum skylight requirements for large enclosed spaces EnergyPro 4.1 by EnergySoft User Number. 2366 Job Number. 0772 Page:3 of 23 CERTIFICATE OF COMPLIANCE (Part 2 of 2) ENV - (PROJECT NAME DATE Additions to Arnold Palmer's Restaurant 9/21/2007 OPAQUE SURFACES # Surface Type Area U -Fac. Insulation Cay. Cont. Act. Am. Tilt Cond: Status Joint Appendix IV Reference Location / Comments 1 Roof 230 0.036 R-30 R-0.0 0 0 New 02-A9 Dinin Add'n 2 Wall 116 0.178 R-21 R-0.0 240 90 New 11-A6 Dining Add'n 3 Wall 215 0.178 R-21 R-0.0 330 90 New 11-A6 Dining Add'n 4 Wall 66 0.178 R-21 R-0.0 60 90 New 11-A6 Dining Add'n 5 Roof 288 0.036 R-30 R-0.0 0 0 New 02-A9 Storage 6 Wall 90 0.178 R-21 R-0.0 330 90 New 11-A6 Storage 7 Wall 260 0.178 R-21 R-0.0 60 90 New 11-A6 Storage 8 Wall 90 0.178 R-21 R-0.0 150 90 New 11-A6 Storage FMore than or equal to 10,000 sq.tL of siteuilt fenestration area must include a label certificate either issued by NFRC or provide a CEC Default Label Certificate using the default Ll -factors from b Standards Table 116-A and B. Certificate shall be filed in the contractor's project office during construction and in the building manager's office after construction Act. # Type Area U -Fac' SHGC2 Am. Cond. Stat. Glazing Type Location/ Comments (1) 1.1 -factor Type: 11 6-A Default Table from Standards, Table N1-1 Default Table from the ACM Manual Appendix NFRC Labeled value. 2 SHGC Type: 116-B Default Table from Standards, CDG Center of Glass, NFRC Labeled Value EXTERIOR SHADING Window Overhang Left Fin Right Fin ## Exterior Shade Type SHGC Hgt. Wd. Len. H t. LExt.RExt. Dist. Len. Hot. Dist. Len. H t. I I I I I I I I MINIMUM SKYLIGHT AREA FOR LARGE ENCLOSED SPACES 1:1The proposed building contains an enclosed space with floor area greater than 26,000 sq.M a telling height greater than 16 feet and a LPD for general lighting of at least 0.6 Wlsq.fL If this box Is checked. ENV --C must be filled out when submtMng under the Prescriptive Compliance Approach. EnergvPro 4.1 by EnergvSoft User Number. 2366 Job Number. 0772 Page:4 of 23 1 OVERALL ENVELOPE METHOD (Part 1 of 7) ENV -3-C NAME Additions to Arnold Palmer's Restaurant DATE 9/21/2007 WINDOW AREA CALCULATION A. DISPLAY PERIMETER 0 ftx 6 ft = Q ft' DISPLAY AREA B. GROSS EXTERIOR WALL AREA $37 it 0.40 = 3351 W 40% GROSS WALL AREA C. ENTER LARGER OF A OR B $37 3351 ft' MAXIMUM STND. AREA D. ENTER PROPOSED WINDOW AREA Q ft' PROPOSED AREA E. WINDOW WALL RATIO = Proposed Window Area Divided by Gross Exterior Wall Area = ' 0.000/6 F. WEST DISPLAY PERIMETER 0 ftx 6 ft = Q ft' WEST DISPLAY AREA G. WEST EXTERIOR WALL AREA �— 116 ftx 0.40 = �— 461 ft'.40% WEST WALL AREA H. ENTER THE LARGER OF F AND G 116 46 ft' MAX. STND. WEST AREA 1. ENTER PROPOSED WEST WINDOW AREA 01 ft' PROPOSED WEST AREA J. WEST WINDOW WALL RATIO = Proposed West Window Area Divided by West Exterior Wall Area = 0.000/0 Combined Values for North, East and South Walls K. WEIS DISPLAY PERIMETER (A - F) 01 ftx 6 ft = Q ft' N/EJS DISPLAY AREA L. N/EIS EXTERIOR WALL AREA (B - G) 721 ftx 0.40 = 288 ft' 40% N/E/S AREA M. ENTER LARGER OF K OR L �— 7211 7211 ft= MAX. STAND. N/EIS AREA N. PROPOSED WEIS WINDOW AREA (D -1) Q ft' PROPOSED N/EIS AREA I 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. I ! MAX. STANDARD N/EIS PROPOSED N/E/S WEIS WINDOW ; AREA from M AREA (from N) ADJUSTMENT FACTOR GO TO,PART 7 TO CALCULATE ADJUSTED AREAS. j EnergyPro 4.1 by EnergySoft User Number: 2366 ,lob Number. 0772 Page:5 of 23 OVERALL ENVELOPE METHOD (Part 2 of 7)' ENV -3-C PROJECT NAME Additions to Arnold Palmer's Restaurant A. ATRIUM HEIGHT ill ft GROSS STANDARD ALLOWED ROOF AREA SKYLIGHT AREA B. IF <= 55 FT 518 fe- 0-05= 261 f Z C. IF > 55 FT f =x 0.10 = fe DATE 9/21/2007 D. PROPOSED SKYLIGHT AREA 0 ft' 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 GO TO PART 7 TO CALCULATE ADJUSTED AREAS. EnergyPro 4.1 by EnergySoft User Number. 2366 Job Number: 0772 Page:6 of 23 OVERALL ENVELOPE METHOD (Part 3 of 7) ENV-3-C OVERALL ENVELOPE METHOD (Part 4 of 7) ENV -3-C PROJECT NAME Additions to Arnold Palmer's Restaurant DATE 9/21/2007 VERALL HEAT GAIN FROM CONDUCTION A B C I D I E F G H I I J ASSEMBLY NAME (e.g. Wall -1, Floor -1) PROPOSED STANDARD AREA TF HEAT CAP. Ll- FACT. ACM J.A. IV Ref. HEAT GAIN (BxCxE) AREA' (Adjusted) Ll- FACT. TF HEAT GAIN (GxHxl) Roof 230 55 0.036 02-A9 455 230 0.051 55 645 Front Wall 116 55 0.178 11-A6 1,136 116 0.217 55 1,384 Left Wall 215 55 0.178 11-A6 2,105 215 0.217 55 2,566 Rear Wall 66 55 0.178 11-A6 646 66 0.217 55 788 Roof 288 55 0.036 02-A9 570 288 0.051 55 808 Left Wall 90 55 0.178 11-A6 881 90 0.217 55 1,074 Rear Wall 260 55 0.178 11-A6 2,545 260 0.217 55 3,103 Right Wall 90 55 0.178 11-A6 881 90 0.217 55 1,074 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 IV.1 through IV.7 in the Joint Appendices. If Window and/or Skylight Area Adjustment is Required, use Adjusted Areas from Part 6 of 7. g 220 11 443 Subtotal Subtotal EnergyPro 4.1 by EnergySoft User Number. 2366 Job Number. 0772 Page:8 of 23 (Part 5 of 7) ENV -3-C PROJECT NAME DATE Additions to Arnold Palmer's Restaurant 9/21/2007 ROOF ABSORPTANCE CALCULATION R-30Roof R.30 Rafter CHECK APPLICABLE BOXES Case 1 - Proposed YES NO 1. CRRC-1 Certified? 2. Is the thermal emittance > 0.75? 3. Enter the initial reflectancep. value: 4. Calculate a,,,, = 0.94 - 0.7p RLq 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. PR!.,,,, = a, = Case 2 - CRRC-1 Tested 5. Enter initial reflectance & emittance values from CRRC-1 6. Calculate pFu.,,,, _ - 0.448 + 1.121p.+ 0.524 E 7. Calculate a,„ = 0.94 - 0.7p a,,„ E. = Go to 6. Insert values in calculation. Go to 7. Insert value in calculation. Enter calculated value in Column F below. p,* = p R1. VW = a,,,, = 8. Not CRRC-1 Tested For nonresidential low -sloped roofs: For all other roofs: a,,, = 0.87 Enter default value in Column F below. a,,,, = 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. 1 83 Subtotals are entered under "Subtotal' SUBTOTAL in COLUMNS I and M of ENV -3-C, Part 6of7. 1 345 SUBTOTAL EnergyPro 4.1 by EnergySoft User Number. 2366 Job Number: 0772 Page:9 of 23 (OVERALL ENVELOPE METHOD (Part 6 of 7) ENV -3-C NAME Additions to Arnold Palmer's Restaurant OVERALL HEAT GAIN FROM RADIATION FENESTRATION SURFACES DATE 9/21/2007 A B C D E F G H I J K L M j WINDOW/SKYLIGHT NAME e.g. Wind -1, Sky -1) ORIENT. WEIGHTING FACTOR PROPOSED STANDARD AREA SF 1 SHGC OVERHANG H has a "C' identifier, calculate using the center of glass value SHGCc in HEAT GAIN2 (BxCxDxExH) AREA 3 (ADJUSTED) RSHG 4 or SHGC SF HEAT GAIN (BXJXKxL) H V HIV OHF i 1,3451 2. Proposed Heat Gain, Column I may be no greater than Standard Heat Part 6 Subtotal Part 6 Subtotal Gain Column M. 0 3. If Window and/or Skylight Area Adjustment is required, use adjusted area Part 6 Subtotal Part 6 Subtotal from Parts of 7. 4. Only SHGC is used for Skylights 11,05 Total Heat Gain 12,788 EnergyPro 4.1 by EnergySoft User Number: 2366 Job Number. 0772 Page: 10 of 23 1. From Fenestration Surfaces ENV -1-C, Part 2, Column G, or when Column Part 4 Subtotal Part 4 Subtotal 11,4431 H has a "C' identifier, calculate using the center of glass value SHGCc in SHGCfen = .08 + (0.86xSHGCc) and enter value. 1,836 i 1,3451 2. Proposed Heat Gain, Column I may be no greater than Standard Heat Part 6 Subtotal Part 6 Subtotal Gain Column M. 0 3. If Window and/or Skylight Area Adjustment is required, use adjusted area Part 6 Subtotal Part 6 Subtotal from Parts of 7. 4. Only SHGC is used for Skylights 11,05 Total Heat Gain 12,788 EnergyPro 4.1 by EnergySoft User Number: 2366 Job Number. 0772 Page: 10 of 23 OVERALL ENVELOPE METHOD Part 7 of 7 ENV -3-C PROJECT NAME DATE Additions to Arnold Palmer's Restaurant 9/21/2007 WINDOW AREA ADJUSTMENT CALCULATIONS 0 CHECK IF NOT APPLICABLE (See Part 1 of 7) ORIFENTATION ENTATION E F G WINDOW ADJUST. FACTOR (From Part 1) ADJUSTED WINDOW AREA (D X E) ADJUSTED WALL AREA B - (F + C) A B C D WALL NAME (e.g. Wall -1, Wall -2) GROSS AREA DOOR AREA WINDOW AREA E I S IWI ❑ ❑ ❑ ❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ El 1:11:11:1 ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ ❑❑❑❑ TOTALS N/A EnergyPro 4.1 by EnergySoft User Number. 2366 Job Number. 0772 Page: 11 of 23 TOTALS I I I I I N/A CALCULATIONSSKYLIGHT AREA ADJUSTMENT a 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 TOTALS N/A EnergyPro 4.1 by EnergySoft User Number. 2366 Job Number. 0772 Page: 11 of 23 ENVELOPE MANDATORY MEASURES ENV -MM ROJECT NAME Additions to .Arnold Palmer's Restaurant DATE 9/21/2007 DESCRIPTION Designer Enforcement F§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. FXJ§ 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. FXJ §117(a) All Exterior Joints and openings in the building that are observable sources of air leakage shall be caulked, Basketed, weatherstripped or otherwise sealed. X] § 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). XI § 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. 0 §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. I I � I I � I EnergyPro By EnergySoft• User Number. User Job Number. 0772 Page: 12 of 23 CERTIFICATE OF COMPLIANCE (Part 1 of 2) MECH-1-C PROJECT NAME DATE OF PLANS DATE Additions to Arnold Palmer's Restaurant 9/21/071 9/21/2007 PROJECT ADDRESS BUILDING TYPE NONRESIDENTIAL ❑ HIGH RISE RESIDENTIAL ❑ HOTELIMOTEL GUEST ROOM PHASE OF CONSTRUCTION ❑ NEW CONSTRUCTIONX❑ ADDITION ❑ ALTERATION ❑ UNCONDITIONED (File Affidavit) 78-164 Avenue 52 La Quinta COMPLIANCE PROOF OF ENVELOPE COMPLIANCE ❑ PREVIOUS ENVELOPE PERMIT [:]'ENVELOPE COMPLIANCE ATTACHED PRINCIPAL DESIGNER - MECHANICAL TELEPHONE Building Permit # Roy A Asaro, Architect (760) 341-4420 SIGNATURE DOCUMENTATION AUTHOR TELEPHONE Checked by/Date Desert Energy Services, LLC (760) 250-2084 Enforcement Agency use GENERAL INFORMATION DATE OF PLANS BUILDING CONDITIONED FLOOR AREA CLIMATE ZONE 9/21/071 518 Sq.Ft 1 15 BUILDING TYPE NONRESIDENTIAL ❑ HIGH RISE RESIDENTIAL ❑ HOTELIMOTEL GUEST ROOM PHASE OF CONSTRUCTION ❑ NEW CONSTRUCTIONX❑ ADDITION ❑ 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 a ur to !pO co plete. DOCUMENTATION AUTHOR SIGNATURE DATE Ric Krown ' The Principal Mechanical Designer hereby certifies that the propos b ildin design represented in this set ofconstruction 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 through 115, 120 through 125, 142, 144, and 145. ❑ The plans & specifications meet the requirements of Part 6 (Sections 10-103a). ❑ The installation certificates meet the requirements of Part 6 (10-103a 3). ❑ The operation & maintenance information meets the requirements of Part 6 (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. ❑ I affirm that I am eligible under the exemption to Division 3 of the Business a Pr ssions Code to sign this document because it pertains to a structup or type of work described pursuant to Business and Professions Code sectio 55 i , 5538, and 6737.1. PRINCIPAL MECHANICAL DESIGNER - NAME --[SIGNATURE DAT LIC. # Roy A Asaro Architect i i INSTRUCTIONS TO APPLICANT ® MECH-1-C: Certificate of Compliance. Part 1, 2, 3 of 3 are required on plans for all submittals. ❑ MECH-2-C: Certificate of Compliance. Part 1, 2 of 2 are required for all submittals, but may be on plans. 0 MECH-3-C: Certificate of Compliance are required for all submittals with mechanical ventilation, but may be on plans. j IN MECH-4-C: Certificate of Compliance are required for all prescriptive submittals, but may be on on plans. ❑ MECH-5-C: Mechanical Equipment Details are required for all performance submittals. EnergyPro 4.1 by EnergySoft User Number: 2366 Job Number. 0772 Page: 13 of 23 CERTIFICATE OF COMPLIANCE (Part 2 of 2) MECH-1-C PROJECT NAME DATE Additions to Arnold Palmer's Restaurant 9/21/2007 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 certificates. and ooeratino and maintenance information meet the reauirements of Section 10-103(b) and Title 24 Part 6. 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. ❑ 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 fl2 of space or less and 251% or more of the duds 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 duds, replace duds or replace the packaged und. ❑ 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 hat 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 Btulhr. -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 ate greater than 5 hp. Equipment requiring acceptance testing EnergyPro 4.1 by EnergySoft User Number: 2366 Job Number. 0772 Page: 14 of 23 MECHANICAL VENTILATION MECH-3-C NAME ns to Arnold Palmer's Restaura DATE 9/21 PRESCRIPTIVE REHEAT LIMITATION (Section 144(d)) MECHANICAL VENTILATION Section 121(b)2) AREA BASIS OCCUPANCY BASIS VAV MINIMUM A B C D E_ F G H I J K L M N ZONE/SYSTEM n D� �� 0. o 0 a m90 m CD T 3 0 .. oo'Q3 X Dn noati 3 z � 3 O O' io m 0, (D., o f�r tD T 3 rr m03 X n A =y'� 03 ,. _ X �y p � X � � < y < n3 I Ts+y. 3DB o nm 0 TfA� 3Fo w „ -• 0 3W y � a s oo w3 o3i Q O X .n=ow „_ 3 C- CA W �� C 3 .. • D H m D Dining Add'n 230 0.50 1151 1 115 115 Part of Exist. Gas/Elec Total 115 115 Storage 286 0.15 43 43 43 Ductless Heat pump Total 43 43 CI Minimumventilation atPer 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 IMust be greaterthan ore ual to H. or use Transfer Air column N to make u the difference. J Design fan supply cfm (Fan CFM) x 30%; or K Condition area ft. s x 04 cfmlft. sq.; or L Maximum of Columns H, J. K, or 300 cfm I M This must be less than or equal to Column L and greater that or equal to the sum of Columns H + N. N Transfer air must be provided where the Required Ventilation Air (column H) 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 H) and the Design Minimum Air (column M), column H - M. EnergyPro 4.1 by EnergySoft User Number. 2366 Job Number: 0772 Page: 15 of 23 MECHANICAL SIZING AND FAN POWER MECH-4-C PROJECT NAME DATE Additions to Arnold Palmer's Restaurant 9/21/2007 SYSTEM NAME FLOOR AREA Part of Exist. Gas/Elec 230 FAN POWER CONSUMPTION A FAN DESCRIPTION Supply Fan 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' B C I D E DESIGN BRAKE HP EFFICIENCY 144 NUMBER OF FANS MOTOR DRIVE 0.250 64.0% 97.0% 1.0 144(l) 1) TOTAL FAN SYSTEM POWER (Watts, Sum Column F) :2) SUPPLY DESIGN AIRFLOW (CFM) 1 3) TOTAL FAN SYSTEM POWER INDEX (Row 1/Row 2) 4) SPa 5) SPf 6) Fan Adjustment= 14SPa-1)/SPf 1 7) ADJUSTED FAN POWER INDEX (Line 3 x Line 6) 1. TOTAL FAN SYSTEM POWER INDEX or ADJUSTED FAN POWER INDEX must not exceed 0.8 W/dm for Constant Volume systems or 1.25 W/cfm for VAV systems. PEAK WATTS B x E x 746 / (C X D)l I 3001 I. 6001 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 144 144 (h) 144(l) 1. Total installed capacity (MBtuthr) of all electric heat on this project exclusive of electric auxiliary heat for heat pumps. If electric heat is used, explain which exosption(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(1) apply. i EnergyPro 4.1 by EnergySoft User Number. 2366 Job Number: 0772 Page: 16 of 23 MECHANICAL SIZING AND FAN POWER MECH-4-C PROJECT. NAME DATE Additions to Arnold Palmer's Restaurant 9/21/2007 SYSTEM NAME FLOOR AREA Ductless Heat pump 288 FAN POWER CONSUMPTION A FAN DESCRIPTION Supply Fan 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. B C I D E F DESIGN EFFICIENCY NUMBER PEAK WATTS BRAKE HP MOTOR DRIVE OF FANS B x E x 7461(C X D) 0.250 64.0% 97.0% 1.0 300 1) TOTAL FAN SYSTEM POWER (Watts, Sum Column F) 2) SUPPLY DESIGN AIRFLOW (CFM) 1 3) TOTAL FAN SYSTEM POWER INDEX (Row 1/Row 2) 4) SPa 5) SPf 6) Fan Adjustment = 1-(SPa-1)/SPf 1 7) ADJUSTED FAN POWER INDEX (Line 3 x Line 6) 1. TOTAL FAN SYSTEM POWER INDEX or ADJUSTED FAN POWER INDEX must not exceed 0.8 W/dm for Constant Volume systems or 1.25 W/dm for VAV systems. 75 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(l) 1. Total installed capacity (MBtu/hr) of all electric heat on this projed exclusive of electric auxiliary heat for heat pumps. If electric heat is used, explain which exceptions) 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 exceptions) 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(1) apply. L EnergyPro 4.1 by EnergySoft User Number: 2366 Job Number: 0772 Page: 17 of 23 MECHANICAL MANDATORY MEASURES Part 1 of 2 MECH-MM NAME Additions to Arnold Palmer's Restaurant DATE 9/21/2007 DESCRIPTION Designer Enforcement Equipment and Systems Efficiencies a §111 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. FX § 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, 603 and 604 of the Uniform Mechanical Code. .Controls § 122(e) Each space conditioning system shall be installed with one of the following: F,vl§ 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 § 122(e)1 B An occupancy sensor to control the operating period of the system; or § 122(e)1C A 4 -hour timer that can be manually operated to control the operating period of the system. § 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. § 122(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. ® § 122(aft) 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. § 112(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 By EnergySoft User Number. User Job Number. 0772 Page: 18 of 23 MECHANICAL MANDATORY MEASURES Part 2 of 2 MECH-MM PROJECT NAME Additions to Arnold Palmer's Restaurant DATE 0/21/2007 Description Designer Enforcement Ventilation F§ 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. § 1220 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. X❑ § 122(f) All gravity ventilating systems shall be provided with automatic or readily accessible manually operated dampers in all openings to the outside, except for combustion air openings. R§ 121(f)1 Air Balancing: The system shall be balanced in accordance with the National Environmental Balancing Bureau (NEBB) Procedural Standards (1983), or Associated Air Balance Council (AABC) National Standards (1989); or R§ 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 § 121(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 Pleating Systems R§ 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(b)3B Lavatories in restrooms of public facilities shall be equipped with controls to limit the outlet temperature to 110 degrees F. § 113(b)3C Lavatories in restrooms of public facilities shall be equipped with one of the following: Outlet devices that limit the flow of hot water to a maximum of 0.5 gallons per minute. Foot actuated control valves, and outlet devices that limit the flow of hot water to a maximum of 0.75 gallons per minute. Proximity sensor actuated control valves, and outlet devices that limit the flow of hot water to a maximum of 0.75 gallons per minute. Self-closing valves, and outlet devices that limit the flow of hot water to a maximum of 2.5 gallons per minute, and 0.25 gallonslcycle (circulating system). Self-closing valves, and outlet devices that limit the flow of hot water to a maximum II of 2.5 gallons per minute, and 0.50 gallonslcycle (non -circulating system). Self-closing valves, and outlet devices that limit the flow of hot water to a maximum j of 2.5 gallons per minute, and 0.75 gallonslcycle (foot switches and proximity sensor controls). EnergyPro By EnergySoft User Number: User Job Number. 0772 Page: 19 of 23 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE Additions to Arnold Palmer's Restaurant 9/21/2007 SYSTEM NAME FLOOR AREA Part of Exist. Gas/Elec 230 Airflow (cfin) 600 Airflow (cfmisgft) 2.61 Airflow (cf n/Ton) 400.0 Outside Air (%) 19.2 Outside Air (cfm/sgft) 0.50 Note: values above given at ARI conditions TEM LOAD 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 I Sensible 605 9,508 4,238 297 4,630 0 285 139 0 0 115 4,596 811 115 5,358 0 0 2851 139 14,6771 5 048 10 266 Part of Carrier 48TJO07 14,601 2,228 15,000 Total Adjusted System Output1a,so1 2,228 15,000 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK I Jul 3 pm I Jan 12 am EATING SYSTEM PSYCHROMETRICS Airstream Temperatures at Time of Heating Peak 26.0 OF 61.4 OF 61.4 OF 84.9 OF Supply Air Outside Air O Ducts 115 cfm 84.7 of Supply Fan Heating Coil I It 800 cfm ROOMS 70.0 OF 69.8 OF TOOLING SYSTEM 12.0 / 77.9 of Outside Air 115 cfm 74.4/65.4 of 81.6 / 68.0 of 0 Supply Far 600 cfm k Return Air Ducts 4 81.6/68.1°F 111111 58.8/57.7OF Cooling Coil k Return Air Ducts. `i Supply Air Ducts 59.2/57.9oF 63.3% R.H. ROOMS 74.0165.3 OF EnergyPro 4.1 by Energysoft User Number. 2366 Job Number. 0772 Page:20 of 23 1HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY PROJECT NAME DATE Additions to Arnold Palmer's Restaurant 9/21/2007 SYSTEM NAME FLOOR AREA Ductless Heat pump 288 [ENGINEERING CHECKS 11SYSTEM LOAD Number of Systems t Heating System Output per System 11,700 Total Output (Btuh) 11,700 Output (Btuh/sqft) 40.6 Cooling System Output per System 11,700 Total Output (Btuh) 11,700 Total Output (Tons) 1.0 Total Output (Btuh/sgft) 40.6 Total Output (sgftfTon) 295.4 Air System CFM per System 400 Airflow (cfm) 400 Airflow (cfm/sgft) 1.39 Airflow (cfmrTon) 410.3 Outside Air (%) 10.8 Outside Air (cfm/sgft) 0.15 Note: values above given at ARI conditions 26.0 of 65.1 of Outside Air 43 cfm Supply Fan 400 cfm 69.9 of 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 245 4,956 410 138 5,149 0 50 51 0 0 43 1,742 861 1 43 2,017 0 0 50 51 1 6,797 1,272 7269 Fisher CH1232 8,502 1,637 7,308 Total Adjusted System Output g 502 1,637 7,308 (Adjusted for Peak Design Conditions) TIME OF SYSTEM PEAK Jul 3 pm Jan 12 am Temperatures at Time of Heatina Peak) 65.1 OF M 105.0 OF Heating Coil �% Return Air Ducts 4 Supply Air Ducts 104.9 of ROOMS 70.0 of ICOOl ING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Cooling Peak) 1 112.0 / 77.9 of 78.2 / 63.4 of 78.2 / 63.5 of 55.0 / 53.8 of O Supply Air Ducts Outside Air 43 cfm Supply Fan Cooling Coil 55.1 / 53.9 of 400 cfm 48.7% R.H. ROOMS 74.1 / 61.3 of 74.0, 61.3 of Return Air Ducts. 'I I EnergyPro 4.1 by EnergySoft User Number. 2366 Job Number: 0772 Page:21 of 23 ROOM LOAD SUMMARY PROJECT NAME Additions to Arnold Palmer's Restaurant DATE 9/21/2007 SYSTEM NAME Part of Exist. Gas/Elec FLOOR AREA 230 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 Dining Add'n Waitress Station 1 608 9,561 4,238 605 9,508 4,238 297 4,630 PAGE TOTAL 1 605 9,508 4,238 F---2977 4,630 TOTAL. 1 605 9,508 4,238 297 4,630 EnergyPro By Energysoft User Number. User Job Number: 0772 Page:22 of 23 ROOM LOAD SUMMARY PROJECT NAME Additions to Arnold Palmer's Restaurant DATE 9/21/2007 SYSTEM NAME Ductless Heat pump FLOOR AREA 288 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 Storage New Dry. Storage 1 245 4,956 410 245 4,956 410 138 5,149 PAGE TOTAL 1 245 4,956 410 138 5,149 TOTAL 1 245 4,956 410 138 5,149 EnergyPro By EnergySoft User Number: User Job Number. 0772 Page:23 of 23 IIIIIIIIIIIDIIIVIIIIIII 45' '1 IE Date 12/26/07 No. 29827 Owner Arnold Palmer's Restaurant Address 78164 Avenue 52 City La Quinta Zip 92253 Tract # Type Commercial CERTIFICATE OF COMPLIANCE Desert Sands Unified School District 47950 Dune Palms Road La Quinta', CA 92253 (760) 771-8515 Q BERMUDA DUNES 'RANCHO MIRAGE INDIAN WELLS PALM DESERT t� INTi y V' INDIO 0 VAPN # 770-190-001 risdiction La Quinta Lot # No. Street S.F. Lot # No. Street S.F. Unit 1 78164 Avenue 52 542 Unit 6 Unit 2 Unit 7 Unit 3 Unit 8 Unit 4 Unit 9 Unit 5 Unit 10 Comments Storage & Service Bar Addition At the present time, the Desert Sands Unified School District does not collect fees on garages/carports, covered patiostwalkways, residential additions under 5 00 square feet, detached accessory structures (spaces that do not contain facilities for living, sleeping, cooking, eating or sanitation) or replacement mobile ho mes. It has been determined that the above-named owner is exempt from paying school fees at this time due to the following reason: EXEMPTION NOT APPLICABLE This certifies that school facility fees imposed pursuant to Education Code Section 17620 and Government Code 65995 Et Seq. in the amount of $0.42 X 542 S.F. or $227.64 have been paid for the property listed above and that building permits and/or Certificates of Occupancy for this square footage in this proposed project may now be issued. Fees Paid By CC/Union Bk Of California - Mike Wilson Check No. 0618004626 Name on the check By . Dr. Sharon P. McGehee Superintendent Fee collected /exempted by Sharon MCGilvrey Signature Telephone 409.2541 Funding Commercial Payment Recd $227.64 Over/Under NOTICE: Pursuant to Government Code Section 66020(d)(1), this will serve to notify you that the 90 -day approval period in which you may protest the fees o r other payment identified above will begin to run from the date on which the building or installation permit for this project is issued, or -from the date on which those amounts are paid to the District(s) or to another public entity authorized to collect them on the District('s) behalf, whichever is earlier. NOTICE: This Document NOT VALID if Duplicated Embossed Original - Building Department/Applicant Copy - Applicant/Receipt Copy - Accounting I I IIIII�I VIII III VIII IIII 46 IE � C&tT 4 4 a" October 10, 2007 Roy A. Asaro, Asaro Builders Inc. 42-220 Green Way, Suite H Palm Desert, CA 92211 . SUBJECT: APPROVAL OF MODIFICATION BY APPLICANT MBA 07-006 Dear Mr. Asaro, This letter is to inform you of our approval of Modification by Applicant MBA 07-006, a request to modify Village Use Permit 00-004 by constructing two building additions totaling 542 square feet to the existing Arnold Palmer's Restaurant. This approval is based upon the finding that proposed additions are minor and will not result in any changed conditions to the existing Village Use Permit. This approval will be forwarded to the Building and Safety that they may proceed with the processing of your application. If you have any questions, please contact me 7125. Sincerely, es Jo on, Planning Director C: File P:\Andy's\Modifications by Applicant\MBA 07-006\MBA 07-006 Approval Letter.doc Department so building permit at (760) 777- P.O. Box 1504 • LA QuINTA, CALIFORNIA 92247-1504 78-495 CAL.LE TAMPICO • LA QUINTA, CALIFORNIA 92253 (760) 777-7000 -FAX (760) .777-7101 CSR—WICATE OF COMPLIANCE Part 1 of 2 ENV -1 PROJECT NAME PALMER'S RESTAURANT 1111111111111 Jill 47 IE DATE 04/15/03 PROJECT ADDRESS CLIMATE ZONE: 15 BUILDING TYPE ® NONRESIDENTIAL 78-164 AVENUE 52 LA QUINTA, CA HOTEL/MOTEL GUEST ROOM PHASE OF CONSTRUCTION ❑ NEW CONSTRUCTION ADDITION PRINCIPAL DESIGNER — ENVELOPE ALTERATION TELEPHONE METHOD OF ENVELOPE COMPONENT COMPLIANCE Building Permit # ADKVAS GROUP 949 240 6591 DOCUMENTATION AUTHOR RASHID PARSI, P.E. TELEPHONE Checked by Date 949 487 0440 Enforcement Agency Use GENERAL INFORMATION DATE OF PLANS BUILDING CONDITIONED FLOOR AREA 200 S.F. CLIMATE ZONE: 15 BUILDING TYPE ® NONRESIDENTIAL HIGH RISE RESIDENTIAL HOTEL/MOTEL GUEST ROOM PHASE OF CONSTRUCTION ❑ NEW CONSTRUCTION ADDITION ❑ ALTERATION ❑ UNCOND11ION (File Affidavit) METHOD OF ENVELOPE COMPONENT COMPLIANCE ❑ OVERALL ENVELOPE ❑ PERFORMANCE This Certificate of Compliance lists the building features and performance specifications needed to comply with Title 24, Ports 1 and 6 of the California Code of Regulations. This certificate applies only to builing envelope requirements. The documentation preporer hereby certifies that the documen is accurate and complete. DOCUMENTATION AUTHOR SIGNATUREVJL` DATE 04/ 15/03 RASHID Rel__ P. E_ The Principal Envelope Designer hereby certifies that the propesed building 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. I Please check one: XI 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 a civil engineer, mechanical engineer, or architect. ❑ 1 affirm that I am eligible under the exemption to Division 3 of Business and Professions Code by Section 5537.2 of the Business and Professions Code to sign this document as the person responsible for its preparation; and that I am a licensed contractor preparing documents for work that I have ctr_acted to perform. ❑� I affirm that I am eligible under the exemption o i ess Code by Section of the 00F LA #¢'�1 %—j a the person responsible for its preparation; and for the following reason: vcV��V �/`► PRINCIPAL ENVELOPE DESIGNER — NAME SIGNA RE . `` LIC. NO. DATE FOR COVSTRUCTIPN 104/1 IVIG°\ nMDD ATORT MEASURES I DATE Indicate location on plans of Note Block for Mandatory Measures IIT T RUOT IONS TO A M0.2 For detailed instructions on the use of this and all Energy Efficiency Standards compliance forms, please refer to the Nonresidential manual published by the California Energy Commission. ENV -1: Required on plans for all submittals. Part 2 may be incorporated in schedules on plans. ENV -2: Used for all submittals; choose appropriate version depending on method of envelope compliance. ENV -3: Optional. Use if default U—values are not used. Choose appropriate version for assembly U—value to be calculated. Nonresidential Compliance Form January 2001 CERTIFICATE OF COMPLIANCE Part 2of 2 ENV -1 PRO' LIVIER'S RESTAURANT TATE 04/15/03 OPAQUE SURFACES Surface Type Construction Type (e.g., Block Wood, Metal) Area U—Factor Azimuth Tilt Solar Gain VN Form 3 Reference Location/Ckomments (e.g.. Suspended Ceiling, Demising, etc.) NOTES TO FIELD — For Building Dept. Use Only WIND. 42 .49 315 .36 DBL/TNT ❑ ❑ [x ❑ IX W ❑ El El X ❑ ❑❑ 1:1 El Lenght Height WALL. WOOD 72 .062 135 90 W-1 EXT. WALL WALL. WOOD 330 .062 225 190 W-1 EXT. WALL WALL, WOOD 192 .062 315 190 W-1 EXT. WALL RF. IWOOD 200 .037 - 0 _ 1 CEILING ROOF FENESTRATION SURFACES Site Assembled Glazing ❑ Check box if Building is >1000,000 s.f. of CFA and > 10,000 s.f. of vertical glazing then NFRC Certification is required. Follow NERC 100—SB Procedures and submit NFRC Label Certificate Form. Fenestration Type Area U—Factor Azimuth SHGC Glazing Type Location/Comments NOTES TO FIELD — for Bldg. Dept. Use Only WIND. 42 .49 315 .36 DBL/TNT EXTERIOR Lenght Height NO CRE IT FOR SHADING TAKI.N EXTERIOR SHADING Fenestration Exterior shade Type SHGC Window Overhand Left Fin Right Fin Height Width Length Height LExt. RExt. Dist. Length Height Dist. Lenght Height NO CRE IT FOR SHADING TAKI.N NOTE TO FIELD — For Building Department Use Only Nonresidential Compliance Form January 2001 CERTIFICATE OF COMPLIANCE Part 1 of 2 MECH-1 PROJECT NAME PALMER'S RESTAURANT 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 the building mechanical requirements. DATE 04/15 PROJECT ADDRESS 78-164 AVENUE 52 LA QUINTA, CA BUILDING CONDITIONED FLOOR AREA 200 S.F. BUILDING TYPE PRINCIPAL DESIGNER — MECHANICAL RASHID PARSI, P.E. TELEPHONE (949) 487 0440 Building Permit # DOCUMENTATION AUTHOR RASHID PARSI, P.E. TELEPHONE (949) 487 0440 Checked by/Date Enforcement Agency Use GENERAL INFORMATION 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 the building mechanical requirements. The documentation preparer hereby certifies that the documentationR' accurate and complete. DATE OF PLANS 04/15/03 SIGNATURE n BUILDING CONDITIONED FLOOR AREA 200 S.F. BUILDING TYPE a NONRESIDENTIAL HIGH RISE RESIDENTIAL El HOTEL/MOTEL GUEST ROOM PHASE OF CONSTRUCTION NEW CONSTRUCTION ® ADDITION ALTERATION METHOD OF MECHANICAL COMPLIANCE ® PRESCRIPTIVE El PERFORMANCE El I affirm that I am eligible under the exemption to Division 3 of the Business and Professions Code to sign this document PROOF OF ENVELOPE COMPLIANCE El PREVIOUS ENVELOPE PERMIT 0 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 the building mechanical requirements. The documentation preparer hereby certifies that the documentationR' accurate and complete. DOCUMENTATION AUTHOR SIGNATURE n DATE 04/15/03 SHID PA I The Principal Mechanical Designer hereby certifies that the proposed building 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 sections 110 through 115, 120 through 124, 140 through 142, 144 and 145. 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 a civil engineer, mechanical engineer, or architect. F] 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. El I 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 section 5537, 5537, and 6737.1. PRINCIPAL MECHANICAL DESIGNER — NAME SIGNATURELIC. I &_': k/ NO. DATE RASHID PARSI, P.E. M25481 Q4/15/03 MECHANICAL MANDATORY MEASURES Indicate location on plans of Note Block for Mandatory Measures SHEET M 0.2 INSTRUCTIONS TO APPLICANT For detailed instructions on the use of this and all Energy Efficiency Standards compliance forms, please refer to the Nonresidential Manual published by the California Energy Commission. MECH-1: Required on plans for all submittals. Parts 2 & 3 may be incorporated in schedules on plans. MECH-2: Required for all submittals; choose appropriate version depending on method of mechanical compliance. MECH-3: Required for all submittals, but form does not have to be completedd if location of mechanical equipment schedule is indicated on the form per Section 4.3.3. MECH-4: Required for all submittals unless required outdoor ventilation rates and airflows are shown on plans per Section 4.3.4. Nonresidential Compliance Form January 2001 CERTIFICATE OF COMPLIANCE Part 2 of 2 MECH-1 PROJECT NAME DATE 04/15/0-1 PALMER'S RESTAURANT SYSTEM FEATURES SYSTEM NAME TIME CONTROL SETBACK CONTROL ISOLATION ZONES HEAT PUMP THERMOSTAT? ELECTRIC HEAT? FAN CONTROL VAV MINIMUM POSITION CONTROL? SIMULTANEOUS HEAT/COOL? HEAT AND COOL SUPPLY RESET? VENTILATION OUTDOOR DAMPER CONTROL? ECONOMIZER TYPE DESIGN O.A., CFM (MECH-3, COL. H) HEATING EQUIPMENT TYPE HIGH EFFICIENCY? IF YES ENTER EFF. MAKE AND MODEL NUMBERCAR R I E R COOLING EQUIP. TYPE HIGH EFFICIENCY? IF YES ENTER EFF. MAKE AND MODEL NUMBERCARRIER PIPE INSULATION REQUIRED? PIPE TYPE (SUPPLY, RETURN, ETC.) HEATING DUCT LOCATION R—VALUE COOLING DUCT LOCATION R—VALUE VERIFY SEALED DUCT IN CEILING/ROOF SPACE I %FAN FLOW ACU -2 11 ."7 B N N N N/A N/A N N/A B A A 480 CFM G.FURN. NO Y 48GXN048 A.C.UNIT NO Y SAME NO N .A. ATTIC 4.2 ATTIC/4.2 N.A. NOTE TO FIELD CODE TABLES: Enter code from table below into columns above. Y:Yes N:No HEAT PUMP THERMOSTAT? Y ELECTRIC HEAT? Y VAV MINIMUM POSITION CONTROL? Y SIMULTANEOUS HEAT COOL? Y HEAT AND COOL SUPPLY RESET? Y HIGH EFFICIENCY? Y PIPE INSULATION REQUIRED? Y PIPE/DUCT INSULATION PROTECTED? Y SEALED DUCTS IN CEIL. RF. SPACE? Y SIMULTANEOUS HEAT COOL? Y TIME CONTROL SETBACK CTRL. ISOLATION ZONES FAN CONTROL S: Prog. Switch H: Heating Enter number of I: Inlet Vanes 0: Occupancy Sensor C: Cooling Isolation Zones. P: Variable Pitch M: Manual Timer B: Both N: Not Required V: VFD D: Demand Control 0: Other C: Curve VENTILATION OUTDOOR DAMPER ECONOMIZER O.A. CFM 8: Air Balance A: Auto A: Air Enter Outdoor Air C: Outside Air Cert. G: Gravity W: Water CFM. M: Outside Air Measure N: Not Required Note: This shall be no D: Demand Control less than Column G on N: Natural MECH-3. Nonresidential Compliance Form January 2001 1 -'--'` -- uJ U) SKETCII OF ASSEMBLY ---'--------'-- PESCRIPTION ODI'8IDE SURFACE AIR -FILM � 1 -F|i�� -,'_------- __ 4 11 | 5 �2 |e,0/ i- |-----[ L -----------'- |, `------ | INSIDE SURFACE AIB FILM /-- SUBTOTAL - '----------''-'---------------- ' [--'�-'-----| (-- | | ' 03) | �� | �� U +|. ' ' ' ' / 1 | 1/nn |-_- `-- --�-------------'--------'-------- - - -------------'------ wonresidem DA ASSEMBLY NAME ASSEMBLY TYPE Rvo, (check one) Well ' Coiling /Roof FRAMING MATERIAL FnxM/w s �m/� |__7_12-Y!:�-4�_^_ | % FRAMING PERCENTAGE `s%ne^v.o.Well) 1ov^(z4^o.c.Well) . . 11ero�.plovoCoW �~8'24^�.v.Flov l [] HEAT CAPACITY (Op(lonpl) WALL SPECIFIC Hc WEIGHT HEAT (A X B) | �- �- ---� ��-- - - | January 199' rIAMf R -VALUE IDATE CAVITY WOOD 1 - ALUE i FRAME YITc) OUTSIUL SURFACE'' AI1t FILM r 11�il1�:l 1 : • • -^ - -- -- -- --- — - -- ASSEMBLY NAME �TJ e -- INSIDE SURFACE Alit FILM INSIDE ASSEMBLY TYPE Floor (thick olle) --- Wail IIJ _ — UJ r ^- --- Ceiling 111001' iTJFRAMING ' MATERIAL �r`✓QGIO UZ - -_..L FRAMING SIZE Fr %:_---- - - -~- - - — FRAMINGPERCENIAGE ( 1 19" Wall) o.c. L_9 12% (14' ox. Wall) 10%.(18' o.c.Floor/Coil) SKETCH OF ASSEMBLY 7% (24".o.c. Flour/Coil.) 11— 111:,11-ITl1zm.111• • A111 -91M SU(3IUTAL Ile NI IIEAT CAPACITY (OPT) WALL SPECIFIC WEIGIIT IIEAT TOTAL TIC R -VALUE CAVITY WOOD 1 - ALUE i FRAME — -- ---------- - - - -- --- — -- - DESCRIPTION YITc) OUTSIUL SURFACE'' AI1t FILM J1-VAWE , I "j g �TJ e -- INSIDE SURFACE Alit FILM INSIDE SU(3IUTAL Ile NI IIEAT CAPACITY (OPT) WALL SPECIFIC WEIGIIT IIEAT TOTAL TIC I llc 1 - (I r% 11 Wj 1 ! Itl Fr% 1.100 TOTAL TIC r tic (AXU) O&Z ASSEMULY UNALUE IJonrosGlvn6al Coml�fance Foran - January IS I llc 1 - (I r% 11 Wj 1 ! Itl Fr% 1.100 r tic (AXU) O&Z ASSEMULY UNALUE IJonrosGlvn6al Coml�fance Foran - January IS ,ted, .odel number nomenclature G;�o,.'o 48GS 024 040 s 3* - AD y Model No: ' ! 48GS — Single Package Gas ' " ° Options _.Heating/Electric Cooling (None) — Wire Grille AD — Louvered Grille Nominal Coolin§ Capacity BT — Wire Grille and Vinyl -Coated 018 —1-1 /2 Tons Condenser Coil Fin 024 — 2 Tons XT — Louvered Grille and Vinyl - 030 — 2-1/2 Tons Coated Condenser Coil Fin 036 — 3 Tons CC — Wire Grille, AL Evaporator 042 — 3-1/2 Tons and CU/CU Condenser Coil 048 = 4 Tons CU — Wire Grille, CU/CU Evaporator 060 _ 5 Tons and Condenser Coils AC — Louvered Grille, AL Heat Level (Btuh) Evaporator and CU/CU 040-40,000 Condenser Coil 060-60,000 AU — Louvered Grille, CU/CU Evaporator and Condenser 090-90,000 Coil 1 115 — 115,000 130 — 130,000 Packaging 3 — 208/230-1-60" Series 5 — 208/230-3-60 6-460-3-60 LEGEND AL — Aluminum CU — Copper 'The 048 unit is 208-230/1/60. Minimum voltage of 197 at maximum load conditions. RI* capacities COOLING CAPACITIES.AND EFFICIENCIES UNIT 48GS NOMINAL TONS STANDARD CFM NET COOLING SOUND RATINGS•" CAPACITIES (Btuh) SEERt 018040 11/2 600 024040 (Bels) 18,000 10.0 7.5 024060 2 800 24,600 10.0 7.5 030040 030060 21/2 1000 28,800 10.0 7.5 036060 036090. 3 1200 34,400 10.0 8.0 042060 042090 31/2 1400 42,000 10.0 8.0 048090 0481154 1600 048130 46,500 10.0 8.0 060090 0601155 5 200b 60,000 10.0 8.0 LEGEND Bels — Sound Levels (1 bel = 10 decibels) db . — Dry Bulb NOTES: I. Ratings are net values, reflecting the effects of circulating fan heat. SEER — Seasonal Energy Efficiency Ratio wb — Wet Bulb Ratings are based on: Cooling Standard: 80 F db, 67 F wb indoor entering 'Air Conditioning & Refrigeration Institute. -air tem- perature and 95 F db outdoor entering -air temperature. 2• Before purchasing this appliance, read important tRated in accordance with U.S. Government DOE (Department of energy cost and efficiency information available from your retailer. Energy) test procedures and/or ARI Standard 210-89. "Tested in accordance with ARI Standard 270-89 (not listed in ARI). r� 1245 3 r NET COOLING CAPACITIES (cont) 48GS036 F) Evaporator Air - CFM Tem Outdoor Air 1050 1200 1350 Entering Evaporator Air - Ewb (F) Condenser t 62 67 72 62 67. 72 -62 67 72 48GSO42 Temp(F) Evaporator Air - CFM Outdoor ! Ir 1225 1400 1575 Entering Evaporator Air ' Ewb (F) Condenser 62 67 72 62 1 67 1. 72 62 67 72. TC 31.8 35.3 38.7 •.32.7 ' C.. 36.1 39.5 33.4 36.8 40.1 85 SHC '29.1 24.2 19.0 31.4 126.0 20.0 33.4 27.6 21.0 kW 3.48 :' 3.57 , 3.66 ' 3.50 ' 3.59 3.68 3.52 3.61 3.70 TC 30.2 •33.6 37.0 ;' 31.0 .34.4 37.8 32.0 35.1 38.3 95 SHC 28.4 ":'23.6 18.5 30.6.. .25.4 19.5 32.0 27.1 20.4 kW 3.66 : 3.75 3.85 ; 3.69 :. 3.78 3.87 3.71 3.80 3.89 TC 28.5 31.8 '. 35.3 29.4 ; 32.6 36.0 30.5 33.2 36.5 105 SHC 27.6 23.0 ` 17.9 29.4 ' 24.8 19.0 30.5 26.5 19.9 kW 3.86 3.95 4.05. 3.88 3.97 ' 4.08 3.91 3.99 4.10 TC ' 26.6 ' ..30.0 1 33.4 27.9 ' 30.7 ' •'34.1 `29.1 31.2 34.6 115 1 SHC 26.6 22.3 ' 17.3 ` 27.9 24.1 18.4 29.1 25.9 19.4 kW 4.01 4.15 4.26 ' 4.08 + 4.17 4.29 4.13 4.19 4.31 48GSO42 Temp(F) Evaporator Air - CFM Outdoor ! Ir 1225 1400 1575 Entering Evaporator Air ' Ewb (F) Condenser 62 67 72 62 1 67 1. 72 62 67 72. 48GSO48 Temp (FI Evaporator Air - CFM Outdoor Air 1400 r 1600 1800 Entering Evaporator Air - Ewb (F) Condenser 62 67 72 62 1 67 1 72 62 67 72 TC 38.9 43.6 48.3 40.2 44.8 49.4 41.4 45.8 50.3 85 SHC 35.6 29.7 23.5 38.8 32.2 25.0 • 41.4 34.5 26.4 kW 4.08 4.17 4.27 4.10 4.20 4.29 4.13 4.22 4.31 TC 36.5 41.3 46.1 37.8 ' '42.5' 47.1' 39.4 43.4 47.9 95 SHC 34.5 28.9 22.8 37.6 31.4 24.3 39.4 33.7 25.7 kW 4.34 4.44 4.55 4.37 4.47 4.58 4.40 4.50 4.60 TC 33.8 38.7 43.7 35.6 39.8 44.7 37.3 40.6 45.5 105 SHC 33.1 27.9 22.0 35.6 30:4,;; ;;: 23.5• 37.3 32.8 25.0 kW 4.53 4.72 1 4.83 4.63 4.74 4.86 4.69 4.77 4.88 TC 31.3 35.7 40.9 33.3 36.8 41.9 34.9 37.6 42.6 115 SHC 1 31.3 26.6 21.1 33.3 29.3 22.7 34.9 31.7 24.2 kW 4.73 4.93 5.11 4.82 4.99 5.13 4.91 5.03 5.16 48GSO48 Temp (FI Evaporator Air - CFM Outdoor Air 1400 r 1600 1800 Entering Evaporator Air - Ewb (F) Condenser 62 67 72 62 1 67 1 72 62 67 72 13 1255 TC 42.9 48.0 53.0 44.2 49.2 54.2 45.5 50.2 55.1 85 SHC 39.4 32.9 25.9 42.1 35.5 27.5 45.5 37.9 29.0 kW 4.68 4.77 4.87- 4.70 4.80 4.90 4.72 4.82 4.93 TC 40.9 45.8 50.9 42.1 47.0 52.0 43.6 47.9 52.9 95 SHC 38.6 32.1 25.2 41.6 34.7 26.8 43.6 37.2 28.3 kW 5.10 5.20 5.29 5.13 5.22 5.32 5.15 5.24 5.35 TC 38.5 43.4 48.5 39.4 44.5 49.6 41.7 1 45.4 50.4 105 SHC 37.2 31.2 24.4 41.5 33.7- 26.0 41.7 36.3 27.5 kW 5.50 5.66 5.75 5.57 5.68 5.79 5.62 5.69 5.81 TC 36.0 40.9 45.9 37.9 41.8 46.9 39.8 42.6 47.6 115 SHC 36.0 30.3 23.5 37.9 1 32.8 1 25.2 39.8 35.3 26.7 kW 1 5.93 1 6.15 6.25 6.02 6.16 6.28 6.12 6.18 6.30 13 1255 ERTIFICATE OF COMPLIANCE Part 1 of 2 ENV -1 PROJECT NAME DATE PALMER'S RESTAURANT DATE OF PLANS PROJECT ADDRESS 78-164 AVENUE 52 LA QUINTA, CA BUILDING TYPE X❑ NONRESIDENTIAL PRINCIPAL DESIGNER — ENVELOPE TELEPHONE Building Permit ADKVAS GROUP 949 240 6591 ALTERATION DOCUMENTATION AUTHOR TELEPHONE Checked by Date R.F. CRAM M.E. 949 6610772 Enforcement Agency Use GENERAL INFORMATION DATE OF PLANS BUILDING CONDITIONED FLOOR AREA 6946 S.F. CLIMATE ZONE: 1 15 BUILDING TYPE X❑ NONRESIDENTIAL HIGH RISE RESIDENTIAL ❑ HOTEL/MOTEL GUEST ROOM PHASE OF CONSTRUCTION a NEW CONSTRUCTION ADDITION ALTERATION 0 UNCONDITION (File Affidavit) METHOD ETHO OF ENVELOPE COMPONENT COMP OVERALL ENVELOPE PERFORMANCE 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 builing envelope requirements. The documentation preparer hereby certifies that the docum tion is accurate tete. DOCUMENTATION AUTHOR SIGNAT DATE R.F. CRAM M.E. I ra The Principal Envelope Designer hereby certifies Ihat Ae propesed building 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 a civil engineer, mechanical engineer, or architect. I affirm that I am eligible under the exemption to Division 3 of Business and Professions Code by Section 5537.2 of the Business and Professions Code to sign this document as the person responsible for its preparation; and that I am a licensed contractor preparing documents for work that I have contracted to perform. I affirm that I am eligible under the exemption to Division 3 of Business and Professions Code by Section of the Code to sign this document as the person responsible for its preparation; and for the following reason: CIPAL ENVELOPE aJ.Pi4 SIGNA 1111MVELOPE MANDATORY MEASURES I A D 0 r] n1 / a— w-. Indicate location on plans of Note Block for Mandatory OR CO INSTRUCTIONS TO APPUCANT DArE lo ►-7 a„ IU .2 For detailed instructions on the use of this and all Energy Efficiency Standards compliance forms please refer to the Nonresidential manual published by the California Energy Commission. ENV -1: Required on plans for all submittals. Part 2 may be incorporated in schedules on plans. ENV -2: Used for all submittals; choose appropriate version depending on method of envelope compliance. ENV -3: Optional. Use if default U—values are not used. Choose appropriate version for assembly U—value to be calculated. Nonresidential Compliance Form January 2001 III II IIIIII IIIIII IIII 48�IGe s-a'� IE CERTIFICATE OF COMPLIA-7ff Part 2of 2 ENV -1 PRC"KI—MGR'S RESTAURANT I DATE 7/19/02 OPAQUE SURFACES Surface Type Construction Type (e.g., Block Wood. Metal) Area U—Factor Azimuth Tilt Solar Gain VN Form 3 Reference Location/Ckomments (e.g.. Suspended Ceiling, Demising, etc.) NOTES TO FIELD — For Building Dept. Use Only WAL WOOD 1441 .062 45' 90' N [X ❑ IX ❑ 50 ❑ El DO ❑ 0 C 11 C1 El 1:1 W-1 EXT. WALL 304 WAL WOOD 1342 .062 135 90 W-1 EXT. WALL .49 WAL WOOD 1261 .062 225 90 W-1 EXT. WALL 315 WAL WOOD 1462 .062 315 90 W-1 EXT. WALL RF. WOOD 6424 .037 N 0 CEILING ROOF FENESTRATION SURFACES Site Assembled Glazing ❑ Check box If Building is >1000,000 s.f. of CFA and > 10,000 s.f. of vertical glazing then NFRC Certification Is required. Follow NFRC 100—SB Procedures and submit NFRC Label Certificate Form. Fenestration Type Area Overhand Azimuth SHGC Glazing Type Location Comments NOTES TO FIELD — for Bldg. Dept. Use Only WIND. 158 —U—Factor .49 45' .36 DBL TNT EXTERIOR I Height WIND. 304 .49 135 .36 DBL TNT EXTERIOR TAK N WIND. 156 .49 225 .36 DBL TNT EXTERIOR WIND. 230 .49 315 .36 DBL TNT EXTERIOR EXTERIOR SHADING Fenestration Exterior shade Type SHGC Window Overhand Left Fin Right Fin Height Width Length Height LExt. Md. Dist. Length Height Dist. Lenght I Height NO CREDIT FOR SHADING TAK N NOTE TO FIELD — For Building Department Use Only Nonresidential Compliance Form January 2001 ENVELOPE COMPONENT METHOD ENV -2 PROJECT NAME DATE �ry'Z, Panner's Restaurant 6.4Z WINDOW AREA CALCULATION and SKYLIGHT AREA CALCULATION GROSS WALL AREA (GWA) //�2N c� �/ % DISPLAY PERI - METER (DP) GWA x 0.40 12 CJ 2 DP x 6 GREATER OF ATRIUM HEIGHT 1 l FT OPAQUE SURFACES ASSEMBLY NAME (eg. Wall -1, Floor -1) TYPE (eg. Roof, Wall, Floor HEAT CAPACITY IF<55FT IF>55FT GREATER OF 00 WINDOW NAME ORIENTATION (e.g., Window -1, Window -2 N I E I S JW 0,❑❑ ❑ ❑ 0"UrD, U -FACTOR PROP. ALLOW. PROPOSED RSHG 1 # OF PANES SHGC PROP. RSHG ALLOWED RSHG If the PROPOSED HN I OHF 2 WINDOW AREA is MAX. ALLOWABLE X 51 greater than the ����'� WINDOW AREA 0.05 MAXIMUM ALLOWABLE + GROSS ROOF AREA ALLOWED AREA WINDOW AREA, go PROPOSED to another method. WINDOW AREA If the ACTUAL SKYLIGHT AREA is greater Window Wall Ratio = Pro Proposed Window Area P -10 3 than the ALLOWED SKYLIGHT AREA, go to another method. SKYLIGHTS Divided by Gross Exterior Wall Area SKYLIGHT NAME (e.g. Sky -1, Sky -2) r0 ACTUAL SKY. AREA OPAQUE SURFACES ASSEMBLY NAME (eg. Wall -1, Floor -1) TYPE (eg. Roof, Wall, Floor HEAT CAPACITY VD 00 WINDOW NAME ORIENTATION (e.g., Window -1, Window -2 N I E I S JW 0,❑❑ ❑ ❑ 0"UrD, U -FACTOR PROP. ALLOW. PROPOSED RSHG # OF PANES SHGC PROP. RSHG INSULATION R -VALUE' PROPOSED MINIMUM ALLOWED 2.30 `- " For each assembly type, meet the minimum insulation R -value or the maximum assembly U -factor. ASSEMBLY U -FACTOR' TABLE PROPOSED VALUES? MAXIMUM Y N ALLOWED ❑ ❑ WINDOWS WINDOW NAME ORIENTATION (e.g., Window -1, Window -2 N I E I S JW 0,❑❑ ❑ ❑ 0"UrD, U -FACTOR PROP. ALLOW. PROPOSED RSHG # OF PANES SHGC PROP. RSHG ALLOWED RSHG H V HN I OHF 2 (o 51 Z , 3 -3 SKYLIGHTS SKYLIGHT NAME (e.g. Sky -1, Sky -2) r0 GLAZING # OF U -FACTOR SOLAR HEAT GAIN COEFFICIENT Wilh Curb Wilh No Curb Plastic PANES PROPOSED ALLOWED PROPOSED ALLOWED ❑ ❑ ❑ January 2001 Nonresidential Compliance Form PROJECT NAME W Q 0 ■ bKt I U11 OF ASSEMBLY DESCRIPTION -- -- - OUTSIDE SURFACE AIR FILM ---------- 2 - -- reL . �T ...... 3 Ila 11 4 5 6 rsv, 7 INSIDE SURFACE AIR FILM I /Rc i—(r,%/loo) DA ASSEMBLY NAME CAVITY R-YALUE -�Tc) WOOD FRAME R -VALUE — 13 ASSEMBLY TYPE 3 Floor (chcck one) Well Coiling / Roof FRAMING MATERIAL (a c: FRAMING SIZE Fr %: FRAMING PERCENTAGE 15% (16" o.c. Wall) 12% (24" o.c. Wall) 101% (16" o.c.Floot/Coil) )(24".o.c. Floor'/Coil.) R -VALUE CAVITY R-YALUE -�Tc) WOOD FRAME R -VALUE — 13 3 co cp r (a c: SUBTOTAL C �j I_��__ ��� Re fit [—A] HEAT CAPACITY (Optlonpl) WALL SPECIFIC HC WEIGHT HEAT (A X B) (lbs/so (Btu/F-lb) (Btu/F-sQ TOTAL HC I/Rf Fr% / 100. ASSEMBLY U -VALUE . ..... ........... ........ ------- Nonresidential Compliance Foirn - -------- January 1991 ' ' 'c IW�E, -__-- ' D TE -----�. __-_ 11 M ' ' \ --- ASSEMBLY NAME ASSEMBLY TYPE F|vn, (dockoxo) vvuU \1J ' � co0fig /Roof' _- FnAmxxnMxIsnmL -- -- FRAMING SIZE -- - � nnvmmmpsnusm/xms 1--evv"m (24* o.c. Wall) . 1o.%.(in' p.v.rov'/c"n/ |\ mKETC11oFASSEMBLY 7Yt(z4^v.,�nvvmoo) | \\ ' _| [ --------'\ | +/.\�� || xi__ ! /- . \ \ /nv 1 -yr,%/ fool -- ` WEIGI IT - - It -VA BE CAVII'Y WOOD - -------'-----'--------- -�ALUE FRAME DESCHIPTIOU A (11c) VAI.UE � -- ----'-------'-' |- | INSIDE SURFACE AIR FILM || � moo/nl:L \Zo. 57 � fie � x( [ --------'\ | +/.\�� || xi__ ! /- . \ \ /nv 1 -yr,%/ fool -- ` WEIGI IT HEAT (A X B) � 10TAL 1\C ` ` . �. | |tr .-----__-__-,] F,%/.1w0 � -| | ------'-- '� � xSoEMuiYU-Vxios ' --'---- mvo oww^m/cm"ymoowFvm, ��----'------'-----'------�---------�---'----- ------ Janusty x CERTIFICATE OF COMPLIANCE Part 1 of 2 MECH-1 PROJECT NAME PALMER'S RESTAURANT DATE 6/5/02 PROJECT.ADDRESS The documentation preparer hereby certifies that the docume5WO is occur to and complete. 78-164 AVENUE 52 LA QUINTA, CA Building Permit PRINCIPAL DESIGNER — MECHANICAL LEPH NE R.F. CRAM M.E. ('9498 661-0772 Checked by/Date Enforcement Agency Use DOCUMENTATION AUTHORLEPH R.F. CRAM M.E. NE 949) 661-0772 GENERAL INFORMATION 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 the building mechanical requirements. The documentation preparer hereby certifies that the docume5WO is occur to and complete. DATE OF PLANS 6/502 R.F. CRAM M.E. BUILDING CONDITIONED FLOOR AREA 10,482 S.F. calculations submitted with this permit application. The proposed building has been designed to meet the mechanical BUILDING TYPE X❑ NONRESIDENTIAL HIGH RISE RESIDENTIAL HOTEL/MOTEL GUEST ROOM PHASE OF CONSTRUCTION © NEW CONSTRUCTION El I affirm that I am eligible under the exemption to Division 3 of the Business and Professions Code to sign this document ADDITION 5537, and 6737.1. ALTERATION METHOD OF MECHANICAL FXJ COMPLIANCE PRESCRIPTIVE PERFORMANCE PROOF OF ENVELOPE COMPLIANCE ❑ PREVIOUS ENVELOPE PERMIT XX 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 the building mechanical requirements. The documentation preparer hereby certifies that the docume5WO is occur to and complete. DOCUMENTATION AUTHOR SIGNATU DAT&4t 2 R.F. CRAM M.E. The Principal Mechanical Designer hereby certifies that the4roposed building 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 sections 110 through 115, 120 through 124, 140 through 142, 144 and 145. Please check one: 0 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 a civil engineer, mechanical engineer, or architect. El 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. El I 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 section 5537, 5537, and 6737.1. PRINCIPAL MECHANICAL DESIGNER — NAME SIGNAT LIC. N0. DATE RICHARD F. CRAM MECHANICAL MANDATORY MEASURES Indicate location on plans of Note Block for Mandatory Measures M —1 INSTRUCTIONS TO APPLICANT For detailed instructions on the use of this and all Energy Efficiency Standards compliance forms, please refer to the Nonresidential Manual published by the California Energy Commission. MECH-1: Required on plans for all submittals. Parts 2 do 3 may be incorporated in schedules on plans. MECH-2: Required for all submittals; choose appropriate version depending on method of mechanical compliance. MECH-3: Required for all submittals, but form does not have to be completedd if location of mechanical equipment schedule is indicated on the form per Section 4.3.3. MECH-4: Required for all submittals unless required outdoor ventilation rates and airflows are shown on plans per Section 4.3.4. Nonresidential Compliance Form January 2001 CERTIFICATE OF COMPLIANCE Part 2 of 2 MECH-1 PROJECT ' PALMER'S RESTAURANT DATE 6/5 02 SYSTEM FEATURES SYSTEM NAME TIME CONTROL SETBACK CONTROL ISOLATION ZONES HEAT PUMP THERMOSTAT? ELECTRIC HEAT? FAN CONTROL VAV MINIMUM POSITION CONTROL? SIMULTANEOUS HEAT/COOL? HEAT AND COOL SUPPLY RESET? VENTILATION OUTDOOR DAMPER CONTROL? ECONOMIZER TYPE DESIGN O.A., CFM (MECH-3, COL. H) HEATING EQUIPMENT TYPE HIGH EFFICIENCY? IF YES ENTER EFF. MAKE AND MODEL NUMBERCAR R I ER COOLING EQUIP. TYPE HIGH EFFICIENCY? IF YES ENTER EFF. MAKE AND MODEL NUMBERCAR R I ER PIPE INSULATION REQUIRED? PIPE TYPE (SUPPLY, RETURN, ETC.) HEATING DUCT LOCATION R—VALUE COOLING DUCT LOCATION R—VALUE VERIFY SEALED DUCT IN CEILING/ROOF SPACE I %FAN FLOW MECHANICAL SYSTEMS ACU -1 ACU -2 I I ACU -3 S B N N N N/A N/A N N/A B A A 410 CFM G.FURN. NO Y 48GXN048 A.C.UNIT NO Y— SAME NO N.A. ATTIC 4.2 ATTIC/4.2 N.A. S B N N N N/A N/A N N/A B A A 150 CFM G.FURN. 0 Y 48GXN024 A.C.UNIT NO Y— SAME NO N.A. ATTIC 4.2 ATTIC/4.2 N.A. S B N N N N/A N/A N N/A B A A 510 CFM G.FURN. 0 Y 48TJ007 A.C.UNIT NO Y— SAME NO N.A: ATTIC 4.2 ATTIC 4.2 N.A. CODE TABLES: Enter code from table below into columns above. Y.Ye� ss NNn HEAT PUMP THERMOSTAT? Y ELECTRIC HEAT? Y VAV MINIMUM POSITION CONTROL? Y SIMULTANEOUS HEAT COOL? Y HEAT AND COOL SUPPLY RESET? Y HIGH EFFICIENCY? Y PIPE INSULATION REQUIRED? Y PIPE DUCT INSULATION PROTECTED? Y SEALED DUCTS IN CEIL RF. SPACE? Y SIMULTANEOUS HEAT COOL? Y— NOTE TO FIELD CONTROL SETBACK CTRL. ISOLATION ZONES FAN CONTROL S: S: Prog. Switch H: Heating Enter number of I: Inlet Vanes 0: Occupancy Sensor C: Cooling Isolation Zones. P: Variable Pitch M: Manual Timer B: Both N: Not Required V: VFD D: Demand Control 0: Other C: Curve VENTILATION OUTDOOR DAMPER ECONOMIZER O.A. CFM B: Air Balance A: Auto A: Air Enter Outdoor Air C: Outside Air Cert. G: Gravity W: Water CFM. M: Outside Air Measure N: Not Required Note: This shall be no D: Demand Control less than Column G on N: Natural MECH-3. I Nonresidential Compllonce Form January 2001 1 CERTIFICATE OF COMPLIANCE Part 2 of 2 . MECH-1 PROJECT RESTAURANT DATE 6/5/02 LSYSTEM FEATURES SYSTEM NAME TIME CONTROL SETBACK CONTROL ISOLATION ZONES HEAT PUMP THERMOSTAT? ELECTRIC HEAT? FAN CONTROL VAV MINIMUM POSITION CONTROL? SIMULTANEOUS HEAT/COOL? HEAT AND COOL SUPPLY RESET? VENTILATION OUTDOOR DAMPER CONTROL? ECONOMIZER TYPE DESIGN OA., CFM (MECH-3, COL H) HEATING EQUIPMENT TYPE HIGH EFFICIENCY? IF YES ENTER EFF. MAKE AND MODEL NUMBERCAR R I ER COOLING EQUIP. TYPE HIGH EFFICIENCY? IF YES ENTER EFF. MAKE AND MODEL NUMBERCARRIER PIPE INSULATION REQUIRED? PIPE TYPE (SUPPLY, RETURN, ETC.) HEATING DUCT LOCATION R—VALUE COOLING DUCT LOCATION R—VALUE VERIFY SEALED DUCT IN CEILING/ROOF SPACE XFAN FLOW MECHANICAL SYSTEMS ACU -4 ACU -5 ACU -6 S B N N N N/A N/A N N/A B A A 360 CFM G.FURN. NO Y 48GXN048 A.C.UNIT NO Y SAME NO N.A. ATTIC 4.2 ATTIC 4.2 N.A. S B N N N N/A N/A N N/A B A A 600 CFM G.FURN. 0 Y 48TJO07 A.C.UNIT NO Y SAME NO N.A. ATTIC 4.2 - ATTIC 4.2 N.A. S - B N N N N/A N/A N N/A B A A 300 CFM G.FURN. 0 Y 48GXN048 A.C.UNIT NO Y SAME NO N.A. ATTIC 4.2 ATTIC 4.2 N.A. NOTE TO FIELD CODE TABLES: Enter code from table below into columns above. Y•Ya�N� TIME CONTROL SETBACK CTRL ISOLATION ZONES FAN CONTROL HEAT PUMP THERMOSTAT? Y ELECTRIC HEAT? Y VAV MINIMUM POSITION CONTROL? Y SIMULTANEOUS HEAT COOL? Y HEAT AND COOL SUPPLY RESET? Y HIGH EFFICIENCY? Y PIPE INSULATION REQUIRED? Y PIPE DUCT INSULATION PROTECTED? Y SEALED DUCTS IN CEIL. RF. SPACE? Y SIMULTANEOUS HEAT COOL? Y VENTILATION OUTDOOR DAMPER ECONOMIZER O.A. CFM S: Prog. Switch H: Heating Enter number of I: Inlet Vanes 0: Occupancy Sensor C: Cooling Isolation Zones. P: Variable Pitch M: Manual Timer B: Both N: Not Required V. VFD D: Demand Control 0: Other C: Curve VENTILATION OUTDOOR DAMPER ECONOMIZER O.A. CFM B: Air Balance A: Auto A: Air Enter Outdoor Air C: Outside Air Cert G: Gravity W: Water CFM. M: Outside Air Measure N: Not Required Note: This shall be no D: Demand Control less than Column G on N: Natural MECH-3. Nonresldentlal Compliance Form January 2001 I CERTIFICATE OF COMPLIANCE Part 2 of 2 MECH-1 PROJECT NAME DATE PALMER'S RESTAURANT 6/5/02 SYSTEM FEATURES SYSTEM. NAME TIME CONTROL SETBACK CONTROL ISOLATION ZONES HEAT PUMP THERMOSTAT? ELECTRIC HEAT? FAN CONTROL VAV MINIMUM POSITION CONTROL? SIMULTANEOUS HEAT/COOL? HEAT AND COOL SUPPLY RESET? VENTILATION OUTDOOR DAMPER CONTROL? ECONOMIZER TYPE DESIGN O.A, CFM (MECH-3, COL. H) HEATING EQUIPMENT TYPE HIGH EFFICIENCY? IF YES ENTER EFF. # MAKE AND MODEL NUMBERCAR R I E R COOLING EQUIP. TYPE HIGH EFFICIENCY? IF YES ENTER EFF. MAKE AND MODEL NUMBERCAR R I E R PIPE INSULATION REQUIRED? PIPE TYPE (SUPPLY, RETURN, ETC.) HEATING DUCT LOCATION R—VALUE COOUNG DUCT LOCATION R—VALUE VERIFY SEALED DUCT IN CEIUNG/ROOF SPACE JiF FLOW MECHANICAL SYSTEMS ACU -7 HP1 /FC1 S B N N N N/A N/A N N/A B A A 300 CFM G.FURN. NO Y 48TJO07 A.C.UNIT NO Y SAME NO N .A. ATTIC 4.2 ATTIC/4.2 N .A. S B N N N N/A N/A N N/A B A A 78 CFM H. PUMP 0 Y 38YCCO24 H. PUMP NO Y SAME NO N .A. ATTIC A.2 ATTIC 4.2 N.A. CODE TABLES: Enter code from table below into columns above. Y-YeN HEAT PUMP THERMOSTAT? Y ELECTRIC HEAT? Y VAV MINIMUM POSITION CONTROL? Y SIMULTANEOUS HEAT COOL? Y HEAT AND COOL SUPPLY RESET? Y HIGH EFFICIENCY? Y PIPE INSULATION REQUIRED? Y PIPE DUCT INSULATION PROTECTED? Y SEALED DUCTS IN CEIL RF. SPACE? Y SIMULTANEOUS HEAT COOL? Y NOTE TO FIELD TIME CONTROL SETBACK CTRL. ISOLATION ZONES FAN CONTROL S: Prog. Switch H: Heating Enter number of I: Inlet Vanes 0: Occupancy Sensor C: Cooling Isolation Zones. P: Variable Pitch M: Manual Timer B: Both N: Not Required V: VFD D: Demand Control 0: Other C: Curve VENTILATION OUTDOOR DAMPER ECONOMIZER O.A. CFM B: Air Balance A: Auto A: Air Enter Outdoor Air C: Outside Air Cert. G: Gravity W: Water CFM. M: Outside Air Measure N: Not Required Note: This shall be no D: Demand Control less than Column G on N: Natural MECH-3. Nonmaidential Compliance Form January 2001 MECHANICAL EQUIPMENT SUMMARY (Part 1 of 2)' MECM-2 PROJECT NAME DATE P-almer's Restaurant 6/5/02 (CHILLER AND TOWER SUMMARY PUMPS Equipment Name Equipment Type Qty- Eff i- ciency Tons Total Qty GPM BHP . Motor Eff. Drive Eff.. Pump Control �l UHis BHP Motor Eff. Drive Eff. DHW I BOILER SUMMARY CENTRAL SYSTEM RATINGS System Name CENTRAL Energy Factor or Recovery Efficiency Standby Loss or Pilot TANK INSUL. System Name System Type Distribution Type Qty. Rated Input Vol. Gals. Ext. R -Val Drive Eff. UHis BHP Motor Eff. Drive Eff. CENTRAL SYSTEM RATINGS System Name CENTRAL System Type Qty. RETURN FAN System Name Fan Type Motor Location CFM BHP Motor Eff. Drive Eff. - Ar - BHP Motor Eff. Drive Eff. CENTRAL FAN SUMMARY Nonresidential Compliance Form January 2001 SUPPLY FAN RETURN FAN System Name Fan Type Motor Location CFM BHP Motor Eff. Drive Eff. CFM BHP Motor Eff. Drive Eff. Nonresidential Compliance Form January 2001 MECHANICAL EQUIPMENT SUMMARY (Part 2 of 2) MECH-2 PROJECT NAME DATE Falmer`s Restaurant 6/5/02 VAV SUMMARY Nonresidential Compliance Form January 2001 System Type M -MI_MI_ _��-- _- -M_M_ -MMIMM _- IMEN_M_M_ --M-M _- -M_M_ -ME - __ -M_M_-MMMW -- �s�■■M 11MME M EMME MIMEMMIMEMEMEM ����� � � �10MMIM MIM■EN1 01MAIM —EX�AU�T LIM FAN SUMMARY Nonresidential Compliance Form January 2001 IV�ECHANICAL VENTILATION MECH-3 PROJECT NAME DATE Palmer's Restaurant 6/5/02 MECHANICAL VENTILATION FA-]©© D c o n n In n n •AIR OUTDOOR CFM•• •, �� r -Mew, mmm fml�G�/�t�L7 i _-_. _-- _-_ _-_ _-_ _-_ _-- _-_ •AIR OUTDOOR CFM•• fml�G�/�t�L7 i •AIR OUTDOOR CFM•• i TRANSFER AIR CFM v 0 Totals (For MECH-4) C Minimum ventilation rate per Section § 121, Table 1-F. E Based on expected number of occupants or at least 50% of Chapter 10 1997 UBC occupant density Must be greater than or equal to H, or use Transfer Air. Design outdoor air includes ventilation from supply air system & exhaust fans which K Operate at design conditions. Must be greater than or equal to (H -1), and, for VAV, greater than or equal to (H - J). Nonresidential Compliance Form January 2001 11 MECHANICAL SIZING AND FAN POWER MEC H-4 PROJECT NAME DATE Palmer's Restaurant SYSTEM NAME FLOOR AREA G�GJ�s.f. NOTE: Provide one copy of this form for each mechanical system when using the Prescriptive Approach SIZING and EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR, DRY BULB TEMPERATURE - OUTDOOR, WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING DESIGN OUTDOOR AIR - ENVELOPE LOAD - LIGHTING -PEOPLE - MISCELLANEOUS EQUIPMENT - OTHER - OTHER - OTHER (APPENDIX C) (APPENDIX C) (1993 ASHRAE handbook, See Chap. 8, Fiq. 5) �d l�3 2 (Describe) (Describe) (Describe) TOTALS OTHER LOADS/SAFETY FACTOR (enter 1.21 for cooling and 1.43 heating) MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE X OTHER LOAD/SAFETY FACTOR) COOLING HEATING 113°F 26°F 73 78 70 Sensible ,2 157 Go 341, Z 3. SELECTION: Sensible INSTALLED EQUIPMENT CAPACITY ?�/L.11 KBtu / Hr KBtu / Hr IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN *equipment sized for cooling capacity FAN POWER CONSUMPTION DESIGN FAN DESCRIPTION BRAKE HP N/A [Total E: Include only fan systems exceeding 25 IIP (see § 144). Fan System Power Demand may not exceed 0.8ls/CFM for constant volume systems or 1.25 Watts/CFM for systems. EFFICIENCY MOTOR I DRIVE a o a NUMBER PEAK WATTS CFM OF FANS B x E x 746 / (C x D) (Supply Fans TOTALS TOTAL FAN SYSTEM C� POWER DEMAND Col. F / WATTS / CFM Col. G Nonresidential Compliance Form January 2001 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME - DATE Palmer's Restaurant i/5/02 SYSTEM NAME FLOOR AREA G L) — Z 3ja s . f . [_NOTE- Provide one copy of this form for each mechanical system when using the Prescriptive Approach 1 SIZING and EQUIPMENT SELECTION 1 1. DESIGN CONDITIONS: - OUTDOOR, DRY BULB TEMPERATURE - OUTDOOR, WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING. DESIGN OUTDOOR AIR ENVELOPE LOAD - LIGHTING -PEOPLE MISCELLANEOUS EQUIPMENT - OTHER - OTHER - OTHER (APPENDIX C) (APPENDIX C) (1993 ASHRAE handbook, See Chap. 81 Fiq. 5) r, v (r (Describe) (Describe) (Describe) TOTALS OTHER LOADS/SAFETY FACTOR (enter 1.21 for cooling and 1.43 heating) MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE X OTHER LOAD/SAFETY FACTOR) COOLING HEATING 113°F 26°F 73 78 70 Sensible 52,-7nB, to 3. SELECTION: Sensible INSTALLED EQUIPMENT CAPACITY I �Oi S ,a * KBtu / Hr KBtu / Hr IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN _*equipment sized forcooling_ capacity _____ _ I FAN POWER CONSUMPTION F81 © 10 a FAN DESCRIPTION N/A D a E DESIGN BRAKE UIP EFFICIENCY NUMBER OF FANS PEAK WATTS B x E x 746 / (C x D) MOTOR DRIVE NOTE: Include only fan systems exceeding 25 HP (see § 144). Total Fan System Power Demand may not exceed 0.8 Walls/CFM for constant volume systems or 1.25 Watts/CFM for VAV systems. CFM Supply Fans) TOTALS TOTAL FAN SYSTEM POWER DEMAND Col. F / WATTS / CFM Col. G Nonresidential Compliance Form January 2001 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME o Palmer's Restaurant NUMBER SYSTEM NAME "&'GLj- --;::, FLOOR AREA 8t)5S.f. NOTE. Provide one copy of this foiin for each mechanical system when using the Prescriptive Approach SIZING and EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR, DRY BULB TEMPERATURE - OUTDOOR, WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING DESIGN OUTDOOR AIR - ENVELOPE LOAD - LIGHTING -PEOPLE MISCELLANEOUS EQUIPMENT - OTHER OTHER - OTHER (APPENDIX C) (APPENDIX C) (1993 ASHRAE handbook, See Chap. 8, Fig. 5) 510 .3 (Describe) (Describe) (Describe) TOTALS OTHER LOADS/SAFETY FACTOR (enter 1.21 for cooling and 1.43 heating) MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE X OTHER LOAD/SAFETY FACTOR) COOLING !26n'F 113°F 73 78 70 Sensible 11.3 ,2 3. SELECTION: Sensible INSTALLED EQUIPMENT CAPACITY KBtu / Hr KBtu / Hr IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN _ "equipment sized for cooling capacity FAN POWER CONSUMPTION FAN DESCRIPTION N/A DESIGN BRAKE HP EIncludenly fan systems exceeding 25 HP (see § 144).Power Demand may not exceed 0.8nstant volume systems or 1.25 Watts/CFM for O EDJ EFFICIENCY MOTOR I DRIVE R o NUMBER PEAK WATTS CFM OF FANS B x E x 746 / C x D) (Supply Fans) TOTALS TOTAL FAN SYSTEM POWER DEMAND u Col. F I WATTS / CFM Col. G Nonresidential Compliance Form January 2001 L MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME DATE Palmer's Restaurant /5/02 SYS I EM NAME FLOOR AREA /6..t"_0. r--� 7'-p.f. NOTE: Provide one copy of this form for each mechanical systern when usinn the Prperrintivp Annrnmeh 1 SIZING and EQUIPMENT SELECTION 1 1. DESIGN CONDITIONS: - OUTDOOR, DRY BULB TEMPERATURE - OUTDOOR, WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING DESIGN OUTDOOR AIR ENVELOPE LOAD LIGHTING -PEOPLE MISCELLANEOUS EQUIPMENT OTHER OTHER OTHER (APPENDIX C) (APPENDIX C) (1993 ASHRAE handbook, See Chap. 8, Fiq. 5) C,o o (Describe) (Describe) (Describe) TOTALS OTHER LOADS/SAFETY FACTOR (enter 1.21 for cooling and 1.43 healing) MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE X OTHER LOAD/SAFETY FACTOR) COOLING HEATING 113°F 2G°F 73 78 70 Sensible (' 3, 6, �. I , > ,O 2, I.2 3 3. SELECTION: Sensible INSTALLED EQUIPMENT CAPACITY 72".91 p.p KBtu / Hr KBtu / Hr IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN *equipment sized for cooling_ capacity ----------------- FAN POWER CONSUMPTION 9 DESIGN FAN DESCRIPTION BRAKE HP N/A NOT=Systenn, =systemsng 25 FIP (see § 144). Totalot exceed 0.8 Wallor 1.25 Walls/CFM for VAV 10 0 EFFICIENCY MOTOR I DRIVE 10 NUMBER OF FANS TOTALS E PEAK WATTS CFM B x E x 746 / (C x D) Supply Fans E= TOTAL FAN SYSTEM POWER DEMAND Col. F / WATTS / CFM Col. G Nonresidential Compliance Form January 2001 14�CHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME DATE Palmer's Restaurant x/5/02 SYSTEM NAME FLOOR AREA /f—v f. NOTE: Provide one copy of this form for each mechanical system when using the Prescriptive Approach I SIZING and EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR, DRY BULB TEMPERATURE - OUTDOOR, WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING DESIGN OUTDOOR AIR ENVELOPE LOAD LIGHTING -PEOPLE MISCELLANEOUS EQUIPMENT - OTHER (APPENDIX C) (APPENDIX C) (1993 ASHRAE handbook, See Chap. 8, Fiq. 5) (Describe) OTHER (Describe) - OTHER (Describe) TOTALS OTHER LOADS/SAFETY FACTOR (enter 1.21 for cooling and 1.43 heating) MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE X OTHER LOAD/SAFETY FACTOR) COOLING HEATING 113°F 26°F 73 78 70 Sensible 7-2.,-7 O, -7 ?b• o o, 2 �, 3. SELECTION: Sensible INSTALLED EQUIPMENT CAPACITY S� KBtu / Hr KBtu / Hr IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN *equipment sized for cooling_ capacity -------------- I FAN POWER CONSUMPTION I 0 FAN DESCRIPTION N/A DESIGN BRAKE HP [NOT:E:Include only fan systems exceeding 25 HP (see § 144). System Power Demand may notexceed 0.8 M for constant volume systems or 1.25 Watts/CFM for ms. KI 0 EFFICIENCY MOTOR I DRIVE a o NUMBER PEAK WATTS CFM OF FANS B x E x 746 / C x D) (Supply Fans TOTALS TOTAL FAN SYSTEM POWER DEMAND Col. F / WATTS / CFM Col. G Nonresidential Compliance Form January 2001 LkE,CHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME DATE Palmer's Restaurant /5/02 SYS1 EM NAME FLOOR AREA NOTE: Provide one copy of this form for each mechanical system when using the Prescriptive Approach SIZING and EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR, DRY BULB TEMPERATURE - OUTDOOR, WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING DESIGN OUTDOOR AIR - ENVELOPE LOAD LIGHTING -PEOPLE MISCELLANEOUS EQUIPMENT - OTHER OTHER OTHER (APPENDIX C) (APPENDIX C) (1993 ASHRAE handbook, See Chap. 8, Fiq. 5) o� G� - 1,3 r� (Describe) (Describe) (Describe) TOTALS OTHER LOADS/SAFETY FACTOR (enter 1.21 for cooling and 1.43 heating) MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE X OTHER LOAD/SAFETY FACTOR) COOLING HEATING 113°F 26°F 73 78 70 Sensible 2, 3. SELECTION: Sensible INSTALLED EQUIPMENT CAPACITY KBtu / Hr KBtu / Hr IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN equipment sized for cooling capacity FAN POWER CONSUMPTION N FAN DESCRIPTION N/A DESIGN BRAKE HP EIncludenly fan systems exceeding 25 HP (see § 144).Power Demand may not exceed 0.8 nstant volume systems or 1.25 Watts/CFM for 0 0 EFFICIENCY MOTOR I DRIVE 0 NUMBER OF FANS TOTALS 0 PEAK WATTS BxEx746/(CxD CFM Supply Fans TOTAL FAN SYSTEM POWER DEMAND Col. F I WATTS / CFM Col. G Nonresidential Compliance Form January 2001 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME � T� `� 1 O Palmer's Restaurant , SYSTEM NAME II FLOOR AREA f,GiL6- �---s.f. (NOTE: Provide one copy of this form for each mechanical system when using the Prescriptive Approach SIZING and EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR, DRY BULB TEMPERATURE - OUTDOOR, WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING DESIGN OUTDOOR AIR - ENVELOPE LOAD LIGHTING -PEOPLE - MISCELLANEOUS EQUIPMENT - OTHER - OTHER - OTHER (APPENDIX C) (APPENDIX C) (1993 ASHRAE handbook, See Chap. 8, Fiq. 5) o<;) f 1- 3 WA PC (Describe) (Describe) _1 (Describe) TOTALS OTHER LOADS/SAFETY FACTOR (enter 1.21 for cooling and 1.43 heating) MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE X OTHER LOAD/SAFETY FACTOR) COOLING HEATING 113°F 26°F 73 78 70 Sensible 1 I ti V 3. SELECTION: Sensible INSTALLED EQUIPMENT CAPACITY 8 ,� vl KBtu / Hr KBtu / Hr IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN `equipment sized for cooling capacity FAN POWER CONSUMPTION F81 FAN DESCRIPTION N/A a DESIGN BRAKE HP NOTE: Include only fan systems exceeding 25 HP (see § 144). Total Fan Syslem Power Demand may not exceed 0.8 Walls/CFM for constant volume systems or 1.25 Watts/CFM for VAV systems. F91 o EFFICIENCY MOTOR I DRIVE a 0 NUMBER PEAK WATTS CFM OF FANS B x E x 746 / (C x D) Supply Fans TOTALS TOTAL FAN SYSTEM C� POWER DEMAND Col. F / WATTS / CFM Col. G Nonresidential Compliance Form January 2001 MECHANICAL SIZING AND FAN POWER MECH-4 PROJECT NAME DATE Palmerrs Restaurant /5/02 SYSTEM NAME FLOOR AREA 5r s.f. NOTE: Provide one copy of (his form for each mechanical system when using the Prescriptive Approach I SIZING and EQUIPMENT SELECTION 1. DESIGN CONDITIONS: - OUTDOOR, DRY BULB TEMPERATURE - OUTDOOR, WET BULB TEMPERATURE - INDOOR, DRY BULB TEMPERATURE 2. SIZING DESIGN OUTDOOR AIR - ENVELOPE LOAD - LIGHTING -PEOPLE MISCELLANEOUS EQUIPMENT - OTHER 3 Go f'' Irl -TCF/ OTHER - OTHER (APPENDIX C) (APPENDIX C) (1993 ASHRAE handbook, See Chap. 8, Fiq. 5) O� (Describe) (Describe) (Describe) TOTALS OTHER LOADS/SAFETY FACTOR (enter 1.21 for cooling and 1.43 heating) MAXIMUM ADJUSTED LOAD (TOTALS FROM ABOVE X OTHER LOAD/SAFETY FACTOR) 3. SELECTION: 114STALLED EQUIPMENT CAPACITY COOLING HEATING 113°F 26°F 73 78 70 Sensible r0 �, Sensible KBtu / Hr IF INSTALLED CAPACITY EXCEEDS MAXIMUM ADJUSTED LOAD, EXPLAIN *equipment sized for cooling capacity I FAN POWER CONSUMPTION 0 FAN DESCRIPTION N/A DESIGN BRAKE HP =Systtern y fan systems exceeding 25 HP (see § 144). Power Demand may riot exceed 0.8 stant volume systems or 1.25 Walls/CFM for M a EFFICIENCY MOTOR I DRIVE 0 0 NUMBER PEAK WATTS CFM OF FANS B x E x 746 / (C x D)(Supply Fans) TOTALSE==.= TOTAL FAN SYSTEM POWER DEMAND Col. F 1 WATTS / CFM Col. G Nonresidential Compliance Form January 2001 lyZt9 l �AI-I Wit3 ; 3 S F c _ i'i F.- � v-1 214dT------ I� Alr CondlTloning company DATE PREPAR'__I_�•D BY. G •'^ ^ aI...... PROP NO. _ OFFIC JOB NO. NAME OF y08_)_� L4-'i� iL S ^"`�I'L112J�I I ti LI I••j fes• ;.I:. ►� �-� AP►RDVED 11111111 I I I III I III IIII 49 Sut x = Gj --------- So FT x - Cu Ft ESTIMATE FOR sun►L TI►_ _ LIMAL_ sur Tlrt ►[Ak LOAD sun Til (TRN ARIA OR SJUuAIN OR U) Si CG QUANTITY EMr. DOFF. FACTOR SOLAR RAIN --GLASS GLAES5-�-- So FT x 33 X 3Co GLACE! 1 a-�S _.Fr x 2 ' LASE So FT x I,o � rT Gl.�( 1S TU/HOUR _ HOUR[ OI OPERATION 5_1d- i CONDITIONS OuIDOO4(OA) DB WB % RFI DP 1 -j GR/LE Roop (RM) L -TJ X X X X X X �xx oe. VENTI- /y O T �I� Rr IR p, CATION I ►tO►LI X-.e-CrO/P[www [ Ir X / I CFO/so rT - CFM VENTILATION ■ -'-GLASs-----SO_FT_X��- . X--- - - - _ - SKTLIGIIT SO FTX x -J SOLAR b TRANS. GAIN—WALLS b ROOF 4 .IWWALL I So FT X �Q •{�' X r fll0%. p� INVIL TIAVIV* ESHF ADP 3wlrelre RtvoLVIwc. DOOR9 P[o►LE X CIN/►trfoN = OIEN DOOR C /poor c Door X E F �TI7 \` CRACK FEET X "- 3r� ■/rT = CIN INFILTRATION N CFM OUTDOOR AIR THRU APPARATUS ■-_ _Cr ' t��"��ALL SO FTImo• I Wn� X J x FFF--- 20 0 /�J S�W AIL _ d So FTX G_ X �•W`ALL I "J, So FT X .7 ` (I O Ip 2 a� ROOr-SUN S-0 FTX II X / 0 % ^O4F-SHADED - _ SO FT x -_ TRANS. GAIN—EXC PT WALLS b ROOF ALL GLASD I( �% $0 fT ,� - X ,QO -, APPARATUS DEWPOINT [11[CTIV[ IE/FECTIV[ ROOM SEMS. HEAT EMS NEAT = FACTOR EFFECTIVE ROOM TOTAL HEAT -- INDICATED ADPL SELECTED ADP = _ PARTITIO $0 FT X - X 7'�,' CEILING So FT X x FLOOR So FT X x INFILTRATION CFM x x 1.0E TEMP. RISK DEHUM. CFM TEN .'Di r. I. DEHUMIDIFIED AIR QUANTITY (f-- BF) X (T.,—F - TACP F) _ EFFECTIVE ROOM Slims. HEAT = Cr 1.0e X F TEOr IIEE ROOM S[NL HEAT 1.0e X = F11r-CUTLET A' CFM CIA INTERNAL HEAT n _PEOPLE I�. PEOPLE X 21 5- 3 (�x7 _POWER HP oI KW X _LIGHT �� I � 1l I r�` WATTS X 3.A .X ArrLIAF(CKS. ETC. x 1 -- —•._`— ADDITIONAL HEAT GAINS x SUPPLY BYPASS CFM SUPPLY AIR QUANTITY ' ROOM SENS. HEAT = Cr 1.Oe X F Itnrto RIFT CFO - C►MIA o Cr _. Sun TOTAL STORAGE So FT X X (- ) Sus TOTAL SAFETY (ACTOR R O O M S E N S I B L E FI E AT EDB LDB RESULTING ENT b LYG CONDITIONS AT APPARATU CFM Trr—F+ CA X (TCA—F-TIO_F) =TeoI- CFMt TAO,—F+ —BF X (TEOI_F - TA,P_F) = T,., - FROM PSYCH. CHART: To,A.I F.TL,, F SUPPLY SUPPLY DUCT DUCT IAP 11[AT GAIN %+ LLEAr. Loss % + H, F. % OUTDOOR AIR 6b0 CrM x 3r�, r x BF x 1.0E - EFFECTIVE ROOM SENSIBLE HEAT �J X00 LATENT HEAT INFILTRATION Cris X GI/Ls X 0.08 - yL I,/� I hLF C.L. I �SoLp I<.r,l ("/ NOTES (J a �/ I I L�75LI TL = 7rJ°�6�2jo-� 1 �i y F o �: ---IQ'°��•1 �� G�'lii. /I.-� lr•e 11y//:.i.r7 , 7 Cop � r ti•% _ � I Ob% I-teve n./ t �-1 G -remission Reproduced Ey ermtselon of cJff �F C9r�retton (C) Copyright 19593 /Lf POO� 7C �• % Ilq. Irrrlllrr .PPL/ CFI FIr holes" IlPrtrtr CI IT IIPPL7 }--'1 Pr PAP•.. A .Irl.rr or a""O. A.P rr1V.r Alr. .FI 8.►PL1 CFI. ..0 81rAM.0 .rr.0 Al. Cott. 984 ..NVVI.. CF.. PEOPLE A /[OPLL X Lr/Nr X 1050 ��G+yC A APPLIANC[R. ETC. 1 �_1 �;j• I�G.�ji�i �j ADDITIONAL HEAT GAINS A S ( (}7, OJ 3 .G• VAPOR TRANS. [C FT X 1/100 X GI/LI X Sun TOTAL'a 2• SAFETY FACTOR c ROOM LATENT HEAT SUPPLY DUCT LEAKAGE LOSS % QMTID22R AIR CFM x GI/Ls X IF X 0.6E ' O EFFECTIVE ROOM LATENT HEAT EFFECTIVE ROOM TOTAL HEAT M OUTDOOR AIR HUT S[NEIkLt CFM X F X (1 - BF) x 108 4TENTI CIM X MULE X t - BF) X O.sa I IAJp 6- / IETURN R[TVIN Sue TOTAL IVCT DUCT NP DtNYr. A '1[AT GAIN LEAK. GAIN -(• ►VI► 211 PI►[ COI• GRAND TOTAL HEAT AIR CONDITIONING LOAD ESTIMATE — FORM E-20 (z - 66 ) 23 I SkItiT PREPARED BY—L G ��� 0'FIC \ wJUr Conditioning Company DATE NAME OF J,08 r� I-i-�r iL S - r r2_,A r. G LI M�.T-� PROP NO. JOB NO. -7 APPROVED SPACE Ut[D FOR ESTIMATE FOR LOCAL TINE LOCM 7 $II[ X =G �� '� $K FT X - Cu FT ■uR TI■E PEAK LOAD ■u■ TIr EE ITEM AREA OR SSU GAIN 'R U�FACTOIIG GL�f TU/HOUR HOUR[ OF OPERATION QUANTITY [r/. DIF►. .. CONDITIONS DB WB % RH DP GR/Lt '' Il SOLAR GAIN ---GLASS ¢ OUTDOOR (OA) jTNFrLAtt meq" So FT X x 2cxpRoo _(R M`t> GLASS - So FT X X DIFFIE PICK '> X X X X X X X X X GLAD$ So FT x x �' PE�J`: Z 0 T 33 R IR ea GLASS SO FT X X V[NTI• �o LATION PEOPLE X I > -� Crr/PEROOM SKYLIGHT SO FT X X V - y Fr X Cr■/Io FT = 't� LL-�� SOLAR a TRANS. GAIN WALLS ROOF CIM VENTILATION ■ I`1`/`�WALikw-f J So FT XgVtjj TX r vlO7i .,GS,? SwINCINr SIN WALL 0� S F ( ) O REYOLVINC. DOORS PLOPLE X C►■/►IREoN = i O T X X S,i: WAll ,fl OPEN DOORS DOORR X CIN/DOOR = Low SO fT X (( X — O INFIL- TRATION EXHAUST FAN CRACK F[[T x cr■/rT = WALL SO FT X x ROOT -SUN c> $q FTX 35-I' )I 1 X i% pQ CFM INFILTRATION A ROOF -SHADED So FT X x CFM OUTDOOR AIR THRU APPARATUS NL-- CFI TRANS. GAIN—EXCEPT WALLS b ROOF APPARATUS DEWPOINT ALT-�GLASS" Sq FTX �J't (I X41' ARSo ; < ESHF [►/[CTIYK EFFECTIVE ROOM SENS. HEAT t[NI HEAT = --- - ---- — FT X X �, ADP TF -Mr. _ FACTOR EIF[CTIVE ROOM TOTAL HEAT INDICATED ADP = F SELECTED ADP = I CEILING SO FT X X FLOOR So FT X X INFILTRATION Crr x X IDI DEHUMIDIFIED AIR QUANTITY RIs[ DEMUR. (1'- BF) X (T,,—F - TADr F) _ EFFECTIY[ ROOM Stmt. HEAT INTERNAL HEAT PEOPLE /O P[OFL[ x 2 SS CFM OUTLET T[rP. = Car 1.00 X F TIN F. ■IEE Roots SEN/. HEAT FIRM-OUTLIET Al' 1.00 x CFM FIA POWER_ HP o. KW X - y - — LIGHT! ?' o o ► is WATTS X 3.4.X I -� o APrLlArycu, ETc.! , t x - - ,� ADDITIONAL HEAT GAINS x $CENT SUPPLY AIR QUANTITY ROOM SENS. HEAT — Crf Sun TOTAL SAFETY FACTI turrLT DUCT HEAT GAIN OUTDOOR AIR EFF INFILTRATION X X (- ) 1.00 X F DEIIRtS Ona Sun TOTAL H_ I iBTPAFI CFM CFM EA — CFM,,. = CF1 N $ I B EUPPLT DUCT FAN F DEAR'. LCIS % + H. P. % eC "CFM X J�:, F x IF TIVE ROOM SENSIBLE HE LATENT HEAT Ar- rLIANcp, ADDITIONAL HEAT GAINS VAPOR Tnnnt. Io SAr[rY FACTOR SUPPLY DUCT LEAKAI O C? 1T11 LFM x GR/LO x 0.I/ ,[opt E x 01. WHO x I o o ...-� •I. �_ �r I(0r1 mg 44SG, ('22,a'(`� Ifloo x GR/LS x ;f SUI TOTAL ROOM LATENT HFAT 12,!�, ZYTDOOR AIR CFM X GR/LO X tF X 0.49 I 117. l I NIGf^ II OUTDOOR AIR HEAT I[Nt1tLE: CFM X F X (1 - BF) X 1 o/ RESULTING ENT b LVG CONDITIONS AT APPARATU: CFM EDB T.,—F + CFM}A x (TOA—F - TR„ --F) = TEDR- LDS TADF—F + —BF x (TIDO—F - TADr—F) = TLDE- FROM PSYCH. CHART: Tvap F. TtwO F I -(-E [rrL., 15-LA12 07-,I G LAI- 9 s : NOTES L) , +rj w I Tefz 5 e 501. Abe, �. C►r X 41/1.9 X f 1 - SF) x o.It Reproduced by Fe mtaalon of Carrier Corporation (C) Copyright 1959 j(10 . C. (1OC NORM RETURN I, CT I'll CT EAT GAIN % + LEA[. G •5024 SUI TOTAL •n ren Qr a Too W", •nuNIRR cRrrLr cry r.R ytnnS n►►UENU n nrru H/ Vallum. A R.ANfIff 1`01111191A. Pule PIPE LOSE Iweu .rrA/... A nnuu er ouneo■ A.a nava. Au, .LR whir oy. N D TOTAL HEAT wNER .rraur.a RcraA. An C.Lr, .n .LN..rrIR. vN. AIR CONDITIONING LOAD ESTIMATE — FORM E-20 (z-68) ITGMT ARRA OR S U GAIM �R U) S CG HOUR{ OF 0►[RATION QUANTITY [M/. D. r• FACTOR G TU/HOUR CONDITIONS DB WB % RH DP GR/LY / ,SOLAR GAIN --GLASS OUTDOOR (OA) �V>� 944 V !/• SC FT X X C/> -•� I ' A � � (RM) "JJ JWGLAII V (lSO FT X L. X II I�j9 �J:7� DI/F[R[NC[ �? �• , „� __ xxx xxx xxx ll fl -X' - --y(---1 Imo— �- y�B o. 33 �GLAee �✓ � �E I �¢0 T IR De..T =?� 1-- '/ $0 FT X 'fes I c X r (.O Z'� /0o V[NTI. _ LATION 22 p� /coPLE X SKYLIGHT • SoFYx..._ TJGJ =-F-� {4 IT XC/■/SO IT SOLAR 61 TRANS. GAIN -AWA I.�F� ROOFCFM VENTILATIONSWWAL W-1 6Q, So FTX I I1. � SWINGING _LL'tMALL Ir-•-I� O(O So FT X ���4> RaVOLVIrG. DOOR9 ►aOPI[ X CIN/ParsoN = WALL 1(.1 B 3 SO FTX X , �„ - 0� OPEN DoORd Doo91 X CIr/Door = _....` _ IRVIL- EXHAUST FAN WALL -$0 FT�"'� '�" -�•' X- ''-- CRACK f[[T X CIr/IT - _RooF—Sun 8� So FT x �' X , = 03-7 _�- QO CIM INFILTRATION A ROOF—SHADED $0 FT X x CFM OUTDOOR AIR THRU APPARATUS IL— Cr l(ANS. GAIN—EXCEP , WALLS 4, ROOF y— �,I11\ Q APPARATUS DEWPOINT ALL GLASe \�0SO FTX X I IFI[CTIV[ EIIECTIVE ROOM SEMS. HEAT -- ESNF S[Ms HEAT c ------- ----- _- FA TOR EIIECTIVE ROOM TOTAL HEAT — CEILING So FT X X FLOOR So FT x X ADP INDICATED ADF F SELECTED ADP = INFILTRATION CrM x _ x 1.00 DEHUMIDIFIED AIR QUANTITY TENr. RLI[ 0 ---OF) X (T,,—F - TAVI F) _ INTERNAL HEATD[NUM. EFFECTIVE ROOM SEMI. HEAT ,Z PEOrL[ P[orL[ x s -6J �j v CFM = CF POWER _ HP o[ KW X 1.00 X F Tarr. riga OUTLET LIGHT'{� �� I ROOM S[N{. HEAT �l r�� WATTS x J.I.X \ Di/►. 1.00 X CFM DA FIr11-OVTL9T Ar ArrLl mcu. ETC. ADDITIONAL IIEAT GAI'NS X SUPPLY AIR QUANTITY Sum TOTAL SUPPLY CFMUPPLBCFM T ROOM SENS. IIEAT = Cr STORAOK SO FT X X (- ) 1.00 X F D1/Ir4D eIIP Su[ TOTAL SAFETY FACTOR % CFMIA - CFMDA = CT SUPPLY DUCT HIAT GAIN OUTDOOR I Ef INFILTRATI 00 M Iur?LT DucT LIAR. Lon 71.0 CFM STEAM _21:11 J ArruANc[s_ Tc.. ADDITIONAL MAT GAINS SENSIBLE HEAT RESULTING ENT b LVG CONDITIONS AT APPARATU CFM FAIL EDB T..—F+ CFMrA X (TCA—F-TRM—F) % + H. P. % F x or X 1.08 LDB TADP—F + __BF x (T F T F) = T [D1-- � ADP--- lD4—. S E N S I B L E H E A T E FROM PSYCH. CHART: Twp- F• T1W1 F LATENT HEATt?�E c,(�, I SoLA�c I�Yr .I Cru X O1/_LS X 0.II (,/ LA5 S ►90rL1 x (, )-r 00 NOTES L) x IOso . (o c- C. �'- _ £�f, _ � . �, w (4-.J "f �Yz I-� �..��• 1,05 5 j�Ll YAroR TnANS, so fT x 1[100 x Gr/L1 x pg 1 ► T Sus TOTAL dLA35 �'/ G R� i���� ��a � SAI[TT FACTOR DUCT ROOM LATENT HEAT 3 I. 3(0 L .A • �� _ Go/LS x Ill x O./I c �-o E ROOM LATENT HEAT OM TOTAL HEAT Ill�°5'I6�I�L6T-�Z Ml�ii(• $p%alv"�A� ,��jT OUTDOOR AIR HEAT - y-, ( 44 S[N[1[L[: CFM x F x (1— BF) x I.oe 959 Reproduced by Peission of Carrier Corporation (C) Copyright 1 LATENT:_ Cris X ISR/Le X 1 — BF) X 0 I8 rm g9TCrN R[rv11r Duel DUCT RaAT GAIN % -)- LIAR. G :-5024 ( Hr Sue TOTAL •n Trr• At a Tee mem, 91"111111119 t9rraT 911 ret 948111. 9r►rllnta d 99PPLT pulp DtMVN. A •v Atnrr r9tr VLA. II►[ Loa[ Iwa1w •11AlUa • ■r111Y114 D/ Obr9e011 Art 1111Ir.r Art, trf N►1LI CIr. ND T O 1_A L HEAT eau 11rrunr9 un11t An oru, rig tt 111181111181 tre. MIR CONDITIONING LOAD ESTIMATE — FORM E-20 (z -6s) SMIEtT®•JllrCompany �7 A PREPARED BY_L • G�II/I OFFICE �N�' Conditioning DATE ,— NAME OF JOB= �''U'I� I2_ S r 5,VlU J`I :I N �....,.a<......... GLI M� V PROP NO. r- JOB NO. - I -7 SPACE Us[P FO o APPROVED SIZE xESTIMATE _ St FT X - CU FT FOR LOCAL Tlra tur ilrX P[AK LOAD LOCAL {nr TI ITGMT ARRA OR S U GAIM �R U) S CG HOUR{ OF 0►[RATION QUANTITY [M/. D. r• FACTOR G TU/HOUR CONDITIONS DB WB % RH DP GR/LY / ,SOLAR GAIN --GLASS OUTDOOR (OA) �V>� 944 V !/• SC FT X X C/> -•� I ' A � � (RM) "JJ JWGLAII V (lSO FT X L. X II I�j9 �J:7� DI/F[R[NC[ �? �• , „� __ xxx xxx xxx ll fl -X' - --y(---1 Imo— �- y�B o. 33 �GLAee �✓ � �E I �¢0 T IR De..T =?� 1-- '/ $0 FT X 'fes I c X r (.O Z'� /0o V[NTI. _ LATION 22 p� /coPLE X SKYLIGHT • SoFYx..._ TJGJ =-F-� {4 IT XC/■/SO IT SOLAR 61 TRANS. GAIN -AWA I.�F� ROOFCFM VENTILATIONSWWAL W-1 6Q, So FTX I I1. � SWINGING _LL'tMALL Ir-•-I� O(O So FT X ���4> RaVOLVIrG. DOOR9 ►aOPI[ X CIN/ParsoN = WALL 1(.1 B 3 SO FTX X , �„ - 0� OPEN DoORd Doo91 X CIr/Door = _....` _ IRVIL- EXHAUST FAN WALL -$0 FT�"'� '�" -�•' X- ''-- CRACK f[[T X CIr/IT - _RooF—Sun 8� So FT x �' X , = 03-7 _�- QO CIM INFILTRATION A ROOF—SHADED $0 FT X x CFM OUTDOOR AIR THRU APPARATUS IL— Cr l(ANS. GAIN—EXCEP , WALLS 4, ROOF y— �,I11\ Q APPARATUS DEWPOINT ALL GLASe \�0SO FTX X I IFI[CTIV[ EIIECTIVE ROOM SEMS. HEAT -- ESNF S[Ms HEAT c ------- ----- _- FA TOR EIIECTIVE ROOM TOTAL HEAT — CEILING So FT X X FLOOR So FT x X ADP INDICATED ADF F SELECTED ADP = INFILTRATION CrM x _ x 1.00 DEHUMIDIFIED AIR QUANTITY TENr. RLI[ 0 ---OF) X (T,,—F - TAVI F) _ INTERNAL HEATD[NUM. EFFECTIVE ROOM SEMI. HEAT ,Z PEOrL[ P[orL[ x s -6J �j v CFM = CF POWER _ HP o[ KW X 1.00 X F Tarr. riga OUTLET LIGHT'{� �� I ROOM S[N{. HEAT �l r�� WATTS x J.I.X \ Di/►. 1.00 X CFM DA FIr11-OVTL9T Ar ArrLl mcu. ETC. ADDITIONAL IIEAT GAI'NS X SUPPLY AIR QUANTITY Sum TOTAL SUPPLY CFMUPPLBCFM T ROOM SENS. IIEAT = Cr STORAOK SO FT X X (- ) 1.00 X F D1/Ir4D eIIP Su[ TOTAL SAFETY FACTOR % CFMIA - CFMDA = CT SUPPLY DUCT HIAT GAIN OUTDOOR I Ef INFILTRATI 00 M Iur?LT DucT LIAR. Lon 71.0 CFM STEAM _21:11 J ArruANc[s_ Tc.. ADDITIONAL MAT GAINS SENSIBLE HEAT RESULTING ENT b LVG CONDITIONS AT APPARATU CFM FAIL EDB T..—F+ CFMrA X (TCA—F-TRM—F) % + H. P. % F x or X 1.08 LDB TADP—F + __BF x (T F T F) = T [D1-- � ADP--- lD4—. S E N S I B L E H E A T E FROM PSYCH. CHART: Twp- F• T1W1 F LATENT HEATt?�E c,(�, I SoLA�c I�Yr .I Cru X O1/_LS X 0.II (,/ LA5 S ►90rL1 x (, )-r 00 NOTES L) x IOso . (o c- C. �'- _ £�f, _ � . �, w (4-.J "f �Yz I-� �..��• 1,05 5 j�Ll YAroR TnANS, so fT x 1[100 x Gr/L1 x pg 1 ► T Sus TOTAL dLA35 �'/ G R� i���� ��a � SAI[TT FACTOR DUCT ROOM LATENT HEAT 3 I. 3(0 L .A • �� _ Go/LS x Ill x O./I c �-o E ROOM LATENT HEAT OM TOTAL HEAT Ill�°5'I6�I�L6T-�Z Ml�ii(• $p%alv"�A� ,��jT OUTDOOR AIR HEAT - y-, ( 44 S[N[1[L[: CFM x F x (1— BF) x I.oe 959 Reproduced by Peission of Carrier Corporation (C) Copyright 1 LATENT:_ Cris X ISR/Le X 1 — BF) X 0 I8 rm g9TCrN R[rv11r Duel DUCT RaAT GAIN % -)- LIAR. G :-5024 ( Hr Sue TOTAL •n Trr• At a Tee mem, 91"111111119 t9rraT 911 ret 948111. 9r►rllnta d 99PPLT pulp DtMVN. A •v Atnrr r9tr VLA. II►[ Loa[ Iwa1w •11AlUa • ■r111Y114 D/ Obr9e011 Art 1111Ir.r Art, trf N►1LI CIr. ND T O 1_A L HEAT eau 11rrunr9 un11t An oru, rig tt 111181111181 tre. MIR CONDITIONING LOAD ESTIMATE — FORM E-20 (z -6s) $MEET PRiPARED BY _ —OFFIC • Air Cond/rloning Company E=��1 � .a•...-.-•....•.••.ro...... NAME OF JOR... LI MJi. iv •I�a+�l•saa _ Y k DATE _I4 -� Z PROP NO. JOB NO. 'APPROVED MrAui LINED FOR_ - h' Z10 Sltt x = R1,, _ w SofT X CU FT LOCAL TI EITIMATt M[ FOR PEAR LOAD Lotat T SUM Tlra sun Tla AREA OR � U eAIN`Da U) S CG IT[IsQUANTITY [MP. DIFF. FACTOR GL Tu/HOUR HOURS 0► OPERATION CONDITIONS DB WB % RH DP GR/L1 '—'---•-- SOLAR GAIN—GLASS (OA) 1'> -j r�GLA1t 1--�r-50—FTX �n('% �) XCO r DO _OvTDooR RoO� (RM) 1'J �GLA1S J So FT X `� �j X ,�(� QO DI/f[RENCE .-> x X x x X x x x x �GLASG �O So FT X d ? X GO n3 RP. eae.d} a VKIITI•-►ao[ XCn/Fuss■ _ ��� E,. L "�0 7�CFN/84 LATION ,y� 2 [•� 4 FT X /T = GLAQ So FT x X T(YLIGHT -^•"-' SO FTX - _ x SOLAR Or TRANS. GAIN—WALLS b ROOF CPU VENTILATION ■ b(NALL ✓�(�SO FTX II `X i v�0%i vQ'OO SWINGING REVOLVING, DoORB PEOPLa X CFM/Pt RSol, _ d•YYA LL Ir n /n 1 1 SO FT X W (TI X —+— ^.5.2- I OPEN DOORS—Dooms Dooms X _Cr"/DOOR = /WALL Yom' SO FT X X O IRTIL• iaAYlom ERHAU[T FAN CRACK F[ET X CPM/rt = WALL So FT X x OOF-SUN r �' So FT X x r Q 3-7 Qp CFM INFILTRATION A OOF-SHADED SO FT x x CFM OUTDOOR AIR THRU APPARATUS ■ CFO TRANS. GAIN—EXCEPT WALLS •b ROOF LL GLASS I y! APPARATUS DEWPOINT L!'% SO FT X I X � ��� ESHF 1/rtCTivt EFFECTIVE ROOM SENS. HEAT SENS ----------•---- 0 ARTIT So FT x x ? � ADP NKAT = _ _ ►ACTOR EI►[CTIV[ Room TOTAL HEAT INDICATED ADP = F SELECTED ADP = 1 EILING So FT X x _ ooR SO FT x x - FILTRATION Cru x x 1.09 TEMP. DEHUMIDIFIED AIR QUANTITY RI1t (1 ---BF) X (T,,—F - TAO► F) _ INTERNAL HEAT �1 DtHuN.. EI/ECTIY[ Room Same. HEAT = Crr EOrLE PEOPLE X 2r�-5 I�,y CFM 1.06 x F r[Mr. visaGHT'l )"trrHP oR KW x -"-- OUTLET ROOM SENS. HEAT :511( WATTS X 1.1 1\ � %�i'�/ 1...! .XTEMP. D11. = FINE -01011.11T An 1.08 x CF" DA 'ruApcu. ETC. x -• )DITIONAL IIEAT GAINS x SUPPLY BTPASS CFM SUPPLY AIR QUANTITY ROOM SENS. HEAT = Cr► 1.08 X F Dttlate •Irr Cris $A -- CFMOA = Crr Sun TOTAL ORALE SO FT X X (- ) Sun TOTAL .F[TT FACTOR EDBCFMOA RESULTING ENT b LVG CONDITIONS AT APPARATUI. Tar—F F CFM1 X (TOA—F-Tam—F) = T[Da- ROOM SENSIBLE HEAT P►La SUPPLY CY DUCT FAR ( AT GAIN % + LEAK. LOSS % + H. P. % LDB TAD►—F+ —BF X (TED, --F - 7,,p --F) = TLOS- FROM PSYCH. CHART: Tvwg F.Tlwa F ITDOOR AIR 4NP0 Crm X Jr F x IF X 1.01 EFFECTIVE ROOM SENSIBLE HEAT 0 LATENT HEAT �- I , 2� �LJ I?LE FILTRATION CIM X GR/LS X 0.11 C,� LA5 s NOT ES 5}IGG a ,3 �o �/ OPLE �� PEOPLE x Z� r�' /1i1p0 [AM La/HR x 1010 1 IUT►Xz F�� l,o5s (- �^ 7106` - o �{ 'PLIANCu, ETC. _i2-wr IDITIONAL HEAT GAINS —�— ron TRANE. to ►T x 1/100 x Ga/Lax r O, g,a,! 3 Coo G�'✓j �, o �)C4 lsL,.A195 ; e8 1 R w s, �'�%' ;� S 04 Sun TOTAL F[TT FACTOR ROOM LATENT HEAT PPLY DUCT LEAKAGE LOSS TDOOrt AIR CFM X Ga/LS X of X 0.11r/ 2 0� _ O i� 7 EFFECTIVE ROOM LATENT HEAT �p 10 EFFECTIVE ROOM TOTAL IIEAT OUTDOOR AIR NUT 1111811: Cr it x F X (I— BF) x E 101 Reproduced by Permission of Carter Corporation (C) Copyright 19591 �) !^ 0v -I Al n •es miss. aa/n•1.s 99PPL! en Par "4811811 0untua ar ssrru - INT: CIM X 61111.11 X1 BF) X 0.11 Os" R[Yuu SU t TOTAL T Dver HP DaauM. m T GAIN LEAK. GAIM + Pump PI►[ LOQ 0.4,11,» 1,011■9u. iw,19,1 91rAn.• 0 01111u41 eI euneo0 A.9 Rn... An, oil sw"L1 cls. W,120 R1FA991.. -1109. AIR ONLY. 911 99H0,1In19 erg. GRAND TOTAL HEAT E 1%1" WNW i ivninU wAu tb i IMA i E -- FORM E-20 (z -68 ) SMEET_I PREPARED BY—[Z- GL2=A-[wj OFFICE_ NAMEOF JOB Vl'&44r-f2 s C� jFt1 _LOCATION l Nr Conditioning Company 4 Ll b DATE 3 I� "0 -2- PROP PROP NO. JOB NO. APPROVED ,7ret:E vSED ro -I r -1v SIZE X - -Gl S. FT X - CU FT - ESTIMATE FOR LOCAL TI■E P[A[ LOAD L.cAI T Sue Tlrt sun T12 ITEM AnEA IT 5j'U GAIN OR Ui AG OR QUANTITY TTEMP. Dlr►. SOLAR GAIN—GLASS I�aGLAEE ✓ 2- So FT X 2?, - x 3<O GLS TU/HOUR 0 ¢ '� o� HOURS Or OPERATION T,,? i p CONDITIONS OUTDoo (OA) De WB % RH DP GR/Ln Root (RM) GLASS 3 Co SO FTX 2 X GLASS 1 7(m SO FTX 7-� X �jj OU OCA DIrFER[NGE VRNTI• LATION T> X X X X X X X X X O, ,� 33 Ljh� 0 TD PtonE X Crr//t2w■ =/w t0 . IT X r crr/Sa FY = CFM VENTILATION ■ �/. �. ^� Y�xuIASS ✓ 3rd SO FTX � (� � X , ,� CCJ Cj Ip O SKYLIGHT SO FT X x - 7 SOLAR $r TRANS. GAIN—WALLS & ROOF 'WALL Z So FT X I X 9G�2 IM/ll• TRAT190 RtvowNre- DOORS P[oru X Crr/Pt2for = OPEN DooRN Doo2f X Crr/0002 = EXHAUST FAN WWALL So FT X ( X 16WALL SO FT X (/ �( X d _I kALI SO FTX x p (p%/ CRACK—FRIT x er■/rT = CFM INFILTRATION t11 'ROOF -SUN 0&' SOFT x + I1 , O -7 O o� ROOF -SHADED So FT x x CFM OUTDOOR AIR THRU APPARATUS w _CFI `TRANS. GAIN-EXCEP-T-WA\ & RbOF ALL GLASS .•- So FT X �. ILLS ) X -- �Q ESIIF ADP APPARATUS DEWPOINT EFFECTIVE EFFECTIVE ROOM SENS. HEAT ftNt MEAT = --- ----- _ FACTOR EFFECTIVC ROOM TOTAL HEAT INDICATED ADP = _F SELECTED ADP = I PARTITIO _��$0�^ X z-�, - ~' _.._..�• CEILING SO FT X X FLOOR '- So FT x x INFILTRATIOII - CrM x x I of TENT. RIE[ DCFIA OUTLET TENT. ..'Di IF. DEHUMIDIFIED AIR QUANTITY (1- BF) X 1T2r F - T,,,,—F) _ .lr[ Roots S[ME. HEAT = C, I, 100 Oe xx FTE■r. 2uK S. HEAT ROOM SENF12r-OVTL[T All - T.oe X CFM dA INTERNAL HEAT 'EOPLt PEOPLE x �✓S U 'owlR HP o2 KW x �. -...._ .._.... _ .IGHT t< I 9' WATTS X ).4 .X �� / �� T ,7,9 %PPLIAIIC[S, Etc. x ® d _ ADDITIONAL HEAT GAINS x SUPPLY BYPASS CFM SUPPLY AIR QUANTITY Roots SENT. HEAT = C►/ 1.08 X F e9612tD nrr CFM to - CrM DA = Crt SUR TOTAL 110RAC[ So FT X X (- ) Sun TOTAL ;AF[TY FACTOR ROOM SENSI BLE H E A T E EDB LDB RESULTING ENT & LVG CONDITIONS AT APPARATU' CrM T2,—F+ CFMjA X (TCA—F-T2M_F) =TtoE- TAor--F + —BF X (TIDE—F - TACr--F) = TLCE- FROM PSYCH. CHART: TCwD F,T1W2 F Up FLY Eurrtt .CY ovCT IAN IKAT GAIN % -I- LLAK. Loss % + H. P. % )UTDOOR AIR z2 -,v CrM X F x of x 1.0E 1700 EFFECTIVE ROOM SENSIBLE NEAT 0 300 LATENT HEAT INFILTRATION G2/l2 X O.SI I r� IL 1 r?•i�� Csl., I SoLp i I�r ,l NOTES Lj _w IUTI�I'L 1) Loll i5 7(. - [ori[ - y PKD►Lt x IT[AN Le/H2 X 1050 IPPLIANC[N, ETC. $, �jc, I DDITIONAL 11FAr GAINS S -1"� 'Aron TnANS. no FT X InoO x Go/Ls x , W,I.i. p����,,��jjjj'' r-� t� I O0' 0�-) f _ 2 S c �p/Tu� ; q ? �Ic.G.: � ----� Reproduced by permission of Carrier Corporation (C) Copyright 1959 J ✓, / • �T IC 101 MIM, 1frt2 r,2■ .2IIlT tm r10Nflftl ►1/1 tf Utt 1/ t1/►l1 ...2,IrT .1.. aA. Iwai. •nut.2 A ■nrvo eI eurleeA Aw..t1Yt. Off, qt oHtr tn. w2u nr.unl anon A,r e.tr, too •nrn. cr.. Sun TOTAL ALEFT FACTOR ROOM LATENT HEAT UPPLY DUCT LEAKAGE LOSS % D R Aim CrisX G2/LS X EF X O.ES EFFECTIVE ROOM LATENT BEAT EFFECTIVE ROOM TOTAL HEAT E OUTDOOR AIR HEAT tNunt: C►M x F x (i - BF) x 1.01 It[NT: CFM X §R/L9 X1 - BF) X O.SS TD2r RK1V2r Sun TOTAL CT DVT CHr DtNll■. a AT GAIN LLAK. GAIN + PV■► PIPE LO.I GRAND TOTAL HEAT sn �. nuT wlvul I IVIrfI`Ih L VIXU t,� IMA I t — FURM E-20 (z -6e) BM[ET—� • - O Z PREPARED BY .. GSA—� (Alk..didoning1Co... ny DATE 3 �� OFFIC ` PROP NO. JOB NO. NAME OF Jae —L��(-i-'I� r2-' S ��/''LJ.12fI � GLI 'r"j LOCATION - �'` QUINTS �T -7 O�� �. �rj APPROVED DPAG[ LIVED r0 1 ro, EdC IC/ &:v SIlN - X - p r SS FTX = Cu FT ESTIMATE FOR LOCM TIrI I LOCAL T Still Tlrt PEAK LOAD SUN To" AIN OR Us CGHOURS li[N AREA OR [Nimr. QUANTITY Dt►/. FACTOR SOLAR GAIN --GLASS GLASS- Q�50 FT x x SCO WrGLASS SO FTX .I X "GLASS I 'P SG FT X.0 3 x G . Fi' TU/HOUR :� . � I Gtp �OG7 01 OPERATION 2 - CONDITIONS DB WB X RH DP GR/Ln Qn0"R(OA) i�'� -j 3 ROo(RM) DIFFE INC[ X X X X X X X X X P/-- ee.d)L a 0./0/020 T 33 " IR VtNTI. 2'o = CATION PIOPL9 X C►r/►1ssoN _� �OoZ A• IT X Ig� Crr/SO FT = CIN VENTILATION Gu!! '^ So FT X X SKYLIGHT •r SO FT X X ,,//.�•�.� SOLAR 6r TRANS. GAIN WALLS ROOF ;(ALL .` So FT X j'- X , f2e," �yy� IN/I L- TRATIo11 SwINo1N0 - RcvotrlNc. DOORS PtOPLE X Crr/PusoN = OPEN DOORSDoORs X _C,,/DOOR = _ EENAUNT FAN CRA'CR F[[T X Crr/rT = C►N INFILTRATION A !"WALL I � SO FTX I X c� DO �I,w �f :Y•• ALL '0 So FT X ` X WALL SG Ft X X •t ROOF—SUN 6'Ji'So FT X .7 X ,O3 jlO OO ROOF—SHADED So FT x x ESIIF ADP CFM OUTDOOR AIR THRU APPARATUS EE-- Crr TRANS. GAIN—EXCEPT WALLS b ROOF RLL GLA -19 So FT X XEI/[CTIV& APPARATUS DEWPOINT _ EFFECTIVE ROON SENS. HEAT SFAC ORT EFFECTIVE ROOM TOTAL HEAT INDICATED ADP = F SELECTED ADP = t PAIITITIO So FT X X 7— 5 ".EILING So FT X X 'Loon So FT x X "FILTRATION CrM x x 1.08 TENT. RIO[ D[NUN.. CFM OUTLET TEMP. 'DIIF. DEHUMIDIFIED AIR QUANTITY (1-- BF) X (T,.—F — TADP F) _ EFrEcim ROOM SENS. HEAT'EOPLI = CrI, 1.00 x F T1Nr Nut ROOM SENS. HEAT - F (NII—OUTLCT AIP 1.06 x c►MDA INTERNAL HEAT PEOPLE x 2 t-5 'OWER HP of KW X •-..2 �� ,IGNTi_ I+(%�i� ,al WATTS X ).1.X I ,Q t7 �rruAllcU. ETC. t x - ----•- ODITIONAL HEAT GAINS x SUPPLY Y BCFMO SUPPLY AIR QUANTITY ROOM SENS. HEAT = C►/ 1.08 X F ossinto Inr = CrKIA - --- CrMVA Crr Sun TOTAL TORAGE SO FT X X (- ) Sun TOTAL AFETY FACTOR ROOM SENSIBLE HEAT EDB LDB RESULTING ENT b LVG CONDITIONS AT APPARATU' CFMOA TNM—F-F X (TOA_F—TRM_F) =TtDs-- CFMI TAD,,—F + —BF X (TcDN_F - TADP_F) = TLet_ FROM PSYCH. CHART: Towo F,TLws F JPrLT NUPPLY 'Cr DUCT IAA cAT LAIR % + LAt, lots % + N. P. % UTDOOR AIR '� 00 Crr X F x NF X 1.0E I ?joy EFFECTIVE ROOM SENSIBLE HEAT E 1- on LATENT HEATZ "FILTRATION Crr X Gs/Ls X 0.68 I I :ALJ i?i�E C^ ' 4_ o P I fi LA5 S . ��r, NOTES Lj . (UT �r� (,p$!5 - L - %•� 1p --216-r I �j,"1' s ol•. ' i( EOPLc rIDPIE x TEAM LI/Hs X 1050 rrLIANC[S. ETC. DDITIONAL HEAT GAINS 3 G� tip % ti Aron TnnnN. no ►r x lnoo x Go/Le x O, g,c+.,� 2jo:�G�M ��, ol�+�C�. �•�� � (�?/� IfLP CJS , ZO , I A i G _ . 7 Q�e -70 [4IA] 1`9 lot >� C� Reproduced by Permlee ion of Cerner Corporeal for Copyright 1959 /1 •u rw11 AT 1. Tee ■184. •trlewlR■ .•PPLr trN rel 841111/ OlrrtttAtt IT IIP►LT •uwnrr relrru. }wN1■ er PArl Rt A rllru.l er ee Ie001 A. .1ru.r 111. 009 119"LT CFO. w■u enl.nw mr.R 111 a■n. 1.t e1Nrn.m crit. Sun TOTAL VEFT FACTOR ROOM LATENT HEAT JPPLY DUCT LEAKAGE LOSS % jTD29m AIR CFM X Gs/Ls X IF X 0.66 EFFECTIVE ROOM LATENT HEAT EFFECTIVE ROOM TOTAL HEAT E OUTDOOR AIR HEAT HEINLE: Cru X F X (1- BF) X I on TENT: Crr x GUL. x I - BF) x o.EN 'ONN RrTutm Sun TOTAL =T DICT Nr DINUN, A IT GAIN LEA[. GAIN + Purr rl►E Los/ G R A N D TOTAL HEAT AIR CONDITIONING LOAD ESTIMATE• ^ FnRM f~ -7-n E� A/ F - _ (`10. -1 9,1 4- q (n -,S 1 = PREPARED r1Ur Conditioning Company PREPARED BY-IZ• GIz/�I1/I OFFIC--••.-•...... ... �....-. NAME OF JOa r'�L-pr a s 7�'U I�-,`I I_ G LI I,,QCATION I--• DATE 3 I4 - 0 -2- PROP PROP NO. JOB NO. — ArrROVED ,PrAC[ U/[D FO v SIZE x S/ FTX = CU FT EITIOAT[ FOR LOCAL TIME I Le, -SUM Ter[ P[A[ LOAD IONAL V TIM IT[K AREA OR5 QUANTITY U GAIN - Sian. DIFF. U) s CG FACTOR G TU/HOUR HOURI OF OP[RATIONG7 PAA CONDITIONS DB WB % RH DP GR/LI SOLAR GAIN --GLASS 0.1GLASS _ 3a So FT x I x 3(� ,la(o 41 lio0� OUTDOOR(OA) ROop IRM) _GLASS So -F -T x X GLASS So FT x--�r-'-,-'..-..._.X�. DIrI[R[NC[ V[NTI• CATION IRnL- Tatlow x x x x x x x x x A E : yq'�`�' 0% T ��RS • enIR . dl} U r[o.L[ x �crr/rRRwR T.lr--t.•a..7 ■o ►T X '157 Crr//o ►T = ��'•- CIO 11MILATION ■ Gu[/ SO Fr x x '•-�'-�.__•„ >RYLIGNT So FTX X �`'`�--� "/SOLAR Or TRANS. GAIN—WALLS b ROOF Y1IALII,M1( IL�ZSO_FT x �p I-1-�1 X r 9�2 J SwlrclMc R[VO Ln NC, DOORS PLO►L[ X Crlr/PRR7ON = OPEN DOORS_DooRf X C►r/DooR = ' EXHAUST FAN ALL (O �j SO Ft X— X WALL So FT X X Z 2 + I( --1 �`, WALL SO FTX X CRACK F[[T X —CFM/FT = CFM INFILTRATION A ac -';00 IOOF—SUN `C% v a So FT X 3 5"1- (( X r O 3-% �_ � IOOF-SHADED So FT X x CFM OUTDOOR AIR TNRU APPARATUS 0_ Crr TRANS. GAIN—EXCEPT WALLS &/ROOF ISL GLA![ So FTX X 'ARTIT I N I G� So Ft X X 7 �.•'S �" ESHF ADP APPARATUS DEWPOINT /FFECTIV[ EFFECTIVE ROOM SENS. HEAT SEN[ N[AT = _ FACTOR EFF[CTIVE ROOD TOTAL H[AT INDICATED ADP = F SELECTED ADP = I :EILING So FT X X 'LOOR U So FTx x NFILTRATIOTI Crw x x 1.01 Ttwr. RIS[ DEHUM• CFM OUTL[T 'Dir►. DEHUMIDIFIED AIR QUANTITY (1 - BF) X (T.,—F - T,,,—F) _ EFFICTIV[ ROOM SENS. HEAT = CFr 1.00 X F Iran?.. list ROOM SENT. HEAT — T.OB X CFM F(,r-ouTUT All DA INTERNAL HEAT n 'EOPL[ 1. l.•% PEOPL[ X c— SS n ` � OCD 'OUTER _ Hr o, KW XT[wr. - _ -. ...o --_r TGHTt %pt��� T I�T WATTS X 3.4.X � Q- ,rrungcx9, ETC. t hI ��,4 n.•+ DDITIONAL HEAT GAINSX.t' , 1 SCFMT GTPA/S CFM SUPPLY AIR QUANTITY ROOM SENT. HEAT = CFT 1.08 X F D[,1,[D SIr1 CFMRA — CFNDA = CFr SUI TOTAL TORAO[ SO FT X X (— ) SU[ TOTAL Af[TT FACTOR EDB LDS RESULTING ENT b LVG CONDITIONS AT APPARATU: CrwoA TRM—F "I CFMt X (TOA—F-TRM—F) = T[D[- TADP--F + _BF X (TED,—F - TAOr—F) = TLOS- FROM PSYCH. CHART: Tu*p F,TLws F ROOM SENSIBLE HEAT +rrL�T SUPPLY UCT DUCT FAR S 2� IZ RAT GAIN % + LEAK. Lor[ % + N. P. % r'�' 'uTDOoR AIR a :7 CrM x 7, F X /F X 1.08 '' EFFECTIVE ROOM SENSIBLE HEAT 2 46 (7t) LATENT HEAT CFILTRATION CIM X OR/L, X 0.16 • aL i F-4-6 6V- I 5oLP12 NOTES �� I 1 Loss L 7VNr , -f- -2-b" I ,&.T T ff �JP..,'fJe7 a ��M . o>��C4 jf-F� _ �� 9S :J`% 1 I {�+ fls �h% C � � 1 Ipa(s�G, ILOUTDOOR Reproduced by rermission or Carrier Corporation (C) Copyright 19591[NT: -Tr TRq AT 10 Tor MIN, 991[0MIRE DDPPLT crr PDR MDIq, ►IrrUEMC[ ,T DRPRT rOnMDLA. OTPAITRD A MTnURR Or OUTDOOR AR• AnDRR Ain, Ong SDnlr RIM. DIPAnrIRD DnTDAR AI. ONLY. DRE 014DrTItU crr. --- [OPL[ PEOPLE x i:Z/ LEAK G Z Le/lin X 1050 PrLIANCLS, ETC. DDIIIOIIAL IIEAT GAINS ^- n- `'- AroR TnANS. So IT X 1/100 X G,/LS X ;• SU[ TOTAL /� (ts� y 1►[TT FACTOR ROOM LATENT HEAT pit•• JPrLY DUCT LEAKAGE LOSS 9f, D R Ain C►M X Go/LX X /F X 0.5/ EFFECTIVE ROOM LATENT NEATEFFECTIVE ROOM TOTAL NEAT AIR HUT%N/IILE: C►M x F x (1- BF) x 1 D[ T C►M X N,/LS X 1 — BF) X O.S, RRYURM SUI TOTAL PvcT Nr DRNIIM. RRDARTIIT RT GAIN LEAK. GAIN -1-PUP►PI►R LOSEIRRnR GRAND TOTAL HEAT•an" TV`° AIR CONDITIONING LOAD ESTIMATE - FORM E-20 (--68) _ h/ ikEET • �- AJr Conditioning Company PIMPAPED pY- OFFICE- N • • -I ...... ... -...... NAME OF JO.B 3SFc - ('1R-191-}- DATE 3 I4 -'0 -2- PROP NO. JOB NO. APPROVED PAC[ USED FOR 'e 1 ICS ► SIZE- X — r �" — 5�+1i S. FTX — Cu FT ESTIMATE ►ON LOCAI TIN[ PEAK LOAD Secat T tuR ilrt SUNTIN IT" AREA OR S U AIN OR L,I� S, CG _T QUANTITY I DI►/. FACTOR SOLAR GAIN --GLASS 'OGLASI 169 So FT x 2) 8 x 3� 6LAII I (p So FT X 3'�J x 3 fo G % Tu/HouR HOURS 0► OPERATION CONDITIONS OulDoaR(0)L DB WB % RN DP GR/Lt 110_ (RM) DI►F[RENC[ t iJ '> x x x x x x x x x GLASS So FT x X VKHTI. CATION �. f E�": 522, T SIR se�t(P 3 'j _ DOOSKYLIGHT Pt0PL9 X Cr■/PERsoN ,�Zy •• /r X ' ( crr/so ►T = __ CFO VENTILATION ■ _GLASS So FT x x SO FTX X �� OLAR 6r TRANS. GAIN—,WALLS ROOF / '14WAL �� SO FT X II i 0�0% ^ C�e1Q IR►a• TRAT1011 SWINGING REvomma. DOORS PED►LC X Crr/PERRoN = OPEN DOORS—Dooms X GIN/DOOM EXHAUST FAN CRACK F[[T X crr/►r = CFO INFILTRATION A ALLLZ2$0 FTX © �IWALL So FT X 1 —h 11 // 1' 18�ALL Q/ 3 fi SO FTX 1 X .� ROOF -SUN 2/ SOFT x 3 X /0-3-7 -----++{ � adz`] ROOF -SHADED So FT x x CFM OUTDOOR AIR THRU APPARATUS ■ Crl TRANS. GAIN -EXCEPT WA L b ROOF ALL GLASSSO FTX X R 700 ESNF ADP APPARATUS DEWPOINT EFFECTIVE E►►ECTIYE ROOM SENS. HEAT SENS HKAT = ----' _ FACTOR EFFECTIVE ROOF TOTAL HEAT INDICATED ADP = F SELECTED ADP - °ARTITIO 1 SO FT X X :EILING -"' SO FT X X `LOOK - So FT x x N►ILTRATION _ CFO x x 1.08 T[n►. RISK DEIIUN. CFM OUTLET T[Mr. DI/r. DEHUMIDIFIED AIR QUANTITY (1 ---BF) X (TRF F - TAD► F) _ EF►ECTIyL Room SENS. HEAT = Crr 1.08 X F Tam?. Rist ROOM SENS. HEAT = F - IRF -OUTLET All 1.OB x CFO OA INTERNAL HEAT 'EOPL[ PEOPLE X 'owtR HP oX KW X IGHTt l�Y T r�� WATTS X T.1 .Y. -• I 07"3 QQ 1►ruArycu, ETC. x ---• IDDITIONAL HEAT GAINS x `( Y SUPPLY BTPA t CF1� SUPPLY AIR QUANTITY ROOM SENS. HEATCFM _ CII 1.08 X F DtslRte Rnr _CFM$A— CFMDA = CFR r CC?I�I'L../I I -Sun TOT 0 1 �� TORACK SO FT x X(- _ Sum TOTAL SAFETY FACTOR EDB LDB RESULTING ENT b LVG CONDITIONS AT APPARATU! CFMDA TRr---F+ CFNi X (T,,_F-TRr_F) -TEDR- TAD? —F + —BF X (T,,,—F - TADP—F) = TLDR- FROM PSYCH. CHART: Towr F'TLwe F ROOM SENSIBLE HEAT urrlT SUP►LT VCT DucT IAN tAT GAIN % + LEAR. Lost % + H. P. % IUTDOOR AIR CFO x ?+ F x of X 1.06 EFFECTIVE ROOM SENSIBLE HEAT 0 O LATENT HEAT M►ILTRATION CFO X GE/Ls X 0.tt I (�L�j S I L IFr,I NOTES (. 1 (. Tp =�(j�� 1 �,T - ? A 'Lori[ ►EorLt x _T[AO LR/HR X 1050 -7 i_PPLIANCtf, ETC. , 6, 5 Z.2 .DDITIONAL NEAT GAINS Aron TRANS. to ►T X 1/100.x GVL■ X ,�TL r Q O Se �I. o��r. 3-7a _ - �+..�.gs , � � C4 4-0Tr. wo"5, -7 r'L, I [ ; r_ 037 a ' a0' o {Cl, oduced by Peisslon of C.rrier Corpol.tl n (C) op'•rlght 1959 ,.[R�rm `•T"' ♦♦\l 4' n 0,<- �o? 7- r...CaT'1. Te. RIN. OCI..•IR1 ..PPLT CIV IN N.Ies@ •lrrEEtNCR RT ..PPLT ...a re.r.. Iw.r..nu....0 A 011-11 OF Sur.eo. ADD flat... An, of dwrItT C►•. •.0 .TrA.n...C:..■ Ara all. .....N.nrin en. Sum TOTAL FACTOR —=4,1-1-T0JI-Q. _ �� GG o = ROOM LATENT HEAT UPPLY DUCT LEAKAGE LOSS ISF4 SC,.� .; % TG. D R IR -s` —CFF X 1 ^ ctrLt x ;;F t► -o:St W_C7. EFFECTIVE ROOM LATENT HEAT EFFECTIVE ROOM TOTAL HEAT r�BV ( UTDOOR AIR HEAT I ,� rC-�` I :nLlu[: CFO x F x (1— BF) x I of 1LNT: CIO X 42/1.9 X I — BF) X O.tt TORR RETUR11Sut TOTAL oI DueT N► DENY N. 4T GAIN LEAK. GAIN + ►Vr/ - - ►1►[ Loss GRAN D TOTAL HEAT 111111 %-.vldul I Iuhllrltj L V11U t� i IMA t — FVRM E•20 (a -6s) VAI-''; = 3 SFa - 07 R--7 9.1 SMKIT *A r Condldon/ny Company DATE 3 �� " d 2 PREPA.^.ED BY ►7� G�AI,� OFFICE" •"." "..`" ". °' PROP No. JOB NO. NAME OF'JOB SjOL%t2N r LOCATION— ��� GZuII-(T� C� ZO�)I�5 tS APPROVED SPACE U{[D FO ESTIMATE FOR LOCALThe {UN The LOCAL T, I PRAE LOAD {tlN TIM, SIZE x = 34 FT X = Cu FT ITEM AREA OR QUANTITY 5JU GAIN OR amp. DIrr. U S C-6 FACTOR G TU/HOUR HOUR{ OF OPERATION CONDITIONS DB WB % RH OP I GR/Ln SOLAR GAIN—GLASS Gu{{ SO FT X x • 3cG OUTDOOR (OA) I1 -j 3 Roo (RM) iJ Ix GLA{{ SO FT X X DIFFERENCE X x x x x X X X GLAD$ So FT X X VtNTI' uTION C>. O T ' R 'i IR • eo.dp s 1Eo►Le X Cr■/PEMwM = FT X—CFO/SO FT = CFU VENTILATION ■ GLA{{ SO FT X X $tYLIGHT SO FTX X SOLAR b TRANS. GAIN—WALLS Or ROOF �f WALL SO FT X X 062, IMIIL• iunoN gEyo�VIMt DOORSPEDFLt X Crr/PENsOR = OPEN DOORb Dooas X C►N/DooM = EAHAU{T FAN WALL SO FT X X WALL So FT X X WALL SO FTX X CRACK FRET X Crr/FT = CFM INFILTRATION N ROOF—Sum So FT X X 103-7 ROOF—SHADED SO FT X X CFM OUTDOOR AIR THRU APPARATUS ■ Crr TRANS. GAIN—EXCEPT WALLS b ROOF ALL GLASS SAOT O FTX X ESHF ADP APPARATUS DEWPOINT R►FECTIVE EFFECTIVE ROOM SENS. HEAT $IN$ NZAT = — FACTOR EFFECTIVE ROOM TOTAL HEAT INDICATED ADP = F SELECTED ADP = I ''! AR PTITIO _ SO FT X X CEILING SO FT X x FLOOR So FT x X INFILTRATION Cris x x 1.06 Tamp. RI{E . DCF OUTLET 'Damp. DEHUMIDIFIED AIR QUANTITY (1-- BF) X (Tow—F — TADr F) _ EF►ECTIrt Room SRN{. HEAT 1.OB X F Tamp. ani = CFP ROOK SEN{mp.. HEAT = F(MM-OUTLET Al? 1.OB x Cris DA INTERNAL HEAT r PEOPLE PEOPLE x 7� POWER _ HP oa KW X - — LIGHT I WATTS X 7.4 .X I APPLIAI(Cq, ETC. X ADDITIONAL HEAT GAINS x SUPPLY SUPPLY AIR QUANTITY ROOM SENS. HEATCFM = CFP 1.08 X F eenaeO atry CFM EA — CFis DA M _ CI SUE TOTAL STORAGE SO FT X X (— ) Sun TOTALBCFM{ SAFETY FACTOR EDB LDB RESULTING ENT b LVG CONDITIONS AT APPARATU' T F + CFMIA Nt X IT F — T F) — T am— CFNI OA— RIF— — ED1_ TAor—F+_BF X (TEon—F — TADp--F) = TLDa— FROM PSYCH. CHART: TDwt F,TLwa F ROOM SENSIBLE HEAT DU►p LT SUPPLT DUCT DUCT FAR NEAT GAIN % + LEAK. Loaf % + H. P. % OUTDooR AIR CFM X 3 F x OF X I.O{ EFFECTIVE ROOM SENSIBLE HEAT 0 LATENT HEAT INFILTRATION CFm X Ga/la X 0.{{ �/ I./�S S . ��6 U, I 0-LA-41I~/rte 2 l NOTES (J � ,, � . •'' . . _C `Ir L Dr 2b"r1 1 0 �( i PEOPLE PEOru X STEAM La/Ha X 1050 APPLIANCES, ETC. ADDITIONAL HEAT GAINS VAPOR TRANS. 6O /r X 1/100 X 60/1.9 X \\ O`?A.,j/I,0��(d��O1 �Pf"�� l'•r WPL-)-`�• ' Cl �f. - _ Sun TOTAL SAFETY FACTOR ROOM LATENT HEAT SUPPLY DUCT LEAKAGE LOSS DuToggit Ain CFM X Ga/La X IF X 0.{{,Q37 EFFECTIVE ROOM LATENT HEAT Reproduced by Permis,ion of Cnrrler Corporetton (C) Copyright 1959 •IF TNI/ pt IE Ta Miss, 68`18119111/ 1RPPLT CIO /OR 0911888 sI►/DUCE If /ar►lT 8RA11rlTT IOROWLA. I9NIN 81PAf111111 A NI8T11118 Or outMOo1 Asp 1111r Y1111 All, 985 60"Ll CFO. •NEN 811pA1111I118 1111101111 AIR ONLT, 811 NN119t/1118 cps. EFFECTIVE ROOM TOTAL HEAT OUTDOOR AIR HEAT IRNEIELE: CFM X F X (11— BF) X I.o{ .ATtNT: CIM X Ga/La X1 — BF) X 0.{{ 'BTtlar ReTUvw Sun TOTAL IVCT I'v T NP DBNVr. el ItAT GAIN LUN. GAIN ►Ur► Pipe Loan GRAND TOTAL HEAT E .5024 AIR CONDITIONING LOAD ESTIMATE FORM E 20 1 %L-001 Cdrridr v� 50 I..nn .iu■ n. nw un IE Product 48TJO04-028 Data Single -Package Rooftop Units Electric Cooling/Gas Heating Copyright 1998 Carrier Corporation 3 to 25 Nominal Tons Standard -Efficiency Rooftop Units with: • Exclusive integrated gas control board with diagnostics • AlumagardTm heat exchanger coating • Induced -draft fan for gas combustion • Tubular, dimpled heat exchangers • Pre -painted galvanized steel cabinet for long life and quality appearance • Commercial strength baserails with built-in rigging capability • Convertible design for horizontal supply/return • Non -corrosive, sloped condensate drain pan, meets ASHRAE 62-89 (IAQ) • Two-inch return -air filters • A wide assortment of factory -installed options available, including high static drives that provide additional performance range Features/Benefits Every compact one-piece unit arrives fully assembled, charged, tested, and ready to run. Integrated gas unit controller (IGC) (all models) All ignition components are contained in the compact IGC which is easily accessible for servicing. The IGC control board, designed and manufactured ex- clusively for Carrier rooftop units, provides built-in diagnostic capability. An LED (light -emitting diode) simplifies troubleshooting by providing visual fault notification and system status con- firmation. Form 48TJ-8PD ARI* capacity ratings Carri�rN UNIT 48TJ NOMINAL TONS STANDARD CFM NET COOLING CAPACITY (Btuh) TOTAL kW SEERt SOUND RATING (Bels) Belt Drive Direct Drive 004 3 1200 35,000 4.0 10.0 9.7 8.2 005 4 1600 47,000 5.5 10.0 9.7 8.2 006 5 2000 57,000 6.7 10.0 9.7 8.2 NET COOLING SOUND NOMINAL STANDARD TOTAL UNIT 48TJ TONS CFM CAPACITY kW EER RATING IPLV (Btuh) (Bels) 007 6 2100 72,000 8.0 9.0 8.2 008 71/ 2800 85,000 9.6 8.9 8.6 9.35 009 8'/z 3000 99,000 11.0 9.0 8.6 9.00 012 10 4000 117,000 13.0 9.0 8.8 9.35 014 121/2. 4500 145,000 16.1 9.0 8.8 9.20 016 15 5250 178,000 20.7 8.6 8.8 10.70 020 18 6000 190,000 21.3 8.9 9.0 9.20 024 20 6200 222,000 25.5 8.6 9.5 8.80 028 25 7200 268,000 31.4 8.5 9.5 8.40 LEGEND Bels - Sound Levels (1 bel = 10 decibels) db - Dry Bulb EER - Energy Efficiency Ratio IPLV - Integrated Part -Load Values SEER - Seasonal Energy Efficiency Ratio wb - Wet Bulb 'Air Conditioning and Refrigeration Institute. tApplies only to units with capacity of 65,000 Btuh or less. **The IPLV applies only to two-stage cooling units. NOTES: 1. Rated in accordance with ARI Standards 210/240-89 (for sizes 004-012) or 360-89 (for sizes 014-024) and 270-89. 2. The 48TJ028 is beyond the scope of the ARI certification program. 3. ARI ratings are net values, reflecting the effects of circulating fan heat. 4. Ratings are based on: Coo, Cooling Standard: 80 F db, 67 F wb indoor entering -air temperature and 95 F db air entering outdoor unit. IPLV Standard: 80 F db, 67 F wb indoor entering -air temperature and 80 F db outdoor entering -air temperature. M L(- HEATING CAPACITIES AND EFFICIENCIES - 48TJO04-014 UNIT 48TJ HEATING INPUT (Btuh) Stage 2/Stage 1 OUTPUT CAPACITY (Btuh) TEMPERATURE RISE (F) AFUE M STEADY-STATE EFFICIENCY (,fie) CALIFORNIA SEASONAL EFFICIENCY N E004 -/ 72,000 59,200 25-55 80.0 80.0 77.2 F004 115,000/ 82,000 92,000 55-85 60.0 80.0 76.7 D005 -/ 72,000 59,200 25-55 80.0 80.0 77.2 E005 -/115,000 92,000 35-65 80.0 80.0 77.1 F005 150,000/120,000 120,000 50-80 80.0 80.0 76.9 ' D006 -/ 72,000 59,200 25-55 80:0 80.0 77.2 E006 -/115,000 92,000 35-65 80.0 80.0 77.1 F006 150,000/120,000 120,000 50-80 80.0 80.0 76.9 D007 -/ 72,000 59,200 25-55 80.0 80.0 77.2 E007 -/115,000 92,000 / 35-65 80.0 80.0 77.1 F007 150,000/120,000 120,000 L 50-80 80.0 80.0 76.9 D008 -/125,000 100,000 20-50 80.0 80.0 75.8 E008 180,000/120,000 144,000 35-65 80.0 80.0 77.1 F008 224,000/180,000 179,200 45-75 80.0 80.0 77.1 D009 -/125,000 100,000 20-50 80.0 80.0 75.8 E009 180,000/120,000 144,000 35-65 80.0 80.0 77.1 F009 224,000/180,000 179,200 45-75 80.0 80.0 77.1 DU12 180,000/120,000 144,000 35-65 80.0 80.0 77.1 E012 224,000/180,000 179,200 35.65 80.0 80.0 77.1 F012 250,000/200,000 200,000 40-70 80.0 80.0 76.4 D014 224,000/180,000 179,200 35-65 80.0 80.0 77.1 E014 250,000/200,000 200,000 40-70 80.0 80.0 76.4 LEGEND AFUE - Annual Fuel Utilization Efficiency NOTE: NOx levels are 40 nanograms/joule with the accessory NOx reduction kit (sizes 004-014).. HEATING CAPACITIES AND EFFICIENCIES - 48TJO16-028 UNIT 48TJ HEATING INPUT (Btuh) Stage 2/Stage 1 • OUTPUT CAPACITY (Btuh) TEMPERATURE RISE (F) STEADY-STATE EFFICIENCY N MINIMUM HEATING CFM D016 230,000/172,000 186,000 15.45 81.0 _ 3800 F016 300,000/225,000 243,000 30-60 81.0 3800 D020 275,000/206,000 223,000 15-45 81.0 4750 F020 360,000/270,000 292,000 20-50 81.0 5450 D024 275,000/206,000 223,000 15-45 81.0 4750 F024 360,000/270,000 292,000 20-50 81.0 5450 D028 275,000/206,000 223,000 15.45 81.0 4750 F028 360,000/270,000 292,000 20-50 81.0 5450 'All units are 2 -stage heat. NOTE: Minimum allowable temperature of mixed -air entering the heat exchanger during first -stage heating is 45 F. There is no minimum mixed -air temperature limitation during second -stage heating. For entering -air temperatures below 45 F both stages of heat must be energized together to minimize condensation issues and to ensure proper unit operation. HEATING & COOLING Product 38YCC (60 Hz) Data 38YCQ- Heat Pump 38YCC Sizes 018 thru 060 38YCQ Sizes 024 thru 048 Copyright 1997 Carrier Corporation The 38YCC and 38YCQ Outdoor Sections of Split -System Heat Pumps are designed for quiet, reliable heating during the winter and cooling during the summer. With SEER ratings from 10.0 to 11.0 and HSPF from 6.8 to 7.6, these heat pump systems provide economy of operation through energy conservation When used with components designated by the manufacturer. They recover heat for indoor comfort from outdoor air during the heating season and, by automatically reversing the refrigerant system, remove indoor heat and excess humidity during the cooling season. All models are listed with UL, c -UL, CEC, ARI, CSA-EEV, and RADCO. FEATURES/BENEFITS Electrical Range — All units are offered in single pha.,e 208-230v. The 38YCC 030 through 060 models are offered in 208/230v 3 phase and 38YCC 036 through 060 are offered in 460v 3 phase. Size Range—The 38YCC is available in 7 nominal sizes from 018 through 060 to meet the needs of residential and light commercial applications. The 38YCQ is available in 5 nominal sizes from 024 through 048 to meet the needs of the manufactured housing market. Compressor— Designed specifically for heat pump duty, with energy efficiency during heating and cooling operation. Each compressor is hermetically sealed against contamination to assure long life and dependable performance, internally Sprung (units with reciprocating compressor) and externally mounted on rubber isolators for quiet operation. Continuous compressor operation is approved down to –30°F (-34.4°C) Form 38YCC-1 PD Combination ratings .�cc nvtea V1 py. 14. ARI STANDARD, RATINGS' UNIT Cooling Heating SIZE - SERIES Seasonal Efficiency SEER High -Temp Low -Temp AND Factory- Carrier Gas SOUND Supplied Furnace or Seasonal RATING INDOOR Enhance- Standard Accessory Accessory Efficiency (dBA) UNIT TC ment Rating TDRt TXV$ TC COP TC COP HSPF F(A,B)4ANF018r 17,000 TDR 10.00 - 10.00 .17,500 3.00 11,000 2.22 7.00 F(A,B)4ANF024 18.000 TUR 10.10 - 10.10 18,000 3.12 11,400 2.26 7.20 FC4BNF024 18,000 TDR & TXV 10.10 - - 18,000 3.14 11,300 2.28 7.20 FWANA024 17,500 NONE - 10.00 10.00 17,500 3.12 11,200 2.28 7.00 FF1(A,B)NA018 17,000 TDR 10.00 - 10.00 17,500 3.02 11,000 2.22 7.00 FF1(A,B)NA024 17,800 TDR 10.20 - 10.20 17,600 3.16 11,300 2.28 7.20 FG3AAA024 17,500 NONE - 10.00 10.00 16,800 3.06 11,200 2.26 6.80 CC5A/CD5A/CD56A018 17,500 NONE - 10.00 10.00 17,000 2.94 11,000 2.18 6.80 CC5A/CD5A/CD5I3A024 17,800 NONE - 10.10 10.10 17,500 .3.08 11,200 2.24 7.00 018-30,31 CD3(A,B)A018 17,500 NONE - 10.00 10.00 17,000 2.94 11,000 2.18 6.80 CD3(A,B)A024 17,800 NONE - 10.10 10.10 17,500 3.08 11,200 2.24 7.00 CE3AA024 17.800 NONE - 10.10 10.10 17,500 3.08 11,200 2.26 7.00 78 CF5AA024 17,800 NONE - 10.10 10.10 17,500 3.10 11,300 2.26 7.20 CG5AAA024 17,800 TXV - 10.10 - 17,500 3.10 11,300 2.26 7.20 CJ5A/CK5A/CK5BA018 17,500 NONE - 10.00 10.00 17,000 3.04 11,200 2.24 6.80 CJ5A/CK5A/CK5BA024 17,800 NONE - 10.10 10.10 17,500 3.16 11,3Q0 2.26 7.00 CJ5A/CK5A/CK5BW024 17,800 NONE - 10.10 10.10 17,500 3.16 11,300 2.26 7.00 CK3BA024 17,800 NONE - 10.10 10.10 17,500 3.16 11,300 2.26 7.00 CM5A/CM5BA024 17,800 NONE -- 10.10 10.10 16,000 3.00 11,500 1 2.30 1 7.20 COILS + 58U(H,X)V060-12 VARIABLE -SPEED FURNACE CJ5A/CK5A/CK5BA024 17,500 TDR 11.00 - 16,700 3.30 10,600 2.42 7.20 9.90 CK3BA024 17,500 TDR 11.00 - 11.00 16,700 3.30 10,600 2.42 7.20 F(A.8)4ANF024t 22,600 TDR 10.00 - 10.00 22,800 3.20 13,900 2.24 7.00 F(A,B)4ANF030 22,800 TDR 10.00 - 10.00 22,800 3.22 13,900 2.26 7.00 FC413NF024 22,600 TDR & TXV 10.00 - - 22,800 3.20 14,000 2.28 7.00 FC48NF030 22,800 TDR & TXV 10.00 - - 22,800 3.22 14,000 2.30 7.00 FD3ANA024 22.000 NONE - 10.00 10.00 22,800 3.16 13,600 2.24 6.90 FD3ANA030 23,000 NONE - 10.00 10.00 22,800 3.24 14,000 2.26 7.00 FF1(A,B)NA024 22,000 TDR 10.00 - 10.00 22,800 3.18 14,000 2.24 7.00 FF1(A,B)NA030 23.000 TDR 10.00 - 10.00 22,800 3.24 14,100 2.26 7.00 FK4CNF001 23,000 TDR & TXV 11.10 - - 22,000 3.38 13,400 2.44 7.20 FK4CNF002 23,200 TDR & TXV 11.10 - - 21,000 3.40 13,500 2.46 7.00 CC5A/CD5A/CD58A024 22,400 NONE - 10.00 10.00 22,800 3.10 13,700 2.20 6.90 CC5A/CD5A/CD5BA030 22,800 NONE - 10.00 10.00 22,800 3.10 13,800 2.22 6.90 024-30, 31 CC5A/CD5A/CD5BW030 22,800 NONE - 10.00 10.00 22,800 3.10 13,800 2.22 6.90 CD3(A,B)A024 22,400 NONE - 10.00 10.00 22,800 3.10 13,700 2.20 6.90 CO3(A,B)A030 22,800 NONE - 10.00 10.00 22,800 3.10 13,800 2.22 6.90 78 CE3AA024 22,600 NONE - 10.00 10.00 22,800 3.14 13,900 2.22 6.90 CE3AA030 23,000 NONE - 10.00 10.00 22,800 3.22 14,000 2.24 7.00 CF5AA024 22,600 NONE - 10.00 10.00 22,800 3.14 13,800 2.22 6.90 CG5AA024 22.600 TXV - 10.00 - 22,800 3.14 13;900 2.26 6.90 CJ5A/CK5A/CK5BA030 22,800 NONE - 10.00 10.00 22,800 3.18 14,100 2.28 6.90 CJ5A/CK5A/CK5BW030 22,800 NONE - 10.00 10.00 22,800 3.18 14,100 2.28 6.90 CK3BA030 22,800 NONE - 10.00 10.00 22,800 3.18 14,100 2.28 6.90 CM5A/CM5BA024 22,600 NONE - 1 10.00 1 10.00 1 22,800 1 3.16 1 14,000 1 2.28 1 6.90 COILS + 58U(H,X)V060-12 VARIABLE -SPEED FURNACE CJ5A/CK5A/CK5BA030 22,800 TDR 11.00 - 11.00 22,000 3.32 13,300 2.40 7.00 CJ5A/CK5A/CK5BW030 22,800 TDR 11.00 - 11.00 22,000 3.32 13,300 2.40 7.00 CK3BA030 22,800 TDR 11.00 - - 22,000 3.32 13,300 2.40 7.00 F(A,B)4ANF030j 28,200 TDR 10.00 - 10.00 29,000 3.08 17,100 2.20 7.20 F(A,B)4ANF036 28,400 TDR 10.00 - 10.00 29,200 3.08 17,500 2.18 7.20 FC4BNF030 28,200 TDR & TXV 10.00 - - 29,000 3.08 17,100 2.20 7.20 FC4BNF036 28,400 TDR & TXV . 10.00 - - 29,200 3.08 17,500 2.18 7.20 FD3ANA030 28,000 NONE - 10.00 10.00 29,000 3.08 17,300 2.18 7.20 FF1(A,B)NA030 28,200 TDR 10.00 - 10.00 29,000 3.10 17,400 2.18 7.20 FG3AAA036 28,200 NONE - 10.00 10.00 29,000 3.08 17,200 2.20 7.20 FK4CNF001 28,200 TDR & TXV 10.50 - - 28,000 3.18 16,500 2.30 7.30 FK4CNF002 28,400 TDR & TXV 11.00 - - 28,200 3.26 16,600 2.32 7.50 FK4CNF003 28,800 TDR & TXV 11.00 - - 28,000 3.30 16,400 2.36 7.50 CC5A/CD5A/CD5BA030 27,800 NONE - 10.00 10.00 28,600 3.00 17,000 2.16 7.00 030-30, 31, CC5A/CD5A/CD58A036 28,600 NONE - 10.20 10.20 29,200 3.14 17,300 2.20 7.20 50 CC5A/CD5A/CD58W030 27,800 NONE - 10.00 10.00 28,600 3.00 17,000 2.16 7.00 CD5A/CD5BW036 CD3(A,B)A030 28,600 27,800 NONE NONE - 10.20 10.20 29.200 3.14 17,300 2.20 7.20 80 CD3(A,B)A036 28.600 NONE - - 10.00 10.20 10.00 10.20 28,600 29,200 3.00 3.14 17,000 17,300 2.16 2.20 7.00 7.20 CE3AA030 CE3AA036 28,000 28,200 NONE NONE - 10.00 10.00 29,000 3.08 17,200 2.18 7.00 CF5AA036 28,200 NONE - - 10.00 10.00 10.00 10.00 29,000 29,000 3.08 3.10 17,200 17,300 2.20 2.20 7.20 7.20 CG5AA036 CJ5A/CK5A/CK56A030 28,200 27,800 TXV NONE - 10.00 - 29,000 3.10 17,300 2.20 7.20 CJ5A/CK5A/CK5BA036 28,600 NONE - - 10.00 10.20 10.00 10.20 28,600 29,200 3.06 3.18 17,100 17,400 2.18 2.24 7.00 CJ5A/CK5A/CK58N036 CJ5A/CK5A/CK5BW030 26,600 27,800 NONE NONE - 10.00 10.00 27,200 3.18 17,400 2.24 7.20 6.80 CJ5A/CK5A/CK5BW036 28.600 NONE - - 10.00 10.20 10.00 10.20 28,600 29,200 3.06 3.18 17,100 2.18 7.00 CK313A030 27,800 NONE - 10.00 10.00 28,600 3.06 17,400 17,100 2.24 2.18 7.20 7.00 CK38A036 CM5A/CM5BA036 28,600 28,200 NONE NONE - - 10.20 10.00 10.20 29,200 3.18 17,400 2.24 7.20 1 1 10.00 1 29,000 1 3.16 1 17,400 1 2.22 7.20 .�cc nvtea V1 py. 14. HEATING & COOLING Product Data Copyright 1999 Carrier Corporation FA4A FB4A FC4B Direct Expansion Fan Coil Sizes 018 thru 070 Air Handling Technology At Its Finest Carrier's FMA, FB4A, and FC413 direct expansion multipoise fan coils are designed to cover a wide range of air handling requirements. They are compact and ready to fit where needed — in the basement, crawl space, attic, utility room, or closet. All units come with solid-state fan controls, 1 -in. insulation with an R value of 4.2, super -quiet multispeed motors, and fully wettable coils. Units can accommodate factory- or field -installed heaters from 3- to 30 -kw. The FA4A is a residential new construction (RNC) model available with or without factory -installed disconnects. It has an embossed galvanized insulated steel casing, 2 -speed motor in 018 through 036 sizes and 3 -speed motor in 042 through 060 sizes. The FA4A is equipped with an AccuRate A metering device. The F134A is the standard of Carrier fan coils. It comes in a prepainted galvanized steel casing with 1 -in. insulation and has a 3 -speed motor in the full range of sizes 018 through 070. All units are equipped with an AccuRater® metering device and are also shipped with a cleanable, permanent framed filter. The FC4B is a deluxe design fan coil incorporating all the features found in the FB4A. In addition, it has a hard shut-off thermostatic expansion valve (TXV) metering device with internal check valves for reverse -(low bypass capability. The FC413 is available in sizes 024 through 070. Form FA4A-8PD C<=0 HEATING & COOLING Product 48GX/48GXN Data Single -Package Gas Heating/Electric Cooling Units Copyright 2000 Carrier Corporation 2 to 5 Nominal Tons Single -Package Rooftop Products with Energy -Saving Features. • Direct Spark Ignition • Low Sound Levels • Up to 81% AFUE • 12 SEER Available Options One-piece heating and cooling units with low sound levels, easy installation, low maintenance, and dependable performance. Easy Installation Factory -assembled package is a compact, fully self-contained, combination gas heating/electric cooling unit that is pre -wired, pre - piped, and pre -charged for minimum installation expense. Thcse units arc available in a variety of standard and optional heating/ cooling size combinations with voltage options to meet residential and light commercial requirements. Units are lightweight and install easily on a rooftop or at ground level. The high tech composite basepan eliminates rust problems associated with ground level applications. Convertible duct configuration Unit is designed for easy use in either downflow or horizontal applications. Each unit is easily converted from horizontal to downflow with addition of two accessory duct covers. Efficient operation hligh-efficiency design with SEER (Seasonal Energy Efficiency Ratios) of 12.0 and AFUE (Annual Fuel Utilization Efficiency) ratings as high as 81 %. Form 48GX-2PD UNIT 48GX lll" A l lNG CAPACI TIES AND EI4'1�'I HEATING INPUT CILNCIE,S 024040 (Btuh) OUTPUT CAPACITY 030040 4000(Btuh) TEMPERATURE 024060 .0 RISE RANGE (�F 030060 31,000 036060 46,000 20-50 042060 60,000 03609p 46,000 35-65 46,000 35-65 042090 88,000 47,000 25-55 048090 90,000 70,000 15-45 060090 90,000 71,000 0 45-75 048115 90,00 70,000 35-65 060115 70,000 25-55 048130 115,000 060130 92,000 25'55 130,000 35-65 104,000 103,00o 40-70 AFUE _ LEGEND Annual Fuel Utilization Efficiency NOTE: Before purchasing this appliance, r and efficiency information available from read important energy cost your retailer. Gat�tet Cor o� 9�. o� VL 09001 gA2�'ry us 4 2 AFUE (%) 8� 80.0 77-88 80.1 78.7 78.7 79._9 79.9 78.6 78.6 81.1 80.3 ed Model number nomenclature 48GX - 024 Model No. 48GX – Single Package Gas Healing/ Electric Cooling Low NOx Indicator - – Std. unit N – Low NOx Nominal Cooling Capacity (Tons) 024 – 2 030 – 2-1/2 036 – 3 042 – 3-1/2 048 – 4 060 – 5 Heat Level (Btuh) 040– 40,000 060– 60,000 090– 90,000 115 – 115,000 130– 130,000 AL — Aluminum CU — Copper ARl* capacities 040 3 .0 1 AD Options – Wire Grille AD – Louvered Grille BT – Wire Grille and vinyl -coated condenser coil fin XT – Louvered Grille and vinyl -coated condenser coil fin CC – Wire Grille, AL evaporator and CU/CU condenser coil CU – Wire Grille, CU/CU evaporator and condenser coils AC – Louvered Grille, AL evaporator and CU/CU condenser coil AU – Louvered Grille, CU/CU evaporator and condenser coils Packaging Series V -Ph -Hz 3 – 208/230-1-60 5 – 208/230-3-60 6 –460-3-60 COOLING CAPACITIES AND EFFICIENCIES UNIT NOMINAL STANDAnD NET COOLING SOUND 48GX 'IONS CFM CAPACIIIES SCCIII IIAIIN(l l (Btuh) (Bets) 024040 024060 2 800 24,000 12.0 7.2 030040 036060 21/;? 1000 30,000 12.0 7.2 036060 • 036090 3 1200 35,000 12.0 7.4 042060 042090 31h 1400 42,000 12.0 7.4 048090 048115 4 1450 48,000 12.0 8.0 048130 060090 060115 5 1750 58,000 12.0 7.8 060130 LEGEND Bels — Sound Levels (1 bel = 10 decibels) db — Dry Bulb SEER — Seasonal Energy Efficiency Ratio wb — Wet Bulb 'Air Conditioning & Refrigeration Institute tRated in accordance with U.S. Government DOE (Department of Energy) test procedures and/or ARI Standard 210/240-89. tTested in accordance with ARI Standard 270-95 (not listed in ARI). NOTES: 1. Ratings are net values, reflecting the effects of circulating fan heat. Ratings are based on: Cooling Standard: 80'F db, 67'F wb indoor entering -air tempera- tuie and 95'F db outdoor entering -air temperature. 2. Before purchasing this appliance, read important energy cost and efficiency information available from your retailer. C Environmental Control SvstE:t' s T7300AAC107300A-F Programmable Commercial Thermostats and Subbases The 1'7300 thermostats and 07300 subbases control commercial single zone heating, ventilating and air conditioning (HVAC) equipment. a E , �•'c JaL4 �� �,� ,�« '�� Ry�.' • One model can be used for single -stage and multi -stage applications. • 7 -day programming --2 ocr..upied/unoccupied periods per day. • Individual temperature set points for: —Occupied heat and cool. --Unoccupied heal and cool. • Proportional plus integral control—eliminates temperature fluctuations and thermostat tampering. • Intelligent Recovery"—aulomatically optimizes start time depending on building load. • Intelligent Fan"4—energizes fan only on call for heating or cooling during unoccupied periods. • Automatic heal/cool changeover. • Locking set points and schedules eliminate tampering. • One thermostat can be used for heal pump or conventional cor drol. • Optional remote sensors and override capability. • Configurable to vary fan and reversing valve operation. • Use will) 07300 to interface with C7400/W7459 econo- mizer system for total integration of rooftop control. • Convenient overrides allow temporary changes. • Battery backup saves program and maintains clock time during power failure. ELECTRICAL RATINGS: Input Voltage -20 to 30 Vac, 50/60 Hz. OUTPUT RELAY CONTACT RATINGS AT 33 VAC: _Relay_ _ Fan (G) Running Amps (Max.) ----- 1.6--- - Inrush Amps (Max.) ---- 3.5 —...----• _ Fleal 1.6 3.5___ Cool 1.6 7.5___ Auxiliary (Economizer) _ 1.6 _ _ 3.5 TEMPERATURE RANGES: Ambient Temperature Range -40 F 10 110 F [4 C to 43 C]. Set Point Range (prograrnmable)-45 F to 95 F [7 C to 35 C]. DIMENSIONS (T7300 with 07300 Subbase): 4-5/8 in. [118 mm] high, 8 [204 mm] wide, 1-3/4 [41 mm] deep. T7300/07300 System Component Selection • Below are lists of syslern components and optional compo- nents for single zone system control. • Use the flow charts that follow to select the appropriate components. • See order table on page 334 for thermostat/subbase appli- cations and ordering information for system components. • Refer to model number index for page numbers of product descriptions and ordering information for optional com- ponents. SYSTEM COMPONENTS: Model Number Description/Application Thermostats _T730OA 1005 Fully configurable programmable commercial thermostat. _ - T7300A1054 Full configurable programmable commercial thermostat with international symbols faceplate. - 17300B1003 Fully configurable programmable commercial thermostat with 3 Hour Occupied button in cover. 7730001001 Fully WnfigUrable programmable commercial thermostat, with limited access cover. Cover includes Set Fleal, Set _ Cool, Warmer, Cooler and Occupied/Unoccupied buttons and programming instructions. Subbases (nll subbases include two annunciation LEDs and remote sensor capability.) 07300A1000 •1-1-leal/1-Cool syslems. Wo system or fan switching. 07300AI018 *Configurable for 1-Fleal/1-Cool to 2-Fleal/2-Cool systems. *No system or fan switching. •Auxiliary relay ocrir)ut. Y,/: ' lI°.%�, tri? -7 I00E5 rl�5 �F{•I . Gl�/�-iGt~,.:] ✓� r° ru Q 7� I d 6 rLA/2'II �J I� �' continued next pace 331 MAD IINE,' �IIIIII�I�III�IIIIIIIIIIII �� CERTIFICATE OF COMPLIANCE 51 Desert Sands Unified School District `-- - 1E----�-- 47950 Dune Palms Road �4 Q BERMUDA DUNES r Date 5/20/03 La Quinta, CA 92253 V) RANCHO MIRAGE No. 24438 (760) 771-8515 INDIAN WELLSDESERT ��? PALM LA QUINTA J�OINDIO `� Owner Chapman Golf Development APN # 770-190-001 Address 78505 Old Ave 52 Jurisdiction La Quinta City La Quinta . Zip 92253 Permit # 0305-140 Tract # 28470-1 Study Area Type Commercial Addition No. of Units 1 Lot # No. Street S.F. Lot # No. Street S.F. Unit 1 90 78164 Avenue 52 152 Unit 6 Unit 2 Unit 7 Unit 3 Unit 8 Unit 4 Unit 9 Unit 5 Unit 10 Comments Palmer Restaurant At the present time, the Desert Sands Unified School District does not collect fees on garages/carports, covered patios/walkways, residential additions under 500 square feet, detached accessory structures (spaces that do not contain facilities for living, sleeping, cooking, eating or sanitation) or replacement mobile homes. It has been determined that the above-named owner is exempt from paying school fees at this time due to the following reason: Commercial Addition EXEMPTION NOT APPLICABLE This certifies that school facility fees imposed pursuant to Education Code Section 17620 and Government Code 65995 Et Seq. in the amount of $0.34 X 152 S.F. or $51.68 have been paid for the property listed above and that building permits and/or Certificates of Occupancy for this square footage in this proposed project may now be issued. Fees Paid By Cash - Richard Wasserman Check No. Name on the check, Telephone 760/578-1405 Funding Commercial By Dr. Doris Wilson Superintendent Fee collected /exempted by Sharon McGilvrey $51.68 1$0.00 /1 /7 / kPayment Recd • Over/Under Signature NOTICE: Pursuant to Government Code Section 66020(d)(1), t is wil erve to notify you that the 90 -day approval period in which you may protest the fees or other payment identified above will begin to run from the date on w ' h the building or installation permit for this project is issued, or from the date on which those amounts are paid to the District(s) or to another public entity authorized to collect them on the Districtfs) behalf, whichever is earlier. NOTICE: This Document NOT VALID if Duplicated Embossed Original - Building Department/Applicant Copy - Applicant/Receipt Copy - Accounting r IY�INININN =2IE Date 1/14/03 No. 24025 CERTIFICATE OF COMPLIANCE Desert Sands Unified School District •47950 Dune Palms Road La Quinta, CA 92253 (760) 771-8515 Owner Chapman Golf Development Address 78505 Old Ave 52 City La Quinta Zip 92253 Tract # 28470-1 Type Commercial Lot # Unit 1 90 Unit 2 Unit 3 Unit 4 Unit 5 No. Street 78164 Avenue 52 Comments Palmers's Restaurant. S.F. 7561 Unit 6 Unit 7 Unit 8 Unit 9 Unit 10 q�J�FiEDsC. �a!N o Q BERMUDA DUNES Cn RANCHO MIRAGE INDIAN WELLS PALM DESERT ,y LA QUINTA��--11� �3RINDAlO yJ APN # 770-190-001 Jurisdiction La Quinta Permit # Study Area No. of Units 1 Lot # No. Street S.F. At the present time, the Desert Sands Unified School District does not collect fees on garages/carports, covered patiostwalkways, residential additions under 500 square feet, detached accessory structures (spaces that do not contain facilities for living, sleeping, cooking, eating or sanitation) or replacement mobile homes. It has been determined that the above-named owner is exempt from paying school fees at this time due to the following reason: EXEMPTION NOT APPLICABLE This certifies that school facility fees imposed pursuant to Education Code Section 17620 and Government Code 65995 Et Seq. in the amount of $0.34 X 7,561 S.F. or $2,570.74 have been paid for the property listed above and that building permits and/or Certificates of Occupancy for this square footage in this proposed project may now be issued. Fees Paid By CC/PalmDesertNationalBank-Richard Check No. 085052 Name on the check Telephone 760/578-1405 Funding Commercial By Dr. Doris Wilson Superintendent Fee collected /exempted by Monica Guillen $2,570.74 $0.00 Payment Recd Over/Under Signature NOTICE: Pursuant to Government Code Section 66020(d)(1), this will serve to notify you that the 90 -day approval period in which you may protest the fees or other payment identified above will begin to run from the date on which the building or installation permit for this project is issued, or from the date on which those amounts are paid to the District(s) or to another public entity authorized to collect them on the District('s) behalf, whichever is earlier. NOTICE: This Document NOT VALID if,Duplicated Embossed Original - Building Department/Applicant Copy - Applicant/Receipt Copy - Accounting