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PGA West Legends - TR 28838 (Plans 1-6) Title 24 - Updated to 1998 Standards
SICK MAUPH) TITLE 24 ENERGY CALCULATIONS, INC. 7544 E. SADDLEHILL TRAIL, ORANGE, CA 92869 (714) 771-1507 Owner: Rielly Homes 23 Corporate Plaza, #245 Newport Beach, CA 92660 Designer: Bassenian/Lagoni Architects 2031 Orchard Drive, #100 Newport Beach, CA 92660 Project: "PGA West" Plans 1,2,3,4,5 & 6 La Quinta, California September 17, 1998 Revised: 11 /24/98 (Builder Changes) Revised: 10/27/99 (Update to 1998 Standards) RECEIVED DEC 0 7 1999 RIELLY HOMES, Ili G CITY OF LA QUINTA BUILDING & SAFETY DEPT, APPROVED FOR CONSTRUCTION Job No. 097-98085 �� BY�`� GATE STATEMENT OF CONFORMANCE This Calculation contains all the building features and performance specifications required for compliance by the California Code of Regulations Title 24, Part 1, Administrative Requirements; Part 6, Building Energy Efficiency Standards; and portions of Title 20, Appliance Efficiency Standards. When these features are incorporated into the architectural plans the design will be in compliance with the 1998 Energy Efficiency Standards as they apply in Climate Zone 15 , using MICROPAS5 Version 5.00, a California Energy Commission approved computer performance method program. Certified Energy Analyst Rick Maurer r r MR 98-90-528 r r R 98-90-1 36 CABEC California Association of Building Energy Consultants Prepared By: Rick Maurer Energy Plans Examiner Certificate No. RES-88-1006 and NRE-88-1052 California State License No. 502290 C20 ** SUMMARY SHEET ** Proiect: Rielly Homes -- La Quinta, CA Zone: 15 "PGA West" Plan 1 Wall Insulation: R-21 (Min. 2X6 Walls Required) Ceiling Insulation: R-30 Raised Floor Insulation: n/a Slab Edge Insulation: None Glazing Type: All glass will be dual pane with bronze tint, except the hinged doors which are clear. (SEE NOTE #4 BELOW) Shading Devices: No shading devices required. Hard Surface Flooring: None Required Minimum Furnace AFUE: 80% AFUE Minimum Heating Capacity: 54,680 BTUH For The Entire House Minimum A/C SEER: 12.0 SEER A/C Tonnage: Living Zone = 3.0 Tons (Min.Sens. =24,320 @ 115°) Sleeping Zone = 3.0 Tons (Min.Sens.=20,879 @ 115°) Duct Insulation: R-6.0 Note(s): 1) The water heater will require an external insulation blanket of R-12 or greater. 2) This plan requires R-4 or greater insulation on .75 inch or larger hot water main lines or recirculating lines. This is in addition to the insulation required by the mandatory measures. 3) The water heater for this house can have a recirculating pump with a thermostatic controller and time clock, or a hot water demand type recirculating system. 4) All glass will be dual pane with bronze tint and a solar heat gain coefficient of .51 or less, except the -hinged doors which are clear with a SHGC of .65 or less. * All windows will have vinyl frames with an NFRC U-value of .51 or less with the exception of the following, which will have metal frames and an NFRC U-value of .65 or less. ** Rear Dining Glass ** Rear Great Room Glass ** Rear M.Bedroom Glass * French doors will be metal clad over wood with .59 default NFRC U-value and a .65 default SHGC. * Front entry doors will have solid wood frames with .55 default NFRC U-value and a .65 default SHGC. ** SUMMARY SHEET ** Proiect: Rielly Homes -- La Quinta, CA Zone: 15 "PGA West" Plan 2 Wall Insulation: R-21 (Min. 2X6 Walls Required) Ceiling Insulation: R-30 Raised Floor Insulation: n/a Slab Edge Insulation: None Glazing Type: All glass will be dual pane with bronze tint, except the hinged doors which are clear. (SEE NOTE #4 BELOW) Shading Devices: No shading devices required. Hard Surface Flooring: None Required Minimum Furnace AFUE: 80% AFUE Minimum Heating Capacity: 66,580 BTUH For The Entire House Minimum A/C SEER: 12.0 SEER A/C Tonnage: Living Zone = 3.5 Tons (Min.Sens. =28,253 @ 1150) Sleeping Zone = 3.0 Tons (Min.Sens.=19,426 @ 115°) Casita = 2.0 Tons (Min.Sens.=8,504 @ 115°) Duct Insulation: R-6.0 Note(s): 1) The water heater will require an external insulation blanket of R-12 or greater. 2) This plan requires R-4 or greater insulation on .75 inch or larger hot water main lines or recirculating lines. This is in addition to the insulation required by the mandatory measures. 3) The water heater for this house can have a recirculating pump with a thermostatic controller and time clock, or a hot water demand type recirculating system. 4) All glass will be dual pane with bronze tint and a solar heat gain coefficient of .51 or less, except the hinged doors which are clear with a SHGC of .65 or less. * All windows will have vinyl frames with an NFRC U-value of .51 or less with the exception of the following, which will have metal frames and an NFRC U-value of .65 or less. ** Rear M.Bedroom Glass Door ** Rear Living & Dining Glass * French doors will be metal clad over wood with .59 default NFRC U-value and a .65 default SHGC. * Front entry doors will have solid wood frames with .55 default NFRC U-value and a .65 default SHGC. a ** SUMMARY SHEET ** Project: Rielly Homes -- La Quinta, CA Zone: 15 "PGA West" Plan 3 Wall Insulation: R-21 (Min. 2X6 Walls Required) Ceiling Insulation: R-38 Raised Floor Insulation: n/a Slab Edge Insulation: None Glazing Type: All glass will be dual pane with bronze tint, except the hinged doors which are clear. (SEE NOTE #4 BELOW) Shading Devices: No shading devices required. Hard Surface Flooring: None Required Minimum Furnace AFUE: 80% AFUE Minimum Heating Capacity: 80,165 BTUH For The Entire House Minimum A/C SEER: 12.0 SEER A/C Tonnage: Living Zone = 4.0 Tons (Min.Sens. =32,714 @ 115°) Sleeping Zone = 3.5 Tons (Min.Sens. =28,218 @ 1150) Casita = 2.0 Tons (Min.Sens.=8,971 @ 1150) Duct Insulation: R-6.0 Note(s): 1) The water heater will require an external insulation blanket of R-12 or greater. 2) This plan requires R-4 or greater insulation on .75 inch or larger hot water main lines or recirculating lines. This is in addition to the insulation required by the mandatory measures. 3) The water heater for this house can have a recirculating pump with a thermostatic controller and time clock, or a hot water demand type recirculating system. 4) All glass will be dual pane with bronze tint and a solar heat gain coefficient of .51 or less, except the hinged doors which are clear with a SHGC of .65 or less. * All windows will have vinyl frames with an NFRC U-value of .51 or less with the exception of the following, which will have metal frames and an NFRC U-value of .65 or less. ** Rear M.Bedroom Glass Door ** Great Room Glass Doors ** 10x9 Great Room Windows * French doors will be metal clad over wood with .59 default NFRC U-value and a .65 default SHGC. * Front entry doors will have solid wood frames with .55 default NFRC U-value and a .65 default SHGC. 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(SEE NOTE #4 BELOW) Shading Devices: No shading devices required. Hard Surface Flooring: None Required Minimum Furnace AFUE: 80% AFUE Minimum Heating Capacity: 96,900 BTUH For The Entire House Minimum A/C SEER: 12.0 SEER A/C Tonnage: Living Zone = 5.0 Tons (Min.Sens.=42,041 @ 115°) Sleeping Zone = 4.0 Tons (Min.Sens. =32,238 @ 115°) Casita = 2.0 Tons (Min.Sens. =8,527 @ 115°) Duct Insulation: R-6.0 Note(s): 1) The water heater will require an external insulation blanket of R-12 or greater. 2) This plan requires R-4 or greater insulation on .75 inch or larger hot water main lines or recirculating lines. This is in addition to the insulation required by the mandatory 3) measures. The water heater for this house can have a recirculating pump with a thermostatic controller and time clock, or a hot water demand type recirculating system. 4) All glass will be dual pane with bronze tint and a solar heat gain coefficient of .51 or less, except the hinged doors which are clear with a SHGC of .65 or less. * All windows will have vinyl frames with an NFRC U-value of .51 or less with the exception of the following, which will have metal frames and an NFRC U-value of .65 or less. ** Rear M.Bedroom Glass ** Rear Great Room Glass ** All Nook Glass * French doors will be metal clad over wood with .59 default NFRC U-value and a .65 default SHGC. * Front entry doors will have solid wood frames with .55 default NFRC U-value and a .65 default SHGC. MANDATORY MEASURES CHECKLIST: RESIDENTIAL (Page 1 of 2) MF-1R Note: Lowrise residential buildings subject to the Standards must contain these measures regardless of the compliance approach used. Items marked with an asterisk (') may be superseded by more stringent compliance requirements listed on the Certifcate of Compliance. When this checklist is incorporated into the permit documents, the features noted shall be considered by all parties as minimum component performance specifications for the mandatory measures whether they are shown elsewhere in the documents or on this checklist only. Instructions: Check or initial applicable boxes when completed or enter N/A if not applicable. DESCRIPTION DESIGNER ENFORCENfI T Building Envelope Measures: ' §I50(a): Minimum R-19 ceiling insulation. I ✓ § 150(b): Loose fill insulation manufacturer's labeled R-Value. ' § 150(c): Minimum R-13 wall insulation in wood framed walls or equivalent U-value in metal frame walls (does not apply to exterior mass walls). ' § 150(d): Minimum R-13 raised floor insulation in framed floors. § 150(1) : Slab edge insulation - water absorption rate no greater than 0.311%, water vapor transmission rate no greater than 2.0 perm/inch. N/A § 118: Insulation specified or installed meets insulation quality standards. Indicate type and form. §116-17: Fenestration Products, Exterior Doors, and Infiltrabon/Exfiltration Controls 1. Doors and windows between conditioned and unconditioned spaces designed to limit air leakage. 2. Fenestration products (except field-fabricated)have label with certified U-value, certified Solar Heat / Gain Coefficient (SHGC), and infiltration certification. 3. Exterior doors and windows weatherstripped; all joints and penetrations caulked and sealed. § 150(g): Vapor barriers mandatory in Climate Zones 14 and 16 only. § 150(f): Special infiltration barrier installed to comply with 151 meets Commission quality standards. § 150(e): Installation of Fireplaces, Decorative Gas Appliances and Gas Logs. 1. Masonry and factory -built fireplaces have: a. Closeable metal or glass door b. Outside air intake with damper and control c. Flue damper and control / V 2. No continuous burning gas pilot lights allowed. Space Conditioning, Water Heating and Plumbing System Measures: § 110-§ 113: HVAC equipment, water heaters, showerheads and faucets certified by the Commission. § 150(h): Heating and/or cooling loads calculated in accordance with ASHRAE. SMACNA or ACCA. § 150(i): Setback thermostat on all applicable heating and/or cooling systems. I ✓ § I500): Pipe and tank insulation 1. Storage gas water heaters rated with an Energy Factor less than 0.58 must be externally wrapped with insulation having an installed thermal resistance of R-12 or greater. 2. First 5 feet of pipes closest to water heater tank, non -recirculating systems, insulated (R-4 or greater) 3. Back-up tanks for solar system, unfired storage tanks, or other indirect hot water tanks have R-12 external insulation or R<16 combined intemal/external insulation. 4. All buried or exposed piping insulated in recirculating sections of hot water systems. 5. Cooling system piping below 55' F insulated. 6. Piping insulated between heating source and indirect hot water tank. Julv 1, 1999 MANDATORY MEASURES CHECKLIST: RESIDENTIAL (Page 2 of 2) MF-1R Note: Lowrise residential buildings subject to the Standards must contain these measures regardless of the compliance approach used. Items marked with an asterisk (•) may be superseded by more stringent compliance requirements listed on the Certificate of Compliance. When this checklist is incorporated into the permit documents, the features noted shall be considered by all parties as minimum component performance specifications for the mandatory measures whether they are shown elsewhere in the documents or on this checklist only. Instructions: Check or initial applicable boxes when completed or enter N/A if not applicable. DESCRIPTION DESIGNER ENFORCEMENT Space Conditioning, Water Heating and Plumbing System Measures: (continued) ' §150(m): Ducts and Fans 1. All ducts and plenums constructed, installed, insulated, fastened, and sealed to comply with the ICBO 1997 UMC sections 601 and 603, ducts insulated to a minimum installed R-4.2 or ducts enclosed entirely within conditioned space. Openings shall be sealed with mastic, tape, aerosol sealant or other duct closure system that meets the applicable requiremetns of UL181, UL181A, or UL18113 and other applicable specified tests for longevity given in §150(m).. 2. Exhaust fan systems have back draft or automatic dampers. % 3. Gravity ventilating systems serving conditioned space have either automatic or readily accessible, V manually operated dampers. § 114: Pool and Spa Heating Systems and Equipment. 1. System is certified with 78% thermal efficiency, on -off switch, weatherproof operating instructions, no electric resistance heating and no pilot light. 2. System is installed with: a. At least 36" of pipe between filter and heater for future solar heating. b. Cover for outdoor pools or outdoor spas. 3. Pool system has directional inlets and a circulation pump time switch. § 115: Gas fired central furnaces. pool heaters, spa heaters or household cooking appliances have no continuously burning pilot light. (Exception: Non-clectrical cooking appliances with pilot < 150 Btwhr) i/ f I Lighting Measures: §150(k)l.: Luminaires for general lighting in kitchens shall have lamps with an efficacy of40 lumens/watt or greater for general lighting in kitchens. This general lighting shall be controlled by a switch on a readily accessible lighting control panel at an entrance to the kitchen. § 150(k)2.: Rooms with a shower or bathtub must either have at least one luminaire with lamps with an f efficacy of 40 lumensAvatt or greater switched at the entrance to the room or one of the alternatives to (4 this requirement allowed in § 150(k)2.; and recessed ceiling fixtures are IC (insulation cover) approved. 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Rielly Homes - Plan #1 Date..10/27/99 13:56:35 MICROPAS5 v5.00 File-RLLY3ITS Wth-CTZ15S92 Program -FORM CF-lR User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #1 COMPLIANCE STATEMENT 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, and the administrative regulations to implement them. This certificate has been signed by the individual with overall design responsibility. When this certificate of compliance is submitted for a single building plan to be built in multiple orientations, any shading feature that is varied is indicated in the Special Features Modeling Assumptions section. DESIGNER or OWNER Name.... Company. Rielly Homes Address. 23 Corporate P1azaDr,#245 Newport Beach, CA 92660 Phone... (949) 719-4975 License. Signed.. date ENFORCEMENT AGENCY Name.... Title... Agency.. Phone... Signed.. date DOCUMENTATION AUTHOR Name.... Rick Maurer Company. Rick Maurer Title 24 Address. 7544 E Saddlehill Trail Orange, CA 92869 Phone... 714-771-1507 Signed.. fi 2� 917 6 d to )MPUTER METHOD SUMMARY Page 1 C-2R :oject Title.......... Rielly Homes - Plan #1 Date..10/27/99 13:56:35 ******* .oject Address........ PGA West (Job #097-98085) La Quinta, California *v5.00* >cumentation Author... Rick Maurer ******* Rick Maurer Title 24 7544 E Saddlehill Trail Orange, CA 92869 714-771-1507 L ' t Z ne 15 Building Permit Plan Check Date Field C ec Date ima e o ........... .)mpliance Method...... MICROPAS5 v5.00 for 1999 Standards by Enercomp, Inc. MICROPAS5 v5.00 File-RLLY3ITS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #1 MICROPAS5 ENERGY USE SUMMARY Energy Use Standard Proposed Compliance (kBtu/sf-yr) Design Design Margin Space Heating.......... 3.63 4.17 -0.54 Space Cooling.......... 44.01 36.36 7.65 Water Heating.......... 12.58 12.61 -0.03 North Total 60.22 53.14 7.08 Space Heating.......... 3.63 4.41 -0.78 Space Cooling 44.01 39.81 4.20 Water Heating.......... 12.58 12.61 -0.03 East Total 60.22 56.83 3.39 Space Heating.......... 3.63 4.11 -0.48 Space Cooling.......... 44.01 36.70 7.31 Water Heating.......... 12.58 12.61 -0.03 South Total 60.22 53.42 6.80 Space Heating.......... 3.63 3.83 -0.20 Space Cooling.......... 44.01 40.10 3.91 Water Heating.......... 12.58 12.61 -0.03 West Total 60.22 56.54 3.68 *** Building complies with Computer Performance *** GENERAL INFORMATION Conditioned Floor Area..... Building Type .............. Construction Type ......... Building Front Orientation. Number of Dwelling Units... Number of Building Stories. Weather Data Type.......... Floor Construction Type.... 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Rielly Homes - Plan #3 Date..10/27/99 13:57:18 MICROPAS5 v5.00 File-RLLY33TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #3 ZONE 'SLEEPING' Floor Area ....................... 1510 sf Volume ........................... 16610 cf Description Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 11442 5536 Glazing Conduction ............... 6927 6198 Glazing Solar .................... n/a 8505 Infiltration ..................... 6283 4234 Internal Gain .................... n/a 0 Ducts ............................ 2465 2447 Sensible Load .................... 27117 26920 Latent Load ...................... n/a 8076 Minimum Zone Load 27117 34996 HVAC SIZING Page 7 HVA( Project Title.......... Rielly Homes - Plan #3 Date..10/27/99 13:57:1E MICROPAS5 v5.00 File-RLLY33TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #3 GENERAL INFORMATION FloorArea ................. Volume.. ..... ............ Front Orientation.......... Sizing Location............ Latitude... .... ........ Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range ............... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 2818 sf 31660 cf Front Facing LA QUINTA 33.7 degrees 32 F 70 F 112 F 78 F 34 F No Yes Yes 0.30 HEATING AND COOLING LOAD SUMMARY 180 deg (S) Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 21710 10106 Glazing Conduction ............... 21891 19587 Glazing Solar .................... n/a 17073 Infiltration ..................... 12459 8375 Internal Gain .................... n/a 3000 Ducts ............................ 5606 5814 Sensible Load .................... 61666 63956 Latent Load ...................... n/a 19187 Minimum Total Load 61666 83143 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING Page 8 HVA Project Title.......... Rielly Homes - Plan #3 Date..10/27/99 13:57:1 MICROPAS5 v5.00 File-RLLY33TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #3 HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE ILIVING11 FloorArea ....................... 985 sf Volume ........................... 11820 cf Heating Description (Btuh) Opaque Conduction and Solar...... 6470 Glazing Conduction ............... 13336 Glazing Solar .................... n/a Infiltration ..................... 4471 Internal Gain .................... n/a Ducts ............................ 2428 Sensible Load .................... 26704 LatentLoad ...................... n/a Minimum Zone Load 26704 ZONE 'LIVING2' Floor Area ....................... 323 sf Volume ........................... 3230 cf Description Opaque Conduction and Solar...... Glazing Conduction ............... Glazing Solar .................... Infiltration ..................... Internal Gain .................... Ducts ............................ Sensible Load .................... Latent Load ...................... Minimum Zone Load Heating (Btuh) 3798 1628 n/a 1706 n/a 713 7845 n/a 7845 Cooling (Btuh) 2980 11932 7484 3013 2250 2766 30426 9128 39553 Cooling (Btuh) 1590 1457 983 1129 750 591 6499 1950 8449 HVAC SIZING Page 9 HVAC Project Title.......... Rielly Homes - Plan #3 Date..10/27/99 13:57:1E MICROPAS5 v5.00 File-RLLY33TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #3 ZONE 'SLEEPING' Floor Area ....................... 1510 sf Volume ........................... 16610 cf Description Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 11442 Glazing Conduction ............... 6927 Glazing Solar .................... n/a Infiltration ..................... 6283 Internal Gain .................... n/a Ducts ............................ 2465 Sensible Load .................... 27117 Latent Load ...................... n/a Minimum Zone Load 27117 5536 6198 8606 4234 0 2457 27031 8109 35140 HVAC SIZING Page 10 HVAC Project Title.......... Rielly Homes - Plan #3 Date..10/27/99 13:57:18 MICROPAS5 v5.00 File-RLLY33TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #3 GENERAL INFORMATION FloorArea ................. Volume.. ..... ............ Front Orientation.......... Sizing Location............ Latitude... .... ........ Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range . ...... ...... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... 2818 sf 31660 cf Front Facing 270 LA QUINTA 33.7 degrees 32 F 70 F 112 F 78 F 34 F No Yes Yes 0.30 HEATING AND COOLING LOAD SUMMARY deg (W) Heating Cooling Description (Btuh) (Btuh) Opaque Conduction and Solar...... 21710 10106 Glazing Conduction ............... 21891 19587 Glazing Solar .................... n/a 20949 Infiltration ..................... 12459 8375 Internal Gain .................... n/a 3000 Ducts ............................ 5606 6202 Sensible Load .................... 61666 68219 Latent Load ...................... n/a 20466 Minimum Total Load 61666 88685 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING Page 11 HVAC Project Title.......... Rielly Homes - Plan #3 Date..10/27/99 13:57:18 MICROPAS5 v5.00 File-RLLY33TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #3 HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE ILIVING11 Floor Area ....................... 985 sf Volume ........................... 11820 cf Heating Description (Btuh) Opaque Conduction and Solar...... Glazing Conduction ............... Glazing Solar .................... Infiltration ..................... Internal Gain .................... Ducts ............................ Sensible Load .................... Latent Load ...................... Minimum Zone Load ZONE 'LIVING2' 6470 13336 n/a 4471 n/a 2428 26704 n/a 26704 Floor Area ....................... 323 sf Volume ........................... 3230 cf Heating Description (Btuh) Opaque Conduction and Solar...... Glazing Conduction ............... Glazing Solar .................... Infiltration ..................... Internal Gain .................... Ducts............................ Sensible Load .................... Latent Load ...................... Minimum Zone Load 3798 1628 n/a 1706 n/a 713 7845 n/a 7845 Cooling (Btuh) 2980 11932 9043 3013 2250 2922 32141 9642 41783 Cooling (Btuh) 1590 1457 3175 1129 750 810 8910 2673 11583 HVAC SIZING Page 12 HVAC Project Title.......... Rielly Homes - Plan #3 Date..10/27/99 13:57:18 MICROPAS5 v5.00 File-RLLY33TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #3 ZONE 'SLEEPING' Floor Area ....................... 1510 sf Volume ........................... 16610 cf Description Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 11442 5536 Glazing Conduction ............... 6927 6198 Glazing Solar .................... n/a 8731 Infiltration ..................... 6283 4234 Internal Gain .................... n/a 0 Ducts ............................ 2465 2470 Sensible Load .................... Latent Load ...................... 27117 n/a 27168 8151 Minimum Zone Load 27117 35319 CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 1 CF-11 Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:4C ******* Project Address........ PGA West (Job #097-98085) La Quinta, California *v5.00* Documentation Author... Rick Maurer ******* Building Permit Rick Maurer Title 24 7544 E Saddlehill Trail Plan Check Date Orange, CA 92869 714-771-1507 Field Check Date Climate Zone. ..... 15 Compliance Method...... MICROPAS5 v5.00 for 1999 Standards by Enercomp, Inc. MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program -FORM CF-lR User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 GENERAL INFORMATION Conditioned Floor Area..... 3222 sf Building Type .............. Single Family Detached Construction Type ......... New Building Front Orientation. Cardinal - N,E,S,W Number of Dwelling Units... 1 Number of Stories.. ........ 1 Floor Construction Type Slab On Grade Glazing Percentage......... 32.9 % of floor area Average Glazing U-value.... 0.56 Btu/hr-sf-F Average Glazing SHGC....... 0.52 BUILDING SHELL INSULATION Component Frame Cavity Sheathing Total Assembly Type Type R-value R-value R-value U-value Location/Comments Wall Wood R-21 R-n/a R-21 0.059 Front Wall, Gar. Wall Left Wall, Back Wall Right Wall Roof Wood R-30 R-n/a R-30 0.031 Vented Attic Door Wood R-0 R-n/a R-0 0.330 Garage Door S1abEdge None R-0 R-n/a F2=0.760 To Outside S1abEdge None R-0 R-n/a F2=0.510 To Garage Wall Wood R-0 R-n/a R-0 0.293 Wall n/a R-0 R-n/a R-0 20.000 FENESTRATION Over - Area U- Interior Exterior hang/ Orientation (sf) Value SHGC Shading Shading Fins Window Front (N) 7.5 0.510 0.510 Standard Standard Yes Window Front (N) 16.0 0.510 0.510 Standard Standard Yes Window Front (N) 48.0 0.510 0.510 Standard Standard Yes Window Front (N) 16.0 0.510 0.510 Standard Standard Yes Window Front (N) 24.0 0.510 0.510 Standard Standard Yes Door Front (N) 48.0 0.550 0.650 Standard Standard Yes Window Left (E) 6.0 0.510 0.510 Standard Standard Yes Door Left (E) 24.0 0.590 0.650 Standard Standard Yes Window Left (E) 5.0 0.510 0.510 Standard Standard Yes Window Left (E) 36.0 0.510 0.510 Standard Standard Yes Window Left (E) 12.0 0.510 0.510 Standard Standard Yes Window Left (E) 36.0 0.510 0.510 Standard Standard Yes CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 2 CF-1F Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:4C MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program -FORM CF-1R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 FENESTRATION Over - Area U- Interior Exterior hang/ Orientation (sf) Value SHGC Shading Shading Fins Window Left (E) 12.0 0.510 0.510 Standard Standard Yes Window Left (E) 15.0 0.510 0.510 Standard Standard Yes Window Left (E) 6.0 0.510 0.510 Standard Standard Yes Window Left (E) 20.0 0.510 0.510 Standard Standard Yes Window Left (E) 20.0 0.510 0.510 Standard Standard Yes Window Left (E) 5.0 0.510 0.510 Standard Standard Yes Window Back (S) 80.0 0.650 0.510 Standard Standard Yes Window Back (S) 8.0 0.650 0.510 Standard Standard Yes Window Back (S) 16.0 0.650 0.510 Standard Standard Yes Door Back (S) 80.0 0.650 0.510 Standard Standard Yes Window Back (S) 72.0 0.650 0.510 Standard Standard Yes Window Back (S) 72.0 0.650 0.510 Standard Standard Yes Window Back (S) 36.0 0.510 0.510 Standard Standard Yes Window Back (S) 12.0 0.510 0.510 Standard Standard Yes Window Back (S) 12.0 0.510 0.510 Standard Standard Yes Window Back (S) 36.0 0.510 0.510 Standard Standard Yes Door Back (S) 48.0 0.510 0.510 Standard Standard Yes Door Right (W) 60.0 0.650 0.510 Standard Standard Yes Window Right (W) 24.0 0.510 0.510 Standard Standard Yes Window Right (W) 36.0 0.510 0.510 Standard Standard Yes Window Right (W) 12.0 0.510 0.510 Standard Standard Yes Window Right (W) 27.0 0.510 0.510 Standard Standard Yes Window Right (W) 12.0 0.510 0.510 Standard Standard Yes Window Right (W) 4.5 0.510 0.510 Standard Standard Yes Window Right (W) 25.0 0.510 0.510 Standard Standard Yes Window Right (W) 6.0 0.510 0.510 Standard Standard Yes Window Right (W) 25.0 0.510 0.510 Standard Standard Yes SLAB SURFACES Area Slab Type (sf) Standard Slab 1492 Standard Slab 310 Standard Slab 1420 HVAC SYSTEMS Minimum Duct Duct Tested Duct ACCA Thermostat Equipment Type Efficiency Location R-value Leakage Manual D Type Furnace 0.800 AFUE Attic R-6 No No LivingS1 AirCond 12.00 SEER Attic R-6 No No LivingS1 Furnace 0.800 AFUE Attic R-6 No No LivingSl AirCond 12.00 SEER Attic R-6 No No LivingSl Furnace 0.800 AFUE Attic R-6 No No Sleepin( AirCond 12.00 SEER Attic R-6 No No Sleepin( CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 3 CF-1: Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:4 MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program -FORM CF-lR User#-MP0357 User -Rick Maurer Title 24 Run -PGA West Plan #4 Tank Type WATER HEATING SYSTEMS Number in Heater Type Distribution Type System Storage Gas Recirc/TimeTemp 1 Tank Energy Size Factor (gal) .51 75 SPECIAL FEATURES AND MODELING ASSUMPTIONS External Insulatio: R-value *** Items in this section should be documented on the plans, *** *** installed to manufacturer and CEC specifications, and *** *** verified during plan check and field inspection. *** R-12 This is a multiple orientation building with no orientation restrictions. This printout is for the front facing North. This building incorporates a Zonally Controlled HVAC System. This building incorporates non-standard Duct R-value. Mandatory Measures require a R-12 or greater external blanket on Gas Storage Water Heaters with Energy Factors less than 0.58. REMARKS 1) The water heater will require an external insulation blanket of R-12 or greater. 2) This plan requires R-4 or greater insulation on .75 inch or larger hot water main lines or recirculating lines. This is in addition to the insulation required by the mandatory measures. 3) The water heater for this house can have a recirculating pump with a thermostatic controller and time clock, or a hot water demand type recirculating system. 4) All glass will be dual pane with bronze tint and a solar heat gain coefficient of .51 or less, except the hinged doors which are clear with a SHGC of .65 or less. * All windows will have vinyl frames with an NFRC U-value of .51 or less with the exception of the following, which will have metal frames and an NFRC U-value of .65 or less. ** Rear Family Glass ** Retreat Glass Door ** Rear Living & Dining Glass * French doors will be metal clad over wood with .59 default NFRC U-value and a .65 default SHGC. * Front entry doors will have solid wood frames with .55 default NFRC U-value and a .65 default SHGC. CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 4 CF-11 Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:4( MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program -FORM CF-1R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 COMPLIANCE STATEMENT 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, and the administrative regulations to implement them. This certificate has been signed by the individual with overall design responsibility. When this certificate of compliance is submitted for a single building plan to be built in multiple orientations, any shading feature that is varied is indicated in the Special Features Modeling Assumptions section. DESIGNER or OWNER Name.... Company. Rielly Homes Address. 23 Corporate P1azaDr,#245 Newport Beach, CA 92660 Phone... (949) 719-4975 License. Signed.. date ENFORCEMENT AGENCY Name.... Title... Agency.. Phone... Signed.. date DOCUMENTATION AUTHOR Name.... Rick Maurer Company. Rick Maurer Title 24 Address. 7544 E Saddlehill Trail Orange, CA 92869 Phone... 714-771-1507 Signed.. 0-� 5,3 d to COMPUTER METHOD SUMMARY Page 1 C-2R Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:40 ******* Project Address........ PGA West (Job #097-980851 La Quinta, California *v5.00* Documentation Author... Rick Maurer ******* Building Permit Rick Maurer Title 24 7544 E Saddlehill Trail Plan Check Date Orange, CA 92869 714-771-1507 Field C ec Date Climate Zone.. ...... 15 Compliance Method...... MICROPAS5 v5.00 for 1999 Standards by Enercomp, Inc. MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 MICROPAS5 ENERGY USE SUMMARY Energy Use Standard Proposed Compliance (kBtu/sf-yr) Design Design Margin Space Heating.......... 3.99 3.80 0.19 Space Cooling.......... 43.64 42.57 1.07 Water Heating.......... 8.84 8.85 -0.01 North Total 56.47 55.22 1.25 Space Heating.......... 3.99 4.28 -0.29 Space Cooling.......... 43.64 40.99 2.65 Water Heating.......... 8.84 8.85 -0.01 East Total 56.47 54.12 2.35 Space Heating.......... 3.99 4.73 -0.74 Space Cooling.......... 43.64 40.74 2.90 Water Heating.......... 8.84 8.85 -0.01 South Total 56.47 54.32 2.15 Space Heating.......... 3.99 3.76 0.23 Space Cooling.......... 43.64 41.21 2.43 Water Heating.......... 8.84 8.85 -0.01 West Total 56.47 53.82 2.65 *** Building complies with Computer Performance *** GENERAL INFORMATION Conditioned Floor Area..... Building Type .............. Construction Type ......... Building Front Orientation. Number of Dwelling Units... Number of Building Stories. Weather Data Type.......... Floor Construction Type.... Number of Building Zones... 3222 sf Single Family Detached New Cardinal - N,E,S,W 1 1 ReducedYear Slab On Grade 3 COMPUTER METHOD SUMMARY Page 2 C-21 Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:4( MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 Conditioned Volume......... 39608 cf Slab -On -Grade Area......... 3222 sf Glazing Percentage......... 32.9 % of floor area Average Glazing U-value.... 0.56 Btu/hr-sf-F Average Glazing SHGC....... 0.52 Average Ceiling Height..... 12.3 ft BUILDING ZONE INFORMATION Floor # of Vent Vent Air Area Volume Dwell Cond- Thermostat Height Area Leakage Zone Type (sf) (cf) Units itioned Type (ft) (sf) Credit LIVINGI Living 1492 20888 0.83 Yes LivingStat 2.0 Standard No LIVING2 Living 310 3100 0.17 Yes LivingStat 2.0 Standard No SLEEPING Sleeping 1420 15620 0.00 Yes SleepingStat 2.0 Standard No OPAQUE SURFACES Area U- Insul Act Solar Form 3 Location/ Surface (sf) value R-val Azm Tilt Gains Reference Comments LIVINGI 1 Wall 252 0.059 21 0 90 Yes None Front Wall 6 Wall 195 0.059 21 90 90 Yes None Left Wall 9 Wall 378 0.059 21 180 90 Yes None Back Wall 12 Wall 370 0.059 21 270 90 Yes None Right Wall 15 Roof 1492 0.031 30 n/a 0 Yes None Vented Attic LIVING2 2 Wall 83 0.059 21 0 90 Yes None Front Wall 5 Wall 120 0.059 21 0 90 No None Gar. Wall 7 Wall 144 0.059 21 90 90 Yes None Left Wall 10 Wall 180 0.059 21 180 90 Yes None Back Wall 13 Wall 110 0.059 21 270 90 Yes None Right Wall 16 Roof 310 0.031 30 n/a 0 Yes None Vented Attic SLEEPING 3 Wall 220 0.059 21 0 90 Yes None Front Wall 4 Wall 232 0.059 21 0 90 No None Gar. Wall 8 Wall 550 0.059 21 90 90 Yes None Left Wall 11 Wall 124 0.059 21 180 90 Yes None Back Wall 14 Wall 455 0.059 21 270 90 Yes None Right Wall 17 Roof 1420 0.031 30 n/a 0 Yes None Vented Attic 18 Door 21 0.330 0 0 90 No None Garage Door COMPUTER METHOD SUMMARY Page 3 C-2 Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:4 MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West Plan #4 PERIMETER LOSSES Length F2 Insul Solar Surface (ft) Factor R-val Gains Location/Comments LIVINGI 19 SlabEdge 128 0.760 R-0 No To Outside LIVING2 20 SlabEdge 60 0.760 R-0 No To Outside 23 SlabEdge 12 0.510 R-0 No To Garage SLEEPING 21 SlabEdge 157 0.760 R-0 No To Outside 22 SlabEdge 23 0.510 R-0 No To Garage FENESTRATION SURFACES Area U- Act Exterior Shade Interior Shad Orientation (sf) Value SHGC Azm Tilt Type/SHGC Type/SHGC LIVINGI 2 Window Front (N) 16.0 0.510 0.510 0 90 Standard/0.76 Standard/0.68 3 Window Front (N) 48.0 0.510 0.510 0 90 Standard/0.76 Standard/0.68 4 Window Front (N) 16.0 0.510 0.510 0 90 Standard/0.76 Standard/0.68 5 Window Front (N) 24.0 0.510 0.510 0 90 Standard/0.76 Standard/0.68 6 Door Front (N) 48.0 0.550 0.650 0 90 Standard/0.76 Standard/0.68 8 Door Left (E) 24.0 0.590 0.650 90 90 Standard/0.76 Standard/0.68 9 Window Left (E) 5.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 19 Window Back (S) 80.0 0.650 0.510 180 90 Standard/0.76 Standard/0.68 20 Window Back (S) 8.0 0.650 0.510 180 90 Standard/0.76 Standard/0.68 21 Window Back (S) 16.0 0.650 0.510 180 90 Standard/0.76 Standard/0.68 22 Door Back (S) 80.0 0.650 0.510 180 90 Standard/0.76 Standard/0.68 23 Window Back (S) 72.0 0.650 0.510 180 90 Standard/0.76 Standard/0.68 24 Window Back (S) 72.0 0.650 0.510 180 90 Standard/0.76 Standard/0.68 32 Window Right (W) 36.0 0.510 0.510 270 90 Standard/0.76 Standard/0.68 33 Window Right (W) 12.0 0.510 0.510 270 90 Standard/0.76 Standard/0.68 34 Window Right (W) 27.0 0.510 0.510 270 90 Standard/0.76 Standard/0.68 35 Window Right (W) 12.0 0.510 0.510 270 90 Standard/0.76 Standard/0.68 36 Window Right (W) 4.5 0.510 0.510 270 90 Standard/0.76 Standard/0.68 LIVING2 1 Window Front (N) 7.5 0.510 0.510 0 90 Standard/0.76 Standard/0.68 7 Window Left (E) 6.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 29 Door Back (S) 48.0 0.510 0.510 180 90 Standard/0.76 Standard/0.68 SLEEPING 10 Window Left (E) 36.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 11 Window Left (E) 12.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 12 Window Left (E) 36.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 13 Window Left (E) 12.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 14 Window Left (E) 15.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 15 Window Left (E) 6.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 16 Window Left (E) 20.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 17 Window Left (E) 20.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 18 Window Left (E) 5.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 25 Window Back (S) 36.0 0.510 0.510 180 90 Standard/0.76 Standard/0.68 26 Window Back (S) 12.0 0.510 0.510 180 90 Standard/0.76 Standard/0.68 27 Window Back (S) 12.0 0.510 0.510 180 90 Standard/0.76 Standard/0.68 28 Window Back (S) 36.0 0.510 0.510 180 90 Standard/0.76 Standard/0.68 COMPUTER METHOD SUMMARY Page 4 C-2: Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:4 MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West Plan #4 Orientation FENESTRATION SURFACES Area U- Act Exterior Shade Interior Shad, (sf) Value SHGC Azm Tilt Type/SHGC Type/SHGC 30 Door Right (W) 60.0 0.650 0.510 270 90 Standard/0.76 Standard/0.68 31 Window Right (W) 24.0 0.510 0.510 270 90 Standard/0.76 Standard/0.68 37 Window Right (W) 25.0 0.510 0.510 270 90 Standard/0.76 Standard/0.68 38 Window Right (W) 6.0 0.510 0.510 270 90 Standard/0.76 Standard/0.68 39 Window Right (W) 25.0 0.510 0.510 270 90 Standard/0.76 Standard/0.68 OVERHANGS AND SIDE FINS Window- Overhang -Left Fin Right Fin - Area Left Rght Surface (sf) Wdth Hgth Dpth Hght Ext Ext Ext Dpth Hght Ext Dpth Hgh- LIVINGI 2 Window 16.0 n/a 2.0 7.0 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 3 Window 48.0 n/a 6.0 7.0 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 4 Window 16.0 n/a 2.0 7.0 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 5 Window 24.0 n/a 4.0 4.0 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 6 Door 48.0 n/a 4.0 4.0 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 8 Door 24.0 n/a 8.0 20. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 9 Window 5.0 n/a 1.7 20. 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 19 Window 80.0 n/a 6.0 1.0 3.5 n/a n/a n/a n/a n/a n/a n/a n/a 20 Window 8.0 n/a 1.0 17. 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 21 Window 16.0 n/a 1.0 16. 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 22 Door 80.0 n/a 10. 17. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 23 Window 72.0 n/a 9.0 16. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 24 Window 72.0 n/a 9.0 16. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 32 Window 36.0 n/a 6.0 1.0 9.0 n/a n/a n/a n/a n/a n/a n/a n/a 33 Window 12.0 n/a 2.0 1.0 7.0 n/a n/a n/a n/a n/a n/a n/a n/a 34 Window 27.0 n/a 4.5 1.0 12.5 n/a n/a n/a n/a n/a n/a n/a n/a 35 Window 12.0 n/a 2.0 1.0 17. n/a n/a n/a n/a n/a n/a n/a n/a 36 Window 4.5 n/a 1.5 1.0 10. n/a n/a n/a n/a n/a n/a n/a n/a LIVING2 1 Window 7.5 n/a 5.0 1.0 0.5 n/a n/a n/a n/a n/a n/a n/a n/a 7 Window 6.0 n/a 3.0 1.0 3.5 n/a n/a n/a n/a n/a n/a n/a n/a 29 Door 48.0 n/a 8.0 1.0 3.5 n/a n/a n/a n/a n/a n/a n/a n/a SLEEPING 10 Window 36.0 n/a 6.0 1.0 6.0 n/a n/a n/a n/a n/a n/a n/a n/a 11 Window 12.0 n/a 2.0 1.0 12. n/a n/a n/a n/a n/a n/a n/a n/a 12 Window 36.0 n/a 6.0 1.0 9.0 n/a n/a n/a n/a n/a n/a n/a n/a 13 Window 12.0 n/a 2.0 1.0 15. n/a n/a n/a n/a n/a n/a n/a n/a 14 Window 15.0 n/a 6.0 1.0 18. n/a n/a n/a n/a n/a n/a n/a n/a 15 Window 6.0 n/a 3.0 1.0 10. n/a n/a n/a n/a n/a n/a n/a n/a 16 Window 20.0 n/a 4.0 1.0 3.5 n/a n/a n/a n/a n/a n/a n/a n/a 17 Window 20.0 n/a 4.0 1.0 1.5 n/a n/a n/a n/a n/a n/a n/a n/a 18 Window 5.0 n/a 2.0 1.0 18. n/a n/a n/a n/a n/a n/a n/a n/a 25 Window 36.0 n/a 6.0 10. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 26 Window 12.0 n/a 2.0 10. 8.0 n/a n/a n/a n/a n/a n/a n/a n/a 27 Window 12.0 n/a 2.0 1.0 7.0 n/a n/a n/a n/a n/a n/a n/a n/a 28 Window 36.0 n/a 6.0 1.0 1.0 n/a n/a n/a n/a n/a n/a n/a n/a 30 Door 60.0 n/a 10. 10. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 31 Window 24.0 n/a 8.0 20. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a COMPUTER METHOD SUMMARY Page 5 C-2R Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:40 MICROPASS v5.00 File-RLLY34TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 OVERHANGS AND SIDE FINS Window— overhang Left Fin Right Fin — Area Left Rght Surface (sf) Wdth Hgth Dpth Hght Ext Ext Ext Dpth Hght Ext Dpth Hght 37 Window 25.0 n/a 5.0 1.0 8.0 n/a n/a n/a n/a n/a n/a n/a n/a 38 Window 6.0 n/a 3.0 1.0 5.0 n/a n/a n/a n/a n/a n/a n/a n/a 39 Window 25.0 n/a 5.0 1.0 1.5 n/a n/a n/a n/a n/a n/a n/a n/a INTER -ZONE SURFACES Area Insul Form 3 Surface (sf) U-value R-val Reference Location/Comments LIVINGI/SLEEPING 1 Wall 480 0.293 R-0 NONE 2 Wall 30 20.000 R-0 NONE SLAB SURFACES Area Slab Type (sf) LIVINGI Standard Slab 1492 LIVING2 Standard Slab 310 SLEEPING Standard Slab 1420 HVAC SYSTEMS Minimum Duct Duct Tested Duct ACCA Duct System Type Efficiency Location R-value Leakage Manual D Eff LIVINGI Furnace 0.800 AFUE Attic R-6 No No 0.770 AirCond 12.00 SEER Attic R-6 No No 0.626 LIVING2 Furnace 0.800 AFUE Attic R-6 No No 0.770 AirCond 12.00 SEER Attic R-6 No No 0.626 SLEEPING Furnace 0.800 AFUE Attic R-6 No No 0.770 AirCond 12.00 SEER Attic R-6 No No 0.626 WATER HEATING SYSTEMS Number Tank External in Energy Size Insulatioi Tank Type Heater Type Distribution Type System Factor (gal) R-value 1 Storage Gas Recirc/TimeTemp 1 .51 75 R-12 COMPUTER METHOD SUMMARY Page 6 C-21 Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:4C MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 SPECIAL FEATURES AND MODELING ASSUMPTIONS *** Items in this section should be documented on the plans, *** *** installed to manufacturer and CEC specifications, and *** *** verified during plan check and field inspection. *** This is a multiple orientation building with no orientation restrictions. This printout is for the front facing North. This building incorporates a Zonally Controlled HVAC System. This building incorporates non-standard Duct R-value. Mandatory Measures require a R-12 or greater external blanket on Gas Storage Water Heaters with Energy Factors less than 0.58. REMARKS 1) The water heater will require an external insulation blanket of R-12 or greater. 2) This plan requires R-4 or greater insulation on .75 inch or larger hot water main lines or recirculating lines. This is in addition to the insulation required by the mandatory measures. 3) The water heater for this house can have a recirculating pump with a thermostatic controller and time clock, or a hot water demand type recirculating system. 4) All glass will be dual pane with bronze tint and a solar heat gain coefficient of .51 or less, except the hinged doors which are clear with a SHGC of .65 or less. * All windows will have vinyl frames with an NFRC U-value of .51 or less with the exception of the following, which will have metal frames and an NFRC U-value of -.65 or less. ** Rear Family Glass ** Retreat Glass Door ** Rear Living & Dining Glass * French doors will be metal clad over wood with .59 default NFRC U-value and a .65 default SHGC. * Front entry doors will have solid wood frames with .55 default NFRC U-value and a .65 default SHGC. HVAC SIZING Page 1 HVAC Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:40 * Project Address........ PGA West (Job La Quinta, California *v5.00* Documentation Author... Rick Maurer ******* Rick Maurer Title 24 7544 E Saddlehill Trail Orange, CA 92869 714-771-1507 Climate Zone.... ..... 15 Compliance Method...... MICROPASS v5.00 for 1999 Standards by Enercomp, Inc. Building Permit Plan Check Date Field C ec Date MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 GENERAL INFORMATION FloorArea ................. Volume ........ Front Orientation.......... Sizing Location............ Latitude... ............. Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range ............... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... 3222 sf 39608 cf Front Facing LA QUINTA 33.7 degrees 32 F 70 F 112 F 78 F 34 F No Yes Yes 0.30 HEATING AND COOLING LOAD SUMMARY Heating Description (Btuh) 0 deg (N) Cooling (Btuh) Opaque Conduction and Solar...... 22353 11846 Glazing Conduction ............... 22753 20358 Glazing Solar .................... n/a 21790 Infiltration ..................... 15446 10389 Internal Gain .................... n/a 3000 Ducts ............................ 6055 6738 Sensible Load .................... 66607 74121 Latent Load ...................... n/a 22236 Minimum Total Load 66607 96357 X1,3 " S10S$9 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING Page 2 HVAC Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:40 MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE ILIVING11 Floor Area ....................... 1492 sf Volume ........................... 20888 cf Heating Description (Btuh) Opaque Conduction and Solar...... Glazing Conduction ............... Glazing Solar .................... Infiltration ..................... Internal Gain .................... Ducts ............................ Sensible Load .................... Latent Load ...................... Minimum Zone Load 8133 13529 n/a 7901 n/a 2956 32519 n/a 32519 ZONE 'LIVING2' Floor Area ....................... 310 sf Volume ........................... 3100 cf Heating Description (Btuh) Opaque Conduction and Solar...... 3759 Glazing Conduction ............... 1192 Glazing Solar .................... n/a Infiltration ..................... 1637 Internal Gain .................... n/a Ducts ............................ 659 Sensible Load .................... 7246 Latent Load ...................... n/a Minimum Zone Load 7246 Cooling (Btuh) 4750 12105 8994 5324 2490 3366 37029 11109 48138 Cooling (Btuh) 1674 1066 1152 1083 510 549 6034 1810 7844 HVAC SIZING Page 3 HVA( Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:41 MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West Plan #4 ZONE 'SLEEPING' Floor Area ....................... 1420 sf Volume........................... 15620 cf Description Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 10461 5423 Glazing Conduction ............... 8032 7187 Glazing Solar .................... n/a 11644 Infiltration ..................... 5908 3982 Internal Gain .................... n/a 0 Ducts ............................ 2440 2823 Sensible Load .................... 26841 31058 Latent Load ...................... n/a 9317 Minimum Zone Load 26841 40376 HVAC SIZING Page 4 HVAi Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:4 MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West Plan #4 GENERAL INFORMATION FloorArea ................. Volume.. ..... ............ Front Orientation.......... Sizing Location............ Latitude... .... ........ Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range. ..... ..... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 3222 sf 39608 cf Front Facing LA QUINTA 33.7 degrees 32 F 70 F 112 F 78 F 34 F No Yes Yes 0.30 HEATING AND COOLING LOAD SUMMARY 90 deg (E) Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 22353 11846 Glazing Conduction ............... 22753 20358 Glazing Solar .................... n/a 18267 Infiltration ..................... 15446 10389 Internal Gain .................... n/a 3000 Ducts ............................ 6055 6386 Sensible Load .................... 66607 70246 Latent Load ...................... n/a 21074 Minimum Total Load 66607 91319 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING Page 5 HVAC Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:4C MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE ILIVING11 Floor Area ....................... 1492 sf Volume ........................... 20888 cf Heating Cooling Description (Btuh) (Btuh) Opaque Conduction and Solar...... 8133 4750 Glazing Conduction ............... 13529 12105 Glazing Solar .................... n/a 9110 Infiltration ..................... 7901 5324 Internal Gain .................... n/a 2490 Ducts ............................ 2956 3378 Sensible Load .................... 32519 37156 Latent Load ...................... n/a 11147 Minimum Zone Load 32519 48303 ZONE 'LIVING2' FloorArea ....................... 310 sf Volume ........................... 3100 cf Heating Cooling Description (Btuh) (Btuh) Opaque Conduction and Solar...... 3759 1674 Glazing Conduction ............... 1192 1066 Glazing Solar .................... n/a 2380 Infiltration ..................... 1637 1083 Internal Gain .................... n/a 510 Ducts ............................ 659 671 Sensible Load .................... 7246 7384 Latent Load ...................... n/a 2215 Minimum Zone Load 7246 9600 HVAC SIZING Page 6 HVAC Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:4C MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 ZONE 'SLEEPING' Floor Area ....................... 1420 sf Volume ........................... 15620 cf Description Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 10461 5423 Glazing Conduction ............... 8032 7187 Glazing Solar .................... n/a 6777 Infiltration ..................... 5908 3982 Internal Gain .................... n/a 0 Ducts ............................ 2440 2337 Sensible Load .................... 26841 25705 Latent Load ...................... n/a 7712 Minimum Zone Load 26841 33417 HVAC SIZING Page 7 HVAC Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:4C MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 GENERAL INFORMATION Floor Area ................. Volume..................... Front Orientation.......... Sizing Location............ Latitude... ............. Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range ............... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 3222 sf 39608 cf Front Facing LA QUINTA 33.7 degrees 32 F 70 F 112 F 78 F 34 F No Yes Yes 0.30 HEATING AND COOLING LOAD SUMMARY 180 deg (S) Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 22353 11846 Glazing Conduction ............... 22753 20358 Glazing Solar .................... n/a 20396 Infiltration ..................... 15446 10389 Internal Gain .................... n/a 3000 Ducts ............................ 6055 6599 Sensible Load .................... Latent Load ...................... 66607 n/a 72587 21776 Minimum Total Load 66607 94364 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING Page 8 HVAC Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:40 MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE ILIVING11 Floor Area ....................... 1492 sf Volume ........................... 20888 cf Heating Description (Btuh) Opaque Conduction and Solar...... 8133 Glazing Conduction ............... 13529 Glazing Solar .................... n/a Infiltration ..................... 7901 Internal Gain .................... n/a Ducts ............................ 2956 Sensible Load .................... 32519 Latent Load ...................... n/a Minimum Zone Load 32519 ZONE 'LIVING2' Floor Area ....................... 310 sf Volume ........................... 3100 cf Heating Description (Btuh) Opaque Conduction and Solar...... 3759 Glazing Conduction ............... 1192 Glazing Solar .................... n/a Infiltration ..................... 1637 InternalGain .................... n/a Ducts............................ 659 Sensible Load .................... 7246 Latent Load ...................... n/a Minimum Zone Load 7246 Cooling (Btuh) 4750 12105 8295 5324 2490 3296 36260 10878 47138 Cooling (Btuh) 1674 1066 742 1083 510 508 5583 1675 7258 HVAC SIZING Page 9 HVA( Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:4( MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 ZONE 'SLEEPING' Floor Area ....................... 1420 sf Volume........................... 15620 cf Heating Cooling Description (Btuh) (Btuh) Opaque Conduction and Solar...... 10461 5423 Glazing Conduction ............... 8032 7187 Glazing Solar .................... n/a 11358 Infiltration ..................... 5908 3982 Internal Gain .................... n/a 0 Ducts ............................ 2440 2795 Sensible Load .................... 26841 30744 Latent Load ...................... n/a 9223 Minimum Zone Load 26841 39967 HVAC SIZING Page 10 HVAC Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:4C MICROPAS5 v5.00 File-RLLY34TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 GENERAL INFORMATION Floor Area ................. Volume..................... Front Orientation.......... Sizing Location............ Latitude ... ...... ........ Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Sinner Inside Design....... Summer Range . ....... ..... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 3222 sf 39608 cf Front Facing LA QUINTA 33.7 degrees 32 F 70 F 112 F 78 F 34 F No Yes Yes 0.30 HEATING AND COOLING LOAD SUMMARY 270 deg (W) Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 22353 11846 Glazing Conduction ............... 22753 20358 Glazing Solar .................... n/a 18107 Infiltration ..................... 15446 10389 Internal Gain .................... n/a 3000 Ducts ............................ 6055 6370 Sensible Load .................... 66607 70070 Latent Load ...................... n/a 21021 Minimum Total Load 66607 91091 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING Page 11 HVAC Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:40 MICROPASS v5.00 File-RLLY34TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE ILIVING11 Floor Area ....................... 1492 sf Volume ........................... 20888 cf Description Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 8133 4750 Glazing Conduction ............... 13529 12105 Glazing Solar .................... n/a 9993 Infiltration ..................... 7901 5324 Internal Gain .................... n/a 2490 Ducts ............................ 2956 3466 Sensible Load .................... 32519 38128 Latent Load ...................... n/a Minimum Zone Load 32519 ZONE 'LIVING2' Floor Area ....................... 310 sf Volume ........................... 3100 cf Description 11438 49566 Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 3759 1674 Glazing Conduction ............... 1192 1066 Glazing Solar .................... n/a 2333 Infiltration ..................... 1637 1083 Internal Gain .................... n/a 510 Ducts ............................ 659 667 Sensible Load .................... 7246 7333 Latent Load ...................... n/a 2200 Minimum Zone Load 7246 9532 HVAC SIZING Page 12 HVAC Project Title.......... Rielly Homes - Plan #4 Date..10/27/99 13:57:40 MICROPASS v5.00 File-RLLY34TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #4 ZONE 'SLEEPING' Floor Area ....................... 1420 sf Volume ........................... 15620 cf Description Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 10461 5423 Glazing Conduction ............... 8032 7187 Glazing Solar .................... n/a 5782 Infiltration ..................... 5908 3982 Internal Gain .................... n/a 0 Ducts ............................ 2440 2237 Sensible Load .................... Latent Load ...................... 26841 n/a 24610 7383 Minimum Zone Load 26841 31993 CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 1 CF-11; Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:03 * Project Address........ PGA West (Job #097-98085)****** La Quinta, California *v5.00* Documentation Author... Rick Maurer ******* Bu11TIng Permit Rick Maurer Title 24 7544 E Saddlehill Trail Plan Check Date Orange, CA 92869 714-771-1507 Field Check/ Date Climate Zone. ..... 15 Compliance Method...... MICROPAS5 v5.00 for 1999 Standards by Enercomp, Inc. MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program -FORM CF-lR User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 GENERAL INFORMATION Conditioned Floor Area..... 3409 sf Building Type .............. Single Family Detached Construction Type ......... New Building Front Orientation. Cardinal - N,E,S,W Number of Dwelling Units... 1 Number of Stories.......... 1 Floor Construction Type.... Slab On Grade Glazing Percentage......... 36.3 % of floor area Average Glazing U-value.... 0.52 Btu/hr-sf-F Average Glazing SHGC....... 0.49 BUILDING SHELL INSULATION Component Frame Cavity Sheathing Total Assembly Type Type R-value R-value R-value U-value Location/Comments Wall Wood R-21 R-n/a R-21 0.059 Front Wall, Gar. Wall Left Wall, Back Wall Right Wall Roof Wood R-38 R-n/a R-38 0.025 Vented Attic Door Wood R-0 R-n/a R-0 0.330 Garage Door S1abEdge None R-0 R-n/a F2=0.760 To Outside S1abEdge None R-0 R-n/a F2=0.510 To Garage Wall Wood R-0 R-n/a R-0 0.293 Wall n/a R-0 R-n/a R-0 20.000 FENESTRATION Over - Area U- Interior Exterior hang/ Orientation (sf) Value SHGC Shading Shading Fins Window Front (N) 18.0 0.510 0.510 Standard Standard Yes Window Front (N) 30.0 0.510 0.510 Standard Standard Yes Window Front (N) 10.0 0.510 0.510 Standard Standard Yes Window Front (N) 36.0 0.510 0.510 Standard Standard Yes Window Front (N) 24.0 0.510 0.510 Standard Standard Yes Window Front (N) 24.0 0.510 0.510 Standard Standard Yes Window Front (N) 18.0 0.510 0.510 Standard Standard Yes Window Front (N) 6.0 0.510 0.510 Standard Standard Yes Window Front (N) 36.0 0.510 0.510 Standard Standard Yes Window Front (N) 12.0 0.510 0.510 Standard Standard Yes Door Front (N) 48.0 0.550 0.650 Standard Standard Yes Window Left (E) 64.0 0.520 0.450 Standard Standard Yes CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 2 CF-11 Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:0: MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program -FORM CF-1R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 FENESTRATION Over - Area U- Interior Exterior hang/ Orientation (sf) Value SHGC Shading Shading Fins Window Left (E) 8.0 0.520 0.450 Standard Standard Yes Door Left (E) 24.0 0.590 0.650 Standard Standard Yes Window Left (E) 5.0 0.510 0.510 Standard Standard Yes Window Left (E) 3.0 0.510 0.510 Standard Standard Yes Window Left (E) 36.0 0.510 0.510 Standard Standard Yes Window Left (E) 12.0 0.510 0.510 Standard Standard Yes Window Left (E) 48.0 0.510 0.510 Standard Standard Yes Window Left (E) 18.0 0.510 0.510 Standard Standard Yes Window Left (E) 6.0 0.510 0.510 Standard Standard Yes Window Left (E) 18.0 0.510 0.510 Standard Standard Yes Window Left (E) 6.0 0.510 0.510 Standard Standard Yes Window Left (E) 12.0 0.510 0.510 Standard Standard Yes Window Left (E) 12.0 0.510 0.510 Standard Standard Yes Door Back (S) 80.0 0.520 0.450 Standard Standard Yes Window Back (S) 16.0 0.520 0.450 Standard Standard Yes Window Back (S) 64.0 0.520 0.450 Standard Standard Yes Window Back (S) 6.0 0.520 0.450 Standard Standard Yes Door Back (S) 60.0 0.520 0.450 Standard Standard Yes Door Back (S) 100.0 0.520 0.450 Standard Standard Yes Window Back (S) 20.0 0.520 0.450 Standard Standard Yes Window Back (S) 90.0 0.520 0.450 Standard Standard Yes Window Back (S) 12.0 0.510 0.510 Standard Standard Yes Window Back (S) 36.0 0.510 0.510 Standard Standard Yes Door Back (S) 64.0 0.510 0.510 Standard Standard Yes Door Right (W) 60.0 0.520 0.450 Standard Standard Yes Window Right (W) 24.0 0.510 0.510 Standard Standard Yes Window Right (W) 30.0 0.510 0.510 Standard Standard Yes Window Right (W) 6.0 0.510 0.510 Standard Standard Yes Window Right (W) 6.0 0.510 0.510 Standard Standard Yes Window Right (W) 30.0 0.510 0.510 Standard Standard Yes SLAB SURFACES Area Slab Type (sf) Standard Slab 1571 Standard Slab 373 Standard Slab 1465 HVAC SYSTEMS Minimum Duct Duct Tested Duct ACCA Thermostat Equipment Type Efficiency Location R-value Leakage Manual D Type Furnace 0.800 AFUE Attic R-6 No No LivingSt AirCond 12.00 SEER Attic R-6 No No LivingSt Furnace 0.800 AFUE Attic R-6 No No LivingSt AirCond 12.00 SEER Attic R-6 No No LivingSt CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 3 CF-1: Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:0, MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program -FORM CF-lR User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 HVAC SYSTEMS Minimum Duct Duct Tested Duct ACCA Thermosta, Equipment Type Efficiency Location R-value Leakage Manual D Type Furnace 0.800 SE Attic R-6 No No Sleepin< AirCond 12.00 SEER Attic R-6 No No Sleepin( WATER HEATING SYSTEMS Number Tank External in Energy Size Insulatioi Tank Type Heater Type Distribution Type System Factor (gal) R-value Storage Gas Recirc/TimeTemp 1 .51 75 R-12 SPECIAL FEATURES AND MODELING ASSUMPTIONS *** Items in this section should be documented on the plans, *** *** installed to manufacturer and CEC specifications, and *** *** verified during plan check and field inspection. *** This is a multiple orientation building with no orientation restrictions. This printout is for the front facing North. This building incorporates a Zonally Controlled HVAC System. This building incorporates non-standard Duct R-value. Mandatory Measures require a R-12 or greater external blanket on Gas Storage Water Heaters with Energy Factors less than 0.58. REMARKS 1) The water heater will require an external insulation blanket of R-12 or greater. 2) This plan requires R-4 or greater insulation on .75 inch or larger hot water main lines or recirculating lines. This is in addition to the insulation required by the mandatory measures. 3) The water heater for this house can have a recirculating pump with a thermostatic controller and time clock, or a hot water demand type recirculating system. 4) All glass will be dual pane with bronze tint and a solar heat gain coefficient of .51 or less, except the hinged doors which are clear with a SHGC of .65 or less and all the metal frame fenistration which will have Low-E coating with a SHGC of.45 or less. * All windows will have vinyl frames with an NFRC U-value of .51 or less with the exception of the following, which will have metal frames and an NFRC U-value of .52 or less. ** Rear Family Glass ** 8x8 & 8xl Family Glass ** Rear Living Glass ** Side Retreat Glass Door ** Nook Glass Door & 6X1 Transom Only When door Is Used * French doors will be metal clad over wood with .59 CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 4 CF-11; Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:03 MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program -FORM CF-1R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 REMARKS default NFRC U-value and a .65 default SHGC. * Front entry doors will have solid wood frames with .55 default NFRC U-value and a .65 default SHGC. COMPLIANCE STATEMENT 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, and the administrative regulations to implement them. This certificate has been signed by the individual with overall design responsibility. When this certificate of compliance is submitted for a single building plan to be built in multiple orientations, any shading feature that is varied is indicated in the Special Features Modeling Assumptions section. DESIGNER or OWNER Name.... Company. Rielly Homes Address. 23 Corporate P1azaDr,#245 Newport Beach, CA 92660 Phone... (949) 719-4975 License. Signed.. ENFORCEMENT AGENCY Name.... Title... Agency.. Phone... Signed.. ate date DOCUMENTATION AUTHOR Name.... Rick Maurer Company. Rick Maurer Title 24 Address. 7544 E Saddlehill Trail Orange, CA 92869 Phone... 714-771-1507 Signed.. f 10 l? d to COMPUTER METHOD SUMMARY Page 1 C-21 Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:01- ******* Project Address........ PGA West (Job #097-98085) La Quinta, California *v5.00* Documentation Author... Rick Maurer ******* Building Permit Rick Maurer Title 24 7544 E Saddlehill Trail Plan Check Date Orange, CA 92869 714-771-1507 Field Check/ Date Climate Zone. ........ 15 Compliance Method...... MICROPAS5 v5.00 for 1999 Standards by Enercomp, Inc. MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 MICROPAS5 ENERGY USE SUMMARY Energy Use Standard Proposed Compliance (kBtu/sf-yr) Design Design Margin Space Heating.......... 3.87 3.44 0.43 Space Cooling.......... 42.75 41.10 1.65 Water Heating.......... 8.36 8.36 0.00 North Total 54.98 52.90 2.08 Space Heating.......... 3.87 3.61 0.26 Space Cooling.......... 42.75 42.78 -0.03 Water Heating.......... 8.36 8.36 0.00 East Total 54.98 54.75 0.23 Space Heating.......... 3.87 3.96 -0.09 Space Cooling.......... 42.75 40.48 2.27 Water Heating.......... 8.36 8.36 0.00 South Total 54.98 52.80 2.18 Space Heating.......... 3.87 3.70 0.17 Space Cooling.......... 42.75 42.21 0.54 Water Heating.......... 8.36 8.36 0.00 West Total 54.98 54.27 0.71 *** Building complies with Computer Performance *** GENERAL INFORMATION Conditioned Floor Area..... Building Type .............. Construction Type ......... Building Front Orientation. Number of Dwelling Units... Number of Building Stories. Weather Data Type.......... Floor Construction Type.... Number of Building Zones... 3409 sf Single Family Detached New Cardinal - N,E,S,W 1 1 ReducedYear Slab On Grade 3 COMPUTER METHOD SUMMARY Page 2 C-21; Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:03 MICROPASS v5.00 File-RLLY35TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 Conditioned Volume......... 41839 cf Slab -On -Grade Area......... 3409 sf Glazing Percentage......... 36.3 % of floor area Average Glazing U-value.... 0.52 Btu/hr-sf-F Average Glazing SHGC....... 0.49 Average Ceiling Height..... 12.3 ft BUILDING ZONE INFORMATION Floor # of Vent Vent Air Area Volume Dwell Cond- Thermostat Height Area Leakage Zone Type (sf) (cf) Units itioned Type (ft) (sf) Credit LIVINGI Living 1571 21994 0.81 Yes LivingStat 2.0 Standard No LIVING2 Living 373 3730 0.19 Yes LivingStat 2.0 Standard No SLEEPING Sleeping 1465 16115 0.00 Yes SleepingStat 2.0 Standard No OPAQUE SURFACES Area U- Insul Act Solar Form 3 Location/ Surface (sf) value R-val Azm Tilt Gains Reference Comments LIVINGI 1 Wall 265 0.059 21 0 90 Yes None Front Wall 5 Wall 256 0.059 21 90 90 Yes None Left Wall 8 Wall 296 0.059 21 180 90 Yes None Back Wall 11 Wall 396 0.059 21 270 90 Yes None Right Wall 14 Roof 1571 0.025 38 n/a 0 Yes None Vented Attic LIVING2 2 Wall 172 0.059 21 0 90 Yes None Front Wall 6 Wall 188 0.059 21 90 90 Yes None Left Wall 9 Wall 126 0.059 21 180 90 Yes None Back Wall 12 Wall 176 0.059 21 270 90 Yes None Right Wall 15 Roof 373 0.025 38 n/a 0 Yes None Vented Attic SLEEPING 3 Wall 174 0.059 21 0 90 Yes None Front Wall 4 Wall 199 0.059 21 0 90 No None Gar. Wall 7 Wall 527 0.059 21 90 90 Yes None Left Wall 10 Wall 123 0.059 21 180 90 Yes None Back Wall 13 Wall 384 0.059 21 270 90 Yes None Right Wall 16 Roof 1465 0.025 38 n/a 0 Yes None Vented Attic 17 Door 21 0.330 0 0 90 No None Garage Door PERIMETER LOSSES Length F2 Insul Solar Surface (ft) Factor R-val Gains Location/Comments LIVINGI 18 S1abEdge 144 0.760 R-0 No To Outside LIVING2 19 S1abEdge 78 0.760 R-0 No To Outside SLEEPING COMPUTER METHOD SUMMARY Page 3 C-21 Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:0: MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 PERIMETER LOSSES Length F2 Insul Solar Surface (ft) Factor R-val Gains Location/Comments 20 S1abEdge 145 0.760 R-0 No To Outside 21 S1abEdge 20 0.510 R-0 No To Garage FENESTRATION SURFACES Area U- Act Exterior Shade Interior Shade Orientation (sf) Value SHGC Azm Tilt Type/SHGC Type/SHGC LIVINGI 4 Window Front (N) 36.0 0.510 0.510 0 90 Standard/0.76 Standard/0.68 5 Window Front (N) 24.0 0.510 0.510 0 90 Standard/0.76 Standard/0.68 6 Window Front (N) 24.0 0.510 0.510 0 90 Standard/0.76 Standard/0.68 7 Window Front (N) 18.0 0.510 0.510 0 90 Standard/0.76 Standard/0.68 8 Window Front (N) 6.0 0.510 0.510 0 90 Standard/0.76 Standard/0.68 9 Window Front (N) 36.0 0.510 0.510 0 90 Standard/0.76 Standard/0.68 10 Window Front (N) 12.0 0.510 0.510 0 90 Standard/0.76 Standard/0.68 11 Door Front (N) 48.0 0.550 0.650 0 90 Standard/0.76 Standard/0.68 12 Window Left (E) 64.0 0.520 0.450 90 90 Standard/0.76 Standard/0.68 13 Window Left (E) 8.0 0.520 0.450 90 90 Standard/0.76 Standard/0.68 14 Door Left (E) 24.0 0.590 0.650 90 90 Standard/0.76 Standard/0.68 15 Window Left (E) 5.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 16 Window Left (E) 3.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 22 Window Left (E) 18.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 23 Window Left (E) 6.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 26 Door Back (S) 80.0 0.520 0.450 180 90 Standard/0.76 Standard/0.68 27 Window Back (S) 16.0 0.520 0.450 180 90 Standard/0.76 Standard/0.68 28 Window Back (S) 64.0 0.520 0.450 180 90 Standard/0.76 Standard/0.68 29 Window Back (S) 6.0 0.520 0.450 180 90 Standard/0.76 Standard/0.68 30 Door Back (S) 60.0 0.520 0.450 180 90 Standard/0.76 Standard/0.68 31 Door Back (S) 100.0 0.520 0.450 180 90 Standard/0.76 Standard/0.68 32 Window Back (S) 20.0 0.520 0.450 180 90 Standard/0.76 Standard/0.68 33 Window Back (S) 90.0 0.520 0.450 180 90 Standard/0.76 Standard/0.68 38 Window Right (W) 24.0 0.510 0.510 270 90 Standard/0.76 Standard/0.68 LIVING2 1 Window Front (N) 18.0 0.510 0.510 0 90 Standard/0.76 Standard/0.68 36 Door Back (S) 64.0 0.510 0.510 180 90 Standard/0.76 Standard/0.68 SLEEPING 2 Window Front (N) 30.0 0.510 0.510 0 90 Standard/0.76 Standard/0.68 3 Window Front (N) 10.0 0.510 0.510 0 90 Standard/0.76 Standard/0.68 17 Window Left (E) 36.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 18 Window Left (E) 12.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 19 Window Left (E) 48.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 20 Window Left (E) 18.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 21 Window Left (E) 6.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 24 Window Left (E) 12.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 25 Window Left (E) 12.0 0.510 0.510 90 90 Standard/0.76 Standard/0.68 34 Window Back (S) 12.0 0.510 0.510 180 90 Standard/0.76 Standard/0.68 35 Window Back (S) 36.0 0.510 0.510 180 90 Standard/0.76 Standard/0.68 37 Door Right (W) 60.0 0.520 0.450 270 90 Standard/0.76 Standard/0.68 39 Window Right (W) 30.0 0.510 0.510 270 90 Standard/0.76 Standard/0.68 40 Window Right (W) 6.0 0.510 0.510 270 90 Standard/0.76 Standard/0.68 COMPUTER METHOD SUMMARY Page 4 C-21 Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:0: MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West Plan #5 Orientation 41 Window 42 Window Surface LIVINGI 4 Window 5 Window 6 Window 7 Window 8 Window 9 Window 10 Window 11 Door 12 Window 13 Window 14 Door 15 Window 16 Window 22 Window 23 Window 26 Door 27 Window 28 Window 29 Window 30 Door 31 Door 32 Window 33 Window 38 Window LIVING2 1 Window 36 Door SLEEPING 2 Window 3 Window 17 Window 18 Window 19 Window 20 Window 21 Window 24 Window 25 Window 34 Window 35 Window 37 Door 39 Window FENESTRATION SURFACES Area U- Act Exterior Shade Interior Shadi (sf) Value SHGC Azm Tilt Type/SHGC Type/SHGC Right (W) 6.0 0.510 0.510 270 90 Standard/0.76 Standard/0.68 Right (W) 30.0 0.510 0.510 270 90 Standard/0.76 Standard/0.68 OVERHANGS AND SIDE FINS Window- - Overhang Left Fin Right Fin - Area Left Rght (sf) Wdth Hgth Dpth Hght Ext Ext Ext Dpth Hght Ext Dpth Hghi 36.0 n/a 6.0 6.0 2.5 n/a n/a n/a n/a n/a n/a n/a n/a 24.0 n/a 4.0 6.0 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 24.0 n/a 4.0 6.0 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 18.0 n/a 6.0 1.0 2.5 n/a n/a n/a n/a n/a n/a n/a n/a 6.0 n/a 2.0 1.0 1.0 n/a n/a n/a n/a n/a n/a n/a n/a 36.0 n/a 6.0 1.0 2.5 n/a n/a n/a n/a n/a n/a n/a n/a 12.0 n/a 2.0 1.0 0.5 n/a n/a n/a n/a n/a n/a n/a n/a 48.0 n/a 8.0 6.0 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 64.0 n/a 8.0 11. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 8.0 n/a 1.0 11. 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 24.0 n/a 8.0 11. 4.0 n/a n/a n/a n/a n/a n/a n/a n/a 5.0 n/a 1.7 11. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 3.0 n/a 1.0 11. 0.0 n/a n/a n/a n/a n/a n/a n/a. n/a 18.0 n/a 3.0 1.0 4.5 n/a n/a n/a n/a n/a n/a n/a n/a 6.0 n/a 2.0 1.0 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 80.0 n/a 10. 8.0 8.0 n/a n/a n/a n/a n/a n/a n/a n/a 16.0 n/a 1.0 8.0 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 64.0 n/a 8.0 8.0 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 6.0 n/a 1.0 15. 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 60.0 n/a 10. 15. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 100.0 n/a 10. 11. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 20.0 n/a 1.0 11. 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 90.0 n/a 9.0 11. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 24.0 n/a 3.0 1.0 1.5 n/a n/a n/a n/a n/a n/a n/a n/a 18.0 n/a 4.0 1.0 0.5 n/a n/a n/a n/a n/a n/a n/a n/a 64.0 n/a 8.0 1.0 4.5 n/a n/a n/a n/a n/a n/a n/a n/a 30.0 n/a 6.0 1.0 2.5 n/a n/a n/a n/a n/a n/a n/a n/a 10.0 n/a 2.0 1.0 0.5 n/a n/a n/a n/a n/a n/a n/a n/a 36.0 n/a 6.0 1.0 3.5 n/a n/a n/a n/a n/a n/a n/a n/a 12.0 n/a 2.0 1.0 9.5 n/a n/a n/a n/a n/a n/a n/a n/a 48.0 n/a 8.0 1.0 3.5 n/a n/a n/a n/a n/a n/a n/a n/a 18.0 n/a 3.0 1.0 2.5 n/a n/a n/a n/a n/a n/a n/a n/a 6.0 n/a 3.0 1.0 2.5 n/a n/a n/a n/a n/a n/a n/a n/a 12.0 n/a 4.0 1.0 1.5 n/a n/a n/a n/a n/a n/a n/a n/a 12.0 n/a 4.0 1.0 1.5 n/a n/a n/a n/a n/a n/a n/a n/a 12.0 n/a 2.0 1.0 7.0 n/a n/a n/a n/a n/a n/a n/a n/a 36.0 n/a 6.0 1.0 1.0 n/a n/a n/a n/a n/a n/a n/a n/a 60.0 n/a 10. 10. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 30.0 n/a 5.0 1.0 5.5 n/a n/a n/a n/a n/a n/a n/a n/a COMPUTER METHOD SUMMARY Page 5 C-21 Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:0: MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West Plan #5 Surface 40 Window 41 Window 42 Window OVERHANGS AND SIDE FINS Window— overhang Area Left Rght (sf) Wdth Hgth Dpth Hght Ext Ext Ext 6.0 n/a 3.0 1.0 5.5 n/a n/a n/a 6.0 n/a 3.0 1.0 5.5 n/a n/a n/a 30.0 n/a 5.0 1.0 1.5 n/a n/a n/a INTER -ZONE SURFACES Area Surface (sf) LIVINGI/SLEEPING 1 Wall 310 2 Wall 30 Insul Form 3 U-value R-val Reference 0.293 R-0 NONE 20.000 R-0 NONE Minimum System Type Efficiency LIVINGI Furnace AirCond LIVING2 Furnace AirCond SLEEPING Furnace AirCond Tank Type 1 Storage SLAB SURFACES Area Slab Type (sf) LIVINGI Standard Slab 1571 LIVING2 Standard Slab 373 SLEEPING Standard Slab 1465 HVAC SYSTEMS Duct Location Left Fin Right Fin— Dpth Hght Ext Dpth Hghi n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a Location/Comments Duct Tested Duct ACCA Duct R-value Leakage Manual D Eff 0.800 AFUE Attic R-6 No 12.00 SEER Attic R-6 No 0.800 AFUE Attic R-6 No 12.00 SEER Attic R-6 No 0.800 AFUE Attic R-6 No 12.00 SEER Attic R-6 No WATER HEATING SYSTEMS Number in Energy Heater Type Distribution Type System Factor Gas Recirc/TimeTemp 1 .51 No 0.770 No 0.626 No 0.770 No 0.626 No 0.770 No 0.626 Tank External Size Insulatioi (gal) R-value 75 R-12 COMPUTER METHOD SUMMARY Page 6 C-2: Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:0, MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program -FORM C-2R fi User#-MP0357 User -Rick Maurer Title 24 Run -PGA West Plan #5 SPECIAL FEATURES AND MODELING ASSUMPTIONS *** Items in this section should be documented on the plans, *** *** installed to manufacturer and CEC specifications, and *** *** verified during plan check and field inspection. *** This is a multiple orientation building with no orientation restrictions. This printout is for the front facing North. This building incorporates a Zonally Controlled HVAC System. This building incorporates non-standard Duct R-value. Mandatory Measures require a R-12 or greater external blanket on Gas Storage Water Heaters with Energy Factors less than 0.58. REMARKS 1) The water heater will require an external insulation blanket of R-12 or greater. 2) This plan requires R-4 or greater insulation on .75 inch or larger hot water main lines or recirculating lines. This is in addition to the insulation required by the mandatory measures. 3) The water heater for this house can have a recirculating pump with a thermostatic controller and time clock, or a hot water demand type recirculating system. 4) All glass will be dual pane with bronze tint and a solar heat gain coefficient of .51 or less, except the hinged doors which are clear with a SHGC of .65 or less and all the metal frame fenistration which will have Low-E coating with a SHGC of.45 or less. * All windows will have vinyl frames with an NFRC U-value of .51 or less with the exception of the following which will have metal frames and an NFRC U-value of .52 or less. ** Rear Family Glass ** 8x8 & 8x1 Family Glass ** Rear Living Glass ** Side Retreat Glass Door ** Nook Glass Door & 6X1 Transom Only When door Is Used * French doors will be metal clad over wood with .59 default NFRC U-value and a .65 default SHGC. * Front entry doors will have solid wood frames with .55 default NFRC U-value and a .65 default SHGC. HVAC SIZING Page 1 HVA, Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:0; Project Address........ PGA West (Job #097-98085)******* La Quinta, California *v5.00* Documentation Author... Rick Maurer ******* Building Permit Rick Maurer Title 24 7544 E Saddlehill Trail Plan Check Date Orange, CA 92869 714-771-1507 Field Check/ Date Climate Zone..... ..... 15 Compliance Method...... MICROPAS5 v5.00 for 1999 Standards by Enercomp, Inc. MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 GENERAL INFORMATION Floor Area ................. Volume.. ..... ............ Front Orientation.......... Sizing Location............ Latitude................... Winter Outside Design...... Winter Inside Design....... Sumer Outside Design...... Summer Inside Design....... Summer Range ............... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... 3409 sf 41839 cf Front Facing LA QUINTA 33.7 degrees 32 F 70 F 112 F 78 F 34 F No Yes Yes 0.30 HEATING AND COOLING LOAD SUMMARY Heating Description (Btuh) 0 deg (N) Cooling (Btuh) Opaque Conduction and Solar...... 21847 10895 Glazing Conduction ............... 24354 21791 Glazing Solar .................... n/a 21118 Infiltration ..................... 16384 11017 Internal Gain .................... n/a 3000 Ducts............................ 6259 6782 Sensible Load .................... 68844 74603 Latent Load ...................... n/a 22381 Minimum Total Load 68844 96984 x),3= Cil Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING Page 2 HVA, Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:0: MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE ILIVING11 FloorArea ....................... 1571 sf Volume ........................... 21994 cf Heating Cooling Description (Btuh) (Btuh) Opaque Conduction and Solar...... 8371 4415 Glazing Conduction ............... 15688 14037 Glazing Solar .................... n/a 8667 Infiltration ..................... 8319 5606 Internal Gain .................... n/a 2430 Ducts ............................ 3238 3515 Sensible Load .................... 35616 38669 Latent Load ...................... n/a 11601 Minimum Zone Load 35616 50270 ZONE 'LIVING2' Floor Area ....................... 373 sf Volume ........................... 3730 cf Heating Cooling Description (Btuh) (Btuh) Opaque Conduction and Solar...... 4091 1768 Glazing Conduction ............... 1589 1422 Glazing Solar .................... n/a 1316 Infiltration ..................... 1970 1303 Internal Gain .................... n/a 570 Ducts ............................ 765 638 Sensible Load .................... 8415 7017 Latent Load ...................... n/a 2105 Minimum Zone Load 8415 9122 HVAC SIZING Page 3 HVA Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:0 MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 ZONE 'SLEEPING' Floor Area ....................... 1465 sf Volume ........................... 16115 cf Description Heating (Btuh) Opaque Conduction and Solar...... 9385 Glazing Conduction ............... 7077 Glazing Solar .................... n/a Infiltration ..................... 6096 Internal Gain .................... n/a Ducts ............................ 2256 Sensible Load .................... 24813 Latent Load ...................... n/a Minimum Zone Load 24813 Cooling (Btuh) 4713 6332 11135 4108 0 2629 28917 8675 37592 HVAC SIZING Page 4 HVA Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:0 MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West Plan #5 GENERAL INFORMATION FloorArea ................. Volume.. ............ Front Orientation.......... Sizing Location............ Latitude... ........ Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range ............... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 3409 sf 41839 cf Front Facing LA QUINTA 33.7 degrees 32 F 70 F 112 F 78 F 34 F No Yes Yes 0.30 HEATING AND COOLING LOAD SUMMARY 90 deg (E) Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 21847 10895 Glazing Conduction ............... 24354 21791 Glazing Solar .................... n/a 25956 Infiltration ..................... 16384 11017 Internal Gain .................... n/a 3000 Ducts ............................ 6259 7266 Sensible Load .................... 68844 79925 Latent Load ...................... n/a 23978 Minimum Total Load 68844 103903 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING Page 5 HVAC Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:03 MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE ILIVING11 Floor Area ....................... 1571 sf Volume ........................... 21994 cf Heating Cooling Description (Btuh) (Btuh) Opaque Conduction and Solar...... 8371 4415 Glazing Conduction ............... 15688 14037 Glazing Solar .................... n/a 15660 Infiltration ..................... 8319 5606 Internal Gain .................... n/a 2430 Ducts ............................ 3238 4215 Sensible Load .................... 35616 46362 Latent Load ...................... n/a 13909 Minimum Zone Load 35616 60271 ZONE 'LIVING2' Floor Area ....................... 373 sf Volume ........................... 3730 cf Heating Cooling Description (Btuh) (Btuh) Opaque Conduction and Solar...... Glazing Conduction ............... Glazing Solar .................... Infiltration ..................... InternalGain .................... Ducts............................ SensibleLoad .................... Latent Load ...................... Minimum Zone Load 4091 1768 1589 1422 n/a 3354 1970 1303 n/a 570 765 842 8415 n/a 9259 2778 8415 12036 HVAC SIZING Page 6 HVAC Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:03 MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 ZONE 'SLEEPING' FloorArea ....................... 1465 sf volume ........................... 16115 cf Description Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 9385 Glazing Conduction ............... 7077 GlazingSolar .................... n/a Infiltration ..................... 6096 Internal Gain .................... n/a Ducts............................ 2256 Sensible Load .................... 24813 Latent Load ...................... n/a Minimum Zone Load 24813 4713 6332 6942 4108 0 2209 24304 7291 31596 HVAC SIZING Page 7 HVA( Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:01 MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 GENERAL INFORMATION FloorArea ................. Volume .. ..... ............ Front Orientation.......... Sizing Location............ Latitude.... .... ........ Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range........ ..... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 3409 sf 41839 cf Front Facing LA QUINTA 33.7 degrees 32 F 70 F 112 F 78 F 34 F No Yes Yes 0.30 HEATING AND COOLING LOAD SUMMARY 180 deg (S) Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 21847 10895 Glazing Conduction ............... 24354 21791 Glazing Solar .................... n/a 20832 Infiltration ..................... 16384 11017 Internal Gain .................... n/a 3000 Ducts ............................ 6259 6754 Sensible Load .................... 68844 74289 Latent Load ...................... n/a Minimum Total Load 68844 22287 96575 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING Page 8 HVAC Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:03 MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE ILIVING11 Floor Area ....................... 1571 sf Volume ........................... 21994 cf Heating Cooling Description (Btuh) (Btuh) Opaque Conduction and Solar...... 8371 4415 Glazing Conduction ............... 15688 14037 Glazing Solar .................... n/a 9052 Infiltration ..................... 8319 5606 Internal Gain .................... n/a 2430 Ducts ............................ 3238 3554 Sensible Load .................... 35616 39093 Latent Load ...................... n/a 11728 Minimum Zone Load 35616 50821 ZONE 'LIVING2' Floor Area ....................... 373 sf Volume ........................... 3730 cf Heating Cooling Description (Btuh) (Btuh) Opaque Conduction and Solar...... 4091 1768 Glazing Conduction ............... 1589 1422 Glazing Solar .................... n/a 717 Infiltration ..................... 1970 1303 Internal Gain .................... n/a 570 Ducts ............................ 765 578 Sensible Load .................... 8415 6358 Latent Load ...................... n/a 1907 Minimum Zone Load 8415 8265 HVAC SIZING Page 9 HVAC Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:03 MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 ZONE 'SLEEPING' Floor Area ....................... 1465 sf Volume ........................... 16115 cf Description Opaque Conduction and Solar...... Glazing Conduction ............... GlazingSolar .................... Infiltration ..................... Internal Gain .................... Ducts............................ Sensible Load .................... LatentLoad ...................... Heating Cooling (Btuh) (Btuh) 9385 4713 7077 6332 n/a 11064 6096 4108 n/a 0 2256 2622 24813 28838 n/a 8651 Minimum Zone Load 24813 37489 HVAC SIZING Page 10 HVAC Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:03 MICROPASS v5.00 File-RLLY35TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 GENERAL INFORMATION FloorArea ................. Volume ........ ............ Front Orientation.......... Sizing Location............ Latitude... .... ........ Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range ............... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 3409 sf 41839 cf Front Facing LA QUINTA 33.7 degrees 32 F 70 F 112 F 78 F 34 F No Yes Yes 0.30 HEATING AND COOLING LOAD SUMMARY 270 deg (W) Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 21847 10895 Glazing Conduction ............... 24354 21791 Glazing Solar .................... n/a 25308 Infiltration ..................... 16384 11017 Internal Gain .................... n/a 3000 Ducts ............................ 6259 7201 Sensible Load .................... 68844 79212 Latent Load ...................... n/a 23764 Minimum Total Load 68844 102976 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING Page 11 HVAC .,,_..I_ T34-11.. v,___ _ DIM„ RS nAtt_P__10/27/99 13:58:03 MICROPAS5 v5.00 File-RLLY35TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE ILIVING11 Floor Area ....................... 1571 sf Volume ........................... 21994 cf Heating Description (Btuh) Opaque Conduction and Solar...... Glazing Conduction ............... Glazing Solar .................... Infiltration ..................... Internal Gain .................... Ducts............................ Sensible Load .................... Latent Load ...................... Minimum Zone Load ZONE 'LIVING2' Cooling (Btuh) 8371 4415 15688 14037 n/a 15520 8319 5606 n/a 2430 3238 4201 35616 46208 n/a 13862 35616 60070 Floor Area ....................... 373 sf Volume ........................... 3730 cf Heating Description (Btuh) Opaque Conduction and Solar...... 4091 Glazing Conduction ............... 1589 Glazing Solar .................... n/a Infiltration ..................... 1970 Internal Gain .................... n/a Ducts............................ 765 Sensible Load .................... 8415 LatentLoad ...................... n/a Minimum Zone Load 8415 Cooling (Btuh) 1768 1422 3354 1303 570 842 9259 2778 12036 HVAC SIZING Page 12 HVAC Project Title.......... Rielly Homes - Plan #5 Date..10/27/99 13:58:03 MICROPASS v5.00 File-RLLY35TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #5 ZONE 'SLEEPING' Floor Area ....................... 1465 sf Volume ........................... 16115 cf Description Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 9385 4713 Glazing Conduction ............... 7077 6332 Glazing Solar .................... n/a 6434 Infiltration ..................... 6096 4108 Internal Gain .................... n/a 0 Ducts ............................ 2256 2159 Sensible Load .................... 24813 23746 Latent Load ...................... n/a 7124 Minimum Zone Load 24813 30869 CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 1 CF-1R Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 ******* Project Address........ PGA West (Job #097-98085) La Quinta, California *v5.00* Documentation Author... Rick Maurer ******* Bui ding Permit Rick Maurer Title 24 7544 E Saddlehill Trail Plan Check Date Orange, CA 92869 714-771-1507 Field Check Date Climate Zone.... ..... 15 Compliance Method...... MICROPAS5 v5.00 for 1999 Standards by Enercomp, Inc. MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program -FORM CF-lR User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 GENERAL INFORMATION Conditioned Floor Area..... Building Type .............. Construction Type ......... Building Front Orientation. Number of Dwelling Units... Number of Stories.......... Floor Construction Type.... Glazing Percentage......... Average Glazing U-value.... Average Glazing SHGC....... 3698 sf Single Family Detached New Cardinal - N,E,S,W 1 1 Slab On Grade 30.4 % of floor area 0.6 Btu/hr-sf-F 0.52 BUILDING SHELL INSULATION Component Frame Cavity Sheathing Total Assembly Type Type R-value R-value R-value U-value Location/Comments Wall Wood R-21 R-n/a R-21 0.059 Front Wall, Gar. Wall Left Wall, Back Wall Right Wall Roof Wood R-30 R-n/a R-30 0.031 Vented Attic Door Wood R-0 R-n/a R-0 0.330 Garage Door S1abEdge None R-0 R-0 F2=0.760 To Outside SlabEdge None R-0 R-0 F2=0.510 To Garage Wall Wood R-0 R-n/a R-0 0.293 Wall n/a R-0 R-n/a R-0 20.000 FENESTRATION Over - Area U- Interior Exterior hang/ Orientation (sf) Value SHGC Shading Shading Fins Window Front (N) 20.0 0.510 0.510 Standard Standard Yes Window Front (N) 4.5 0.510 0.510 Standard Standard Yes Door Front (N) 48.0 0.510 0.510 Standard Standard Yes Window Front (N) 6.0 0.510 0.510 Standard Standard Yes Door Front (N) 48.0 0.550 0.650 Standard Standard Yes Window Front (N) 24.0 0.510 0.510 Standard Standard Yes Window Front (N) 25.0 0.510 0.510 Standard Standard Yes Window Front (N) 10.0 0.510 0.510 Standard Standard Yes Window Left (E) 64.0 0.650 0.510 Standard Standard Yes Window Left (E) 8.0 0.650 0.510 Standard Standard Yes Window Left (E) 16.0 0.510 0.510 Standard Standard Yes Window Left (E) 12.5 0.510 0.510 Standard Standard Yes CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 2 CF-1R Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPASS v5.00 File-RLLY36TS Wth-CTZ15S92 Program -FORM CF-1R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 FENESTRATION Over - Area U- Interior Exterior hang/ Orientation (sf) Value SHGC Shading Shading Fins Window Left (E) 40.0 0.510 0.510 Standard Standard Yes Window Left (E) 25.0 0.510 0.510 Standard Standard Yes Door Left (E) 24.0 0.590 0.650 Standard Standard Yes Window Left (E) 5.0 0.510 0.510 Standard Standard Yes Window Back (S) 64.0 0.650 0.510 Standard Standard Yes Window Back (S) 24.0 0.650 0.510 Standard Standard Yes Door Back (S) 240.0 0.650 0.510 Standard Standard Yes Window Back (S) 10.0 0.650 0.510 Standard Standard Yes Window Back (S) 80.0 0.650 0.510 Standard Standard Yes Window Back (S) 6.0 0.510 0.510 Standard Standard Yes Door Back (S) 48.0 0.510 0.510 Standard Standard Yes Door Back (S) 80.0 0.650 0.510 Standard Standard Yes Door Right (W) 80.0 0.650 0.510 Standard Standard Yes Window Right (W) 8.0 0.650 0.510 Standard Standard Yes Window Right (W) 48.0 0.510 0.510 Standard Standard Yes Window Right (W) 6.0 0.510 0.510 Standard Standard Yes Window Right (W) 18.0 0.510 0.510 Standard Standard Yes Window Right (W) 4.0 0.510 0.510 Standard Standard Yes Window Right (W) 30.0 0.510 0.510 Standard Standard Yes SLAB SURFACES Area Slab Type (sf) Standard Slab 1504 Standard Slab 331 Standard Slab 1863 HVAC SYSTEMS Minimum Duct Duct Tested Duct ACCA Thermostat Equipment Type Efficiency Location R-value Leakage Manual D Type Furnace 0.800 AFUE Attic R-6 No No LivingSt AirCond 12.00 SEER Attic R-6 No No LivingSt Furnace 0.800 AFUE Attic R-6 No No LivingSt AirCond 12.00 SEER Attic R-6 No No LivingSt Furnace 0.800 AFUE Attic R-6 No No Sleepinc AirCond 12.00 SEER Attic R-6 No No Sleepinc CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 3 CF-lR Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program -FORM CF-1R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 WATER HEATING SYSTEMS Number Tank in Energy Size Tank Type Heater Type Distribution Type System Factor (gal) External Insulation R-value Storage Gas Recirc/TimeTemp 1 .51 75 R-12 SPECIAL FEATURES AND MODELING ASSUMPTIONS *** Items in this section should be documented on the plans, *** *** installed to manufacturer and CEC specifications, and *** *** verified during plan check and field inspection. *** This is a multiple orientation building with no orientation restrictions. This printout is for the front facing North. This building incorporates a Zonally Controlled HVAC System. This building incorporates non-standard Duct R-value. Mandatory Measures require a R-12 or greater external blanket on Gas Storage Water Heaters with Energy Factors less than 0.58. REMARKS 1) The water heater will require an external insulation blanket of R-12 or greater. 2) This plan requires R-4 or greater insulation on .75 inch or larger hot water main lines or recirculating lines. This is in addition to the insulation required by the mandatory measures. 3) The water heater for this house can have a recirculating pump with a thermostatic controller and time clock, or a hot water demand type recirculating system. 4) All glass will be dual pane with bronze tint and a solar heat gain coefficient of .51 or less, except the hinged doors which are clear with a SHGC of .65 or less. * All windows will have vinyl frames with an NFRC U-value of .51 or less with the exception of the following, which will have metal frames and an NFRC U-value of .65 or less. ** Rear M.Bedroom Glass ** Rear Great Room Glass ** All Nook Glass * French doors will be metal clad over wood with .59 default NFRC U-value and a .65 default SHGC. * Front entry doors will have solid wood frames with .55 default NFRC U-value and a .65 default SHGC. CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 4 CF-1R Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program -FORM CF-1R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 COMPLIANCE STATEMENT 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, and the administrative regulations to implement them. This certificate has been signed by the individual with overall design responsibility. When this certificate of compliance is submitted for a single building plan to be built in multiple orientations, any shading feature that is varied is indicated in the Special Features Modeling Assumptions section. DESIGNER or OWNER Name.... Company. Rielly Homes Address. 23 Corporate P1azaDr,#245 Newport Beach, CA 92660 Phone... (949) 719-4975 License. Signed.. date ENFORCEMENT AGENCY Name.... Title... Agency.. Phone... Signed.. date DOCUMENTATION AUTHOR Name.... Rick Maurer Company. Rick Maurer Title 24 Address. 7544 E Saddlehill Trail Orange, CA 92869 Phone... 714-771-1507 r Signed.. 10 Z) q (date) COMPUTER METHOD SUMMARY Page 1 C-2R Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 ******* Project Address........ PGA West (Job #097-98085) La Quinta, California *v5.00* Documentation Author... Rick Maurer ******* Building Permit Rick Maurer Title 24 7544 E Saddlehill Trail Plan Check Date Orange, CA 92869 714-771-1507 Field Check/ Date Climate Zone.. ..... 15 Compliance Method...... MICROPAS5 v5.00 for 1999 Standards by Enercomp, Inc. MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 MICROPAS5 ENERGY USE SUMMARY Energy Use Standard Proposed Compliance (kBtu/sf-yr) Design Design Margin Space Heating.......... 3.92 3.52 0.40 Space Cooling.......... 42.64 40.29 2.35 Water Heating.......... 7.71 7.71 0.00 North Total 54.27 51.52 2.75 Space Heating.......... 3.92 4.09 -0.17 Space Cooling.......... 42.64 41.55 1.09 Water Heating.......... 7.71 7.71 0.00 East Total 54.27 53.35 0.92 Space Heating.......... 3.92 4.55 -0.63 Space Cooling.......... 42.64 38.77 3.87 Water Heating.......... 7.71 7.71 0.00 South Total 54.27 51.03 3.24 Space Heating.......... 3.92 3.74 0.18 Space Cooling.......... 42.64 40.70 1.94 Water Heating.......... 7.71 7.71 0.00 West Total 54.27 52.15 2.12 *** Building complies with Computer Performance *** 11 GENERAL INFORMATION Conditioned Floor Area..... Building Type .............. Construction Type ......... Building Front Orientation. Number of Dwelling Units... Number of Building Stories. Weather Data Type.......... Floor Construction Type.... Number of Building Zones... 3698 sf Single Family Detached New Cardinal - N,E,S,W 1 1 ReducedYear Slab On Grade 3 COMPUTER METHOD SUMMARY Page 2 C-21 Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 Zone Type LIVINGI Conditioned Volume......... 44859 cf Slab -On -Grade Area......... 3698 sf Glazing Percentage......... 30.4 % of floor area Average Glazing U-value.... 0.6 Btu/hr-sf-F Average Glazing SHGC....... 0.52 Average Ceiling Height..... 12.1 ft BUILDING ZONE INFORMATION Floor # of Vent Vent Area Volume Dwell Cond- Thermostat Height Area (sf) (cf) Units itioned Type (ft) (sf) Air Leakage Credit Living 1504 21056 0.82 Yes LivingStat 2.0 Standard No LIVING2 Living 331 3310 0.18 Yes LivingStat 2.0 Standard No SLEEPING Sleeping 1863 20493 0.00 Yes SleepingStat 2.0 Standard No OPAQUE SURFACES Area U- Insul Act Solar Form 3 Location/ Surface (sf) value R-val Azm Tilt Gains Reference Comments LIVINGI 1 Wall 366 0.059 21 0 90 Yes None Front Wall 5 Wall 529 0.059 21 90 90 Yes None Left Wall 8 Wall 256 0.059 21 180 90 Yes None Back Wall 11 Wall 170 0.059 21 270 90 Yes None Right Wall 15 Roof 1504 0.031 30 n/a 0 Yes None Vented Attic LIVING2 2 Wall 166 0.059 21 0 90 Yes None Front Wall 6 Wall 178 0.059 21 90 90 Yes None Left Wall 9 Wall 160 0.059 21 180 90 Yes None Back Wall 12 Wall 166 0.059 21 270 90 Yes None Right Wall 16 Roof 331 0.031 30 n/a 0 Yes None Vented Attic SLEEPING 3 Wall 85 0.059 21 0 90 Yes None Front Wall 4 Wall 309 0.059 21 0 90 No None Gar. Wall 7 Wall 350 0.059 21 90 90 Yes None Left Wall 10 Wall 218 0.059 21 180 90 Yes None Back Wall 13 Wall 565 0.059 21 270 90 Yes None Right Wall 14 Wall 264 0.059 21 270 90 No None Gar. Wall 17 Roof 1863 0.031 30 n/a 0 Yes None Vented Attic 18 Door 21 0.330 0 0 90 No None Garage Door COMPUTER METHOD SUMMARY Page 3 C-2F Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 PERIMETER LOSSES Length F2 Insul Solar Surface (ft) Factor R-val Gains Location/Comments LIVINGI 19 S1abEdge LIVING2 20 S1abEdge SLEEPING 21 S1abEdge 22 SlabEdge Orientation LIVINGI 3 Door 4 Window 5 Door 6 Window 9 Window 10 Window 11 Window 12 Window 18 Window 19 Door 20 Window 21 Window 25 Door 26 Window LIVING2 1 Window 2 Window 23 Door SLEEPING 7 Window 8 Window 13 Window 14 Window 15 Door 16 Window 17 Window 22 Window 24 Door 27 Window 28 Window 29 Window 30 Window 31 Window 147 0.760 R-0 76 0.760 R-0 147 0.760 R-0 54 0.510 R-0 No To Outside No To Outside No To Outside No To Garage FENESTRATION SURFACES Area U- Act Exterior Shade Interior Shade (sf) Value SHGC Azm Tilt Type/SHGC Type/SHGC Front (N) 48.0 0.510 0.510 0 90 Standard/0.76 Front (N) 6.0 0.510 0.510 0 90 Standard/0.76 Front (N) 48.0 0.550 0.650 0 90 Standard/0.76 Front (N) 24.0 0.510 0.510 0 90 Standard/0.76 Left (E) 64.0 0.650 0.510 90 90 Standard/0.76 Left (E) 8.0 0.650 0.510 90 90 Standard/0.76 Left (E) 16.0 0.510 0.510 90 90 Standard/0.76 Left (E) 12.5 0.510 0.510 90 90 Standard/0.76 Back (S) 24.0 0.650 0.510 180 90 Standard/0.76 Back (S) 240.0 0.650 0.510 180 90 Standard/0.76 Back (S) 10.0 0.650 0.510 180 90 Standard/0.76 Back (S) 80.0 0.650 0.510 180 90 Standard/0.76 Right (W) 80.0 0.650 0.510 270 90 Standard/0.76 Right (W) 8.0 0.650 0.510 270 90 Standard/0.76 Front (N) 20.0 0.510 0.510 0 90 Standard/0.76 Front (N) 4.5 0.510 0.510 0 90 Standard/0.76 Back (S) 48.0 0.510 0.510 180 90 Standard/0.76 Front (N) 25.0 0.510 0.510 0 90 Standard/0.76 Front (N) 10.0 0.510 0.510 0 90 Standard/0.76 Left (E) 40.0 0.510 0.510 90 90 Standard/0.76 Left (E) 25.0 0.510 0.510 90 90 Standard/0.76 Left (E) 24.0 0.590 0.650 90 90 Standard/0.76 Left (E) 5.0 0.510 0.510 90 90 Standard/0.76 Back (S) 64.0 0.650 0.510 180 90 Standard/0.76 Back (S) 6.0 0.510 0.510 180 90 Standard/0.76 Back (S) 80.0 0.650 0.510 180 90 Standard/0.76 Right (W) 48.0 0.510 0.510 270 90 Standard/0.76 Right (W) 6.0 0.510 0.510 270 90 Standard/0.76 Right (W) 18.0 0.510 0.510 270 90 Standard/0.76 Right (W) 4.0 0.510 0.510 270 90 Standard/0.76 Right (W) 30.0 0.510 0.510 270 90 Standard/0.76 Standard/0.68 Standard/0.68 Standard/0.68 Standard/0.68 Standard/0.68 Standard/ 0.6 8 Standard/0.68 Standard/0.68 Standard/0.68 Standard/0.68 Standard/ 0.6 8 Standard/0.68 Standard/0.68 Standard/0.68 Standard/0.68 Standard/0.68 Standard/0.68 Standard/0 .68 Standard/0.68 Standard/0.68 Standard/0.68 Standard/0.68 Standard/0.68 Standard/0.68 Standard/0.68 Standard/ 0.6 8 Standard/0.68 Standard/0.68 Standard/0.68 Standard/0.68 Standard/0.68 COMPUTER METHOD SUMMARY Page 4 C-21 Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 OVERHANGS AND SIDE FINS Window- Overhang Left Fin Right Fin - Area Left Rght Surface (sf) Wdth Hgth Dpth Hght Ext Ext Ext Dpth Hght Ext Dpth Hght LIVINGI 3 Door 48.0 n/a 8.0 1.0 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 4 Window 6.0 n/a 4.0 1.0 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 5 Door 48.0 n/a 8.0 9.5 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 6 Window 24.0 n/a 4.0 9.5 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 9 Window 64.0 n/a 8.0 1.0 3.5 n/a n/a n/a n/a n/a n/a n/a n/a 10 Window 8.0 n/a 1.0 1.0 1.0 n/a n/a n/a n/a n/a n/a n/a n/a 11 Window 16.0 n/a 2.0 1.0 2.5 n/a n/a n/a n/a n/a n/a n/a n/a 12 Window 12.5 n/a 5.0 1.0 5.5 n/a n/a n/a n/a n/a n/a n/a n/a 18 Window 24.0 n/a 1.0 15. 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 19 Door 240.0 n/a 10. 15. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 20 Window 10.0 n/a 1.0 1.0 0.5 n/a n/a n/a n/a n/a n/a n/a n/a 21 Window 80.0 n/a 8.0 1.0 9.5 n/a n/a n/a n/a n/a n/a n/a n/a 25 Door 80.0 n/a 10. 10. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 26 Window 8.0 n/a 1.0 10. 0.0 n/a n/a n/a n/a n/a n/a n/a n/a LIVING2 1 Window 20.0 n/a 5.0 1.0 0.5 n/a n/a n/a n/a n/a n/a n/a n/a 2 Window 4.5 n/a 3.0 1.0 1.5 n/a n/a n/a n/a n/a n/a n/a n/a 23 Door 48.0 n/a 8.0 1.0 4.5 n/a n/a n/a n/a n/a n/a n/a n/a SLEEPING 7 Window 25.0 n/a 5.0 1.0 0.5 n/a n/a n/a n/a n/a n/a n/a n/a 8 Window 10.0 n/a 2.0 1.0 5.5 n/a n/a n/a n/a n/a n/a n/a n/a 13 Window 40.0 n/a 5.0 1.0 4.0 n/a n/a n/a n/a n/a n/a n/a n/a 14 Window 25.0 n/a 5.0 1.0 4.0 n/a n/a n/a n/a n/a n/a n/a n/a 15 Door 24.0 n/a 8.0 15. 2.0 n/a n/a n/a n/a n/a n/a n/a n/a 16 Window 5.0 n/a 1.7 15. 0.0 n/a n/a n/a n/a n/a n/a n/a n/a 17 Window 64.0 n/a 8.0 1.0 3.5 n/a n/a n/a n/a n/a n/a n/a n/a 22 Window 6.0 n/a 3.0 1.0 1.5 n/a n/a n/a n/a n/a n/a n/a n/a 24 Door 80.0 n/a 10.0 1.0 3.5 n/a n/a n/a n/a n/a n/a n/a n/a 27 Window 48.0 n/a 8.0 1.0 3.5 n/a n/a n/a n/a n/a n/a n/a n/a 28 Window 6.0 n/a 3.0 1.0 5.5 n/a n/a n/a n/a n/a n/a n/a n/a 29 Window 18.0 n/a 3.0 1.0 2.5 n/a n/a n/a n/a n/a n/a n/a n/a 30 Window 4.0 n/a 2.0 1.0 1.5 n/a n/a n/a n/a n/a n/a n/a n/a 31 Window 30.0 n/a 8.0 1.0 1.5 n/a n/a n/a n/a n/a n/a n/a n/a INTER -ZONE SURFACES Area Insul Form 3 Surface (sf) U-value R-val Reference Location/Comments LIVINGI/SLEEPING 1 Wall 310 0.293 R-0 NONE 2 Wall 30 20.000 R-0 NONE COMPUTER METHOD SUMMARY Page 5 C-2T Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 Minimum System Type Efficiency LIVINGI Furnace AirCond LIVING2 Furnace AirCond SLEEPING Furnace AirCond 0.800 AFUE 12.00 SEER 0.800 AFUE 12.00 SEER 0.800 AFUE 12.00 SEER SLAB SURFACES Area Slab Type (sf) LIVINGI Standard Slab 1504 LIVING2 Standard Slab 331 SLEEPING Standard Slab 1863 HVAC SYSTEMS Duct Duct Tested Duct ACCA Duct Location R-value Leakage Manual D Eff Attic R-6 No No 0.770 Attic R-6 No No 0.626 Attic R-6 No No 0.770 Attic R-6 No No 0.626 Attic R-6 No No 0.770 Attic R-6 No No 0.626 WATER HEATING SYSTEMS Number Tank External in Energy Size Insulation Tank Type Heater Type Distribution Type System Factor (gal) R-value 1 Storage Gas Recirc/TimeTemp 1 .51 75 R-12 SPECIAL FEATURES AND MODELING ASSUMPTIONS *** Items in this section should be documented on the plans, *** *** installed to manufacturer and CEC specifications, and *** *** verified during plan check and field inspection. *** This is a multiple orientation building with no orientation restrictions. This printout is for the front facing North. This building incorporates a Zonally Controlled HVAC System. This building incorporates non-standard Duct R-value. Mandatory Measures require a R-12 or greater external blanket on Gas Storage Water Heaters with Energy Factors less than 0.58. COMPUTER METHOD SUMMARY Page 6 C-2F Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPASS v5.00 File-RLLY36TS Wth-CTZ15S92 Program -FORM C-2R User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 REMARKS 1) The water heater will require an external insulation blanket of R-12 or greater. 2) This plan requires R-4 or greater insulation on .75 inch or larger hot water main lines or recirculating lines. This is in addition to the insulation required by the mandatory measures. 3) The water heater for this house can have a recirculating pump with a thermostatic controller and time clock, or a hot water demand type recirculating system. 4) All glass will be dual pane with bronze tint and a solar heat gain coefficient of .51 or less, except the hinged doors which are clear with a SHGC of .65 or less. * All windows will have vinyl frames with an NFRC U-value of .51 or less with the exception of the following, which will have metal frames and an NFRC U-value of .65 or less. ** Rear M.Bedroom Glass ** Rear Great Room Glass ** All Nook Glass * French doors will be metal clad over wood with .59 default NFRC U-value and a .65 default SHGC. * Front entry doors will have solid wood frames with .55 default NFRC U-value and a .65 default SHGC. HVAC SIZING Page 1 HVAC Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 Project Address........ PGA West (Job #097-98085)******* La Quinta, California *v5.00* Documentation Author... Rick Maurer ******* Rick Maurer Title 24 7544 E Saddlehill Trail Orange, CA 92869 714-771-1507 Climate Zone 15 Compliance Method...... MICROPAS5 v5.00 for 1999 Standards by Enercomp, Inc. MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 GENERAL INFORMATION Floor Area ................. Volume.. ..... ............ Front Orientation.......... Sizing Location............ Latitude.... ............. Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... SummerRange. ...... ..... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 3698 sf 44859 cf Front Facing LA QUINTA 33.7 degrees 32 F 70 F 112 F 78 F 34 F No Yes Yes 0.30 HEATING AND COOLING LOAD SUMMARY 0 deg (N) Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 24831 13226 Glazing Conduction ............... 25468 22787 Glazing Solar .................... n/a 22297 Infiltration ..................... 17464 11747 Internal Gain .................... n/a 3000 Ducts ............................ 6776 7306 Sensible Load .................... 74539 80364 Latent Load ...................... n/a 24109 Minimum Total Load 74539 104473 X1.3 -CM09o0 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING Page 2 HVAC Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE ILIVING11 Floor Area ....................... 1504 sf Volume ........................... 21056 cf Heating Description (Btuh) Opaque Conduction and Solar...... Glazing Conduction ............... Glazing Solar .................... Infiltration ..................... Internal Gain .................... Ducts ............................ Sensible Load .................... Latent Load ...................... Minimum Zone Load ZONE 'LIVING2' 8979 15763 n/a 7964 n/a 3271 35977 n/a 35977 Floor Area ....................... 331 sf Volume ........................... 3310 cf Heating Description (Btuh) Opaque Conduction and Solar...... 4087 Glazing Conduction ............... 1405 Glazing Solar .................... n/a Infiltration ..................... 1748 Internal Gain .................... n/a Ducts ............................ 724 Cooling (Btuh) 5012 14104 10940 5367 2460 3788 41672 12501 54173 Cooling (Btuh) 1833 1257 1081 1157 540 587 Sensible Load .................... 7964 6454 Latent Load ...................... n/a 1936 Minimum Zone Load 7964 8390 HVAC SIZING Page 3 HVAC Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 ZONE 'SLEEPING' Floor Area ....................... 1863 sf Volume ........................... 20493 cf Description Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 11765 Glazing Conduction ............... 8300 Glazing Solar .................... n/a Infiltration ..................... 7752 Internal Gain .................... n/a Ducts ............................ 2782 Sensible Load .................... 30599 Latent Load ...................... n/a Minimum Zone Load 30599 6381 7427 10276 5224 0 2931 32238 9672 41910 HVAC SIZING Page 4 HVAC Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 GENERAL INFORMATION FloorArea ................. Volume .. ..... ............ Front Orientation.......... Sizing Location............ Latitude ................... Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... SummerRange ............... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 3698 sf 44859 cf Front Facing LA QUINTA 33.7 degrees 32 F 70 F 112 F 78 F 34 F No Yes Yes 0.30 HEATING AND COOLING LOAD SUMMARY 90 deg (E) Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 24831 13226 Glazing Conduction ............... 25468 22787 Glazing Solar .................... n/a 24235 Infiltration ..................... 17464 11747 Internal Gain .................... n/a 3000 Ducts ............................ 6776 7500 Sensible Load .................... 74539 82495 Latent Load ...................... n/a 24749 Minimum Total Load 74539 107244 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. M HVAC SIZING Page 5 HVAC Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE ILIVING11 Floor Area ....................... 1504 sf Volume ........................... 21056 cf Heating Cooling Description (Btuh) (Btuh) Opaque Conduction and Solar...... 8979 5012 Glazina Conduction ............... 15763 14104 Glazing Solar .................... n/a 11277 Infiltration ..................... 7964 5367 Internal Gain .................... n/a 2460 Ducts ............................ 3271 3822 Sensible Load .................... 35977 42041 Latent Load ...................... n/a 12612 Minimum Zone Load 35977 54654 ZONE 'LIVING2' Floor Area ....................... 331 sf Volume ........................... 3310 cf Heating Cooling Description (Btuh) (Btuh) Opaque Conduction and Solar...... 4087 1833 Glazing Conduction ............... 1405 1257 Glazing Solar .................... n/a 2965 Infiltration ..................... 1748 1157 Internal Gain .................... n/a 540 Ducts ............................ 724 775 Sensible Load .................... 7964 8527 Latent Load ...................... n/a 2558 Minimum Zone Load 7964 11085 HVAC SIZING Page 6 HVAC Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 ZONE 'SLEEPING' Floor Area ....................... 1863 sf Volume ........................... 20493 cf Description Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 11765 Glazing Conduction ............... 8300 Glazing Solar .................... n/a Infiltration ..................... 7752 Internal Gain .................... n/a Ducts ............................ 2782 Sensible Load .................... 30599 Latent Load ...................... n/a 6381 7427 9993 5224 0 2902 31927 9578 Minimum Zone Load 30599 41505 HVAC SIZING Page 7 HVAC Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 GENERAL INFORMATION FloorArea ................. Volume .. ..... ............ Front Orientation.......... Sizing Location............ Latitude... .. ........ Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range. ...... ..... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... 3698 sf 44859 cf Front Facing LA QUINTA 33.7 degrees 32 F 70 F 112 F 78 F 34 F No Yes Yes 0.30 HEATING AND COOLING LOAD SUMMARY Heating Description (Btuh) Opaque Conduction and Solar...... 24831 Glazing Conduction ............... 25468 Glazing Solar .................... n/a Infiltration ..................... 17464 Internal Gain .................... n/a Ducts ............................ 6776 Sensible Load .................... 74539 Latent Load ...................... n/a 180 deg (S) Cooling (Btuh) 13226 22787 20350 11747 3000 7111 78222 23467 Minimum Total Load 74539 101688 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING Page 8 HVAC Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE ILIVING11 Floor Area ....................... 1504 sf Volume ........................... 21056 cf Heating Cooling Description (Btuh) (Btuh) Opaque Conduction and Solar...... 8979 5012 Glazing Conduction ............... 15763 14104 Glazing Solar .................... n/a 10540 Infiltration ..................... 7964 5367 Internal Gain .................... n/a 2460 Ducts ............................ 3271 3748 Sensible Load .................... 35977 41231 Latent Load ...................... n/a 12369 Minimum Zone Load 35977 53600 ZONE 'LIVING2' Floor Area ....................... 331 sf Volume ........................... 3310 cf Description Heating (Btuh) Opaque Conduction and Solar...... 4087 Glazing Conduction ............... 1405 Glazing Solar .................... n/a Infiltration ..................... 1748 Internal Gain .................... n/a Ducts............................ 724 Sensible Load .................... 7964 LatentLoad ...................... n/a Minimum Zone Load 7964 Cooling (Btuh) 1833 1257 679 1157 540 547 6012 1804 7815 HVAC SIZING Page 9 HVA( Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:2� MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West Plan #6 ZONE 'SLEEPING' Floor Area ....................... 1863 sf Volume ........................... 20493 cf Description Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 11765 Glazing Conduction ............... 8300 Glazing Solar .................... n/a Infiltration ..................... 7752 Internal Gain .................... n/a Ducts ............................ 2782 Sensible Load .................... 30599 Latent Load ...................... n/a Minimum Zone Load 30599 6381 7427 9131 5224 0 2816 30979 9294 40273 HVAC SIZING Page 10 HVAC Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPASS v5.00 File-RLLY36TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 GENERAL INFORMATION FloorArea ................. Volume..................... Front Orientation.......... Sizing Location............ Latitude... .............. Winter Outside Design...... Winter Inside Design....... Summer Outside Design...... Summer Inside Design....... Summer Range........ ..... Interior Shading Used...... Exterior Shading Used...... Overhang Shading Used...... Latent Load Fraction....... Description 3698 sf 44859 cf Front Facing LA QUINTA 33.7 degrees 32 F 70 F 112 F 78 F 34 F No Yes Yes 0.30 HEATING AND COOLING LOAD SUMMARY Heating (Btuh) Opaque Conduction and Solar...... 24831 Glazing Conduction ............... 25468 Glazing Solar .................... n/a Infiltration ..................... 17464 InternalGain .................... n/a Ducts ............................ 6776 Sensible Load .................... 74539 Latent Load ...................... n/a 270 deg (W) Cooling (Btuh) 13226 22787 23659 11747 3000 7442 81862 24559 Minimum Total Load 74539 106421 Note: The loads shown are only one of the criteria affecting the selection of HVAC equipment. Other relevant design factors such as air flow requirements, outdoor design temperatures, coil sizing, availability of equipment, oversizing safety margin, etc., must also be considered. It is the HVAC designer's responsibility to consider all factors when selecting the HVAC equipment. HVAC SIZING Page 11 HVAC Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 HEATING AND COOLING LOAD SUMMARY BY ZONE ZONE ILIVING11 Floor Area ....................... 1504 sf Volume ........................... 21056 cf Heating Description (Btuh) Opaque Conduction and Solar...... Glazing Conduction ............... Glazing Solar .................... Infiltration ..................... InternalGain .................... Ducts............................ Sensible Load .................... Latent Load ...................... Minimum Zone Load 8979 15763 n/a 7964 n/a 3271 35977 n/a 35977 ZONE 'LIVING2' Floor Area ....................... 331 sf Volume ........................... 3310 cf Description Opaque Conduction and Solar...... Glazing Conduction ............... GlazingSolar .................... Infiltration ..................... InternalGain .................... Ducts............................ Sensible Load .................... Latent Load ...................... Minimum Zone Load Heating (Btuh) 4087 1405 n/a 1748 n/a 724 7964 n/a 7964 Cooling (Btuh) 5012 14104 10549 5367 2460 3749 41241 12372 53613 Cooling (Btuh) 1833 1257 2965 1157 540 775 8527 2558 11085 HVAC SIZING Page 12 HVAC Project Title.......... Rielly Homes - Plan #6 Date..10/27/99 13:58:24 MICROPAS5 v5.00 File-RLLY36TS Wth-CTZ15S92 Program-HVAC SIZING User#-MP0357 User -Rick Maurer Title 24 Run -PGA West - Plan #6 ZONE 'SLEEPING' Floor Area ....................... 1863 sf Volume ........................... 20493 cf Description Heating Cooling (Btuh) (Btuh) Opaque Conduction and Solar...... 11765 Glazing Conduction ............... 8300 Glazing Solar .................... n/a Infiltration ..................... 7752 Internal Gain .................... n/a Ducts ............................ 2782 Sensible Load .................... 30599 Latent Load ...................... n/a Minimum Zone Load 30599 6381 7427 10145 5224 0 2918 32094 9628 41723 MIC.-; CPA SS table 1-2. Standard U-Miucs of Wood Fame Roofs/Cxd&rgs and Roofleeiling Fratrdng Refecc:a�' Insulation Spa6nz Fame U--Value R-03 16" or- RA?X6.16 0.299 R-03 24' o.c R.0?X4 24 0-306 R-I 13 16" o - R.11-ZM16 0.077 R-1 I 3 2� o.c. R.1 I.=.X-*-Z�* 0.076 R-133 16" o.c. R.I3?X6.16 0.069 R-123 24-o.c R.13 4.244 0.068 R-19 16" o.c. R.19_'X3.16 0.051 R-19 Z4 o.c R.I9.2-X-.2: 0.047 R-22 16" a-c. "'XIO_I6 0.0" R-2'- 24- ox- „ -. � �--4 0.041 R-30 16" o.c. R_0-2.110.16 0.036 R-30 16" O.C. R.30_?Xl? 16 0.035 R-30 2, o-c- R : 0.031 R-38 16" o.c. R-3S 2X12.16 0.029 R-38 16- O.C. R-38.2X14.16 0.028 R-38 24- o.c. R.38.2X1434 0.025 to R--9 16" o.c. R=9.2X-.I6 0.019 R- 9 2:' a.c. 0.019 %''all Insulation R 0316 0-386 -03 '_- o.c. W.0.Z.X-'S 0?93 R-73 16- o.c. W.7?.X4.16 0.130 R-7 � ? ,- O.C. 0.127 R- I [ : 16- a_rr W. I I ' X-.16 0.098 R- i 13_'" o.c_ W. 'X- '- 0.09< R-13 lb" o.c. W.I3.'14.t6 0.088 R-13 '_" C.C. w.13?1-?- 0.085 R-1 g 16- o-c. W. ?. �. 15._X' 16 0.081 R-15 34" o.c- W.15?X-y; 0.077 16" o.rw W.19?X6.16 0.065 R-19 :-- o.c W.19?\6?_ 0.063 R-? 1 16- a� W_2I-'X6.16 0.059 R-ZI _'�" a.c W.:I_'X6-2: 0.056 Iz -25 16" o.c W 5IX6.16 0.046 R-29 167 o.c W- 9-ZX4.16 0.035 Sclidcore wood 0.0SLIN 0.330 600 door (no insulation) 1. Based an ASHRAE Parallel heat Foy Calculauan. ASHRAE randbook of F:ndane.-ttals. 2 These Reference Narnes art taicea „ om Aaacndiz $ of t.'ie Residenrial dfanual. 3. Does not meet the minimum level cnrtuired as a mandatory measure (sc part 2-2 of the Residenrial ,Manual). Roof(ceilins+ assemblies whose reference names list 2z4 frarnine include an attic saace. 2 - 3 4 cofvfPLIANCF 0 /1 Q/99 Z 1999 by Enert;cir.c. fnc • Chapter 2 -; INFUi REFERENCE Table 2-1_ Standard U-values of Stood Fame liaised Floors! Floor Insulation Condition Name U-Valuc R-03 R-03 No =mIspacc MIX6.16 r R-I 13 Craudspacs FCD?X6_ I6 0.097 R-! I 3 Nocauispace FXII M-16 aml R-13 Crawlspaca FCI LIX6.16 0.049 R-13 No cau-ispace FXI3.ZXCL16 0.064 R-19 Crawlspac: FCI3 ' 16 0 0 4b R- 19 No cau-isoac.: FC I9?XB_ 16 0.048 R'= I Craw ispace FCI9-=16 0 037 R _2 I No c: awispace Fes—" 12M-16 0.045 R-30 Gzu lspace FC I ��C8.16 0.035 R-30 No aawispace F)MIXI0.16 0.034 Crawispace FC3O.?XIO.16 0.0� ' 1. Based an ASHRAE ?ar-.lief hest Flow Calcui: Lion. ASHRAE: =dboo ; of Fundamentals_ 2. The Nsncs given to the standard assemblies used to czlculate these U-aiues in Appendix H of the Residenlial 3. Does not meet the minimum level reauir.-! as a .m:ndator,%Manual. • measure (se: Pan 3.2 of the Residcrcrial.tfanua(1. i aort 2-4. 55rarrdard U-+•clefts of flood Foam panel Rcafz1Ctilurgs and ltall? Root/Ceiling Framing Refercnc-' Insulation Soacine U-Value Q R--72 48 o.c_ RP.14.?};4.48 0-06, R_3g 48- O.C. Rp „ ,X&� 0.044 R-36 48o.c_ 3P?3?X8.48 0.035 �trali Insulction 4- o.c_ 3P 6_1I0.48 � 0.0� R- (_ 48- o.c_ 0.07i .211X6.48 0.049 (. 3ascd ocz .zSFRAE ?amilei heat Fay C_lc :i: lion. ASHR.;C ;=dbCoi: of rundarre::tais. '.. i nc names cis c^ to he standard asserzblics used to c2,C.., to these L'-.aiu� in Appendix of the Rcsidenricl :fcnucl. Does lot met; the M.'Mmum level reruircd as a ,mandator- measure (see Par'? I mr rfr� O 1999 by Enerc--mp, Inc. i ao/e 2-5. Slab edge H= Loss Rare (F3 Facor) Insulation R-Value Insulation Depth (in.) R-0 R-3 R-5 R.7 0 8 0.76 0.76 0.76 0.76 0.76 0.66 0,64 18 0.76 0.62 OS8 0.56 0.76 0-58 0-54 0.511 24 0.76 0S7 0.53 0.50 0611C/99 COIrfPUANCE 2 m 3 5 MICFCFASS GLAP Table Z-- Default t tnessration Prodrer U-Values (dtts table to be used bra manufacnrrer i to esrablislr a U--' alue raring ( ~ without performance resting) Sin_le Pane Double ?=a T)pel Produa Type U-value U-value-' Metal Operable I _S 0.57 Metal Fixed 1.19 0.7Z Mew Gre rmousciCardrt window 2.=5 1.40 Meal Doors 1._.5 0.35 Meci Si:yli�ht l.7? 0.9= Metal. The. -mat Break Opc �bie 0.71 !•teal. Thermal Breai; Fixed 0.60 M, =1. Thermal Break Grcethousc/G.uden window 1.12 Meal- Thermal Break Doors 0.641 Nfe[al. Thermal Break Skylight O.SO Non -Mew Operable 0.99 0.60 i\'on-Metat Fixed I.0-1 0.57 Non -Metal Doors 0.99 0.35 Non -Metal Greenhouse/Garden xindow's 1.9s 1.06 >1on-,\fetal Si:v light _ [.47 0.68 L Metal includes any acid-fabnc=ted product with neul ciaddins- I -metal - �med ,manufzc:ured fenestration products with metal cladding must add 0.01 to the listed U_j value. :Non -:Metal frame Itypes can include metal faster, -s. hard —am and door thresholds. Thermal break produc: design charac:ristics are: a. The matcrial used as the :hermai br=k ;aunt hav- a [hem, at conductivity- of not more than :.6 Btu-inchthtl, ),'a, b Tne the mal brae 1: must produc_ a Sao of not less than 0? I0-, and All me:ai members of the fenestration produc: exposed to interior and extc or air! must incprortc a zh_-rmai bre=k mec ink th- c~teria in (a) and (b) above. In addition. the fenestration produel must be dearty labeled by the manufarut that it qualities as a the-,zilv broi- product in accordanc= with this standard. Z. =or all dual _lazed fc::css-..tian products. adjust the listed U-%-alues as fat[owr a Subtract 0.05 far soarc:s of 7116- or wide. b. Subtract 0.05 for oroducs ce:tficd by the manufacurcr as log•-t dazing•. 0 C. Add 0.05 for products with dividers betw-r-n panes if space is less than 7116- wide. d. add 0.05 to any product with true divided lite (dividers through the panes). Note- - C;- alucs/Operator types: 77te default U'a/ue of a fenestration 7rVducr changes based on rite operator type. For ecampie. a sliding -type u•irrdaw- 11-ill hate a dir-erent U-value than aired window that is othent-ise identical (see Table Z 6) As the U-value, orientation. tilt• shading derice Miar hear gait coefficient. overhang and jut configuration are all irepur variables it is recommended that each window of a buddutg be entered into MICROPAS indiiidualh: 2 — 3 V CICMPLIANCc 061T O199 C 1999 by t:;ercz:t-c. Irc Chapter 2: INFUT ,4- _ _,-- A'ou - Labeling; As of .1anuarr 1. 1993. all jeneszrittion pmdruzs used for nru; retrolrt or remodel Carcrtrrraiom must display a label raring rite %vindoiv lines perf0rmance.3c3lrrrrirrs in July 1999 . dye only esreprion to labeling is for freld fabricared faresrraaan produrs. these are producu constructed ar the building sire from mareriaLr not cart or formed u•irit r/rc inrenrian of rae$irrg a fenestration product Alf arher pmducrr mreu be labeled «zr/t a CC` Default or MFRC•rared U-alue and solar hear gain coedtcienr (see Table 2-6 and Table 2-7). Table 2-7. Default Solar Hear Gain Coefirtens Total Aindou SHCC Frame Type Product Glazing Sincle DoublePane Pane Metal Operable Uncoated ISO 0.'0 ,Metal Fized Uncoated 0.83 0.73 Metal Operable Tinted 0.67 0j9 Mew Fixed Tinted 0.68. 0.60 :Metal. Thermal Break Operable Uncoated 0.72 0.63 Metal. Thc.-mal Bre_k Fixed Uncoated 0.79 0.69 :Metal. Thermal Brr_k Operable Tinted 0.60 0i3 Metal. The -mat Break Fixed Tinted 0.65 Oj7 Non -Metal Operable Uncoated 0.7_ 0.654de Non --Metal Fixed Uncoated 0.76 0.67 Nan -Metal Operable Tinted 0.60 0- 3 Non-tMetai Fired Tinted 0.63 0.53 h SFGC = Solar Heat Gain Coefftcicnt Vote - Lvx•.e Glass Default SiiGC.• Alrlrotrgit !oa•-t glass is a coated product, for prtrnosez of cotnpfiance. if you do nor have art ,VFRC t•alue far rite Sc1GC. use the turcaared values front Table 2- 7. Lome ;lass is nor c rimed product. Glazing ^.,yea The area for dazing- or fenestration productss is calculated 'tom the nominal (c._.. _a:a) or rau_h opening dimensions. Doors: Any door haying Mass must :e entered in ;�MICROPAS as =lazing are For any door --kh are. �-RC rating (doors with more rlrarr 30 percent of their surface area made la of ±ass), the eruire area of the door ,must be entered in MICROPAS as 2lazino area. since the product rating is for dire :ndre door. For doors with SO ocrcent or less of their surface area made uo of class enter. either the entire door area as c±azinz or the ac ua1 arcs of ;lass o±us a two inch frame cztendin_ on all sides (the remaining door arcs is modeled as an OPAQUE Si;'RF-�C E The U-value and solzr heat Cain coefficient of the door is take= from Table 2 6 and Tablc ? - or manufac.-are: data. Gre-nhouse (garden) Windo«-s: Greenhouse window zlazinLr area is calc.:fated usir,c the rough opening for rite unit (se_ =tcure 2.23). The npicalh his -her U-value of crc_nhouse windows accounts for additional heat loss from the prcjeatins too. sides and bottom of the unit. Glazing Orientation Orientation (azimuth) for fenestration products is alwa)'s relative to the designated "front" orientation (reter d to as the Platt Azimur/t) (see Table 2-1). The desisnations 'Right' and Leff are from the pe.-spea:iye of someone outside. facing the front of the house: ,also set Figure 2-18 (under opaque surfaces) for a sample diagram. 1999 by Enerczmp, Ina OFJ10/99 CO1rfP�NCc2-39 Chapter Z 1NFU7 RE ==-, E%4C. Aotr — Interiar and F=eriar Sl=ding T)pesSolar Heat Gala CaefjPcerrrs_ 3, choosier eirher Ttandard' or 7Vone• as the shading deice type the CEC ==lard essurrption for interior and =erior shading is modeled br d41CROPAS (drapes and bug scrrens an rL=^irr other than s*j lights and no in or eserior shading on sLZlig/r�� t aate 1-d. )atar Kear Gain Cori fcienrs for Interior Sl=d ng Deuces Standard. Drapery 0.6V Blinds: %rctedan Blinds, Vertical Blinds or MiniB finds 147 Roller Shade OPaq= Rolls. Shad= Q471 None (for Skylights only) 1 00 ",!,ane (for vertical cizzinc suz-aczs) 0.69 L 0.68 is the default value used when there is no interiar shading dexice instclle- an vertical fenestration products. 2. On lanuan• 1. 2002. 002quc Roller Shades must be modeled with a 0.63 SHGC. Table 2.9. Solar He_r Gain COeArcicrtrs for Errerior Shading Dericesi Sh :dint Deviec= Standard (Bu; Screens) Woven Exterior Shadcs.rr_ns (53zi6rnefi weave) Louvered Shadcscrccns utlouvers as wide as openings Lou- Sun Ang!c (LSA) Louvered Shadescre-ns Roll down (a%vMn_s. blinds, or siats) None (for skviit.:ts only) None (for ver:iczi g!azin surfaccs) Substantially Shad_-dlBuiidin= Shade u/ Sinz!e Pane C?rr Glass' 0.76 0.30 0-7 0.13 0.I3 1.00 0.76 0.?0 Gte for opera-ble auainrs (canvas, plastic or r,.c*ai) ezr_pt those: ties :till vert:cril cc .• n and cover the cntirc azndaw, should be L-catcd as overhanm Standard bug ==ns are assurned for ail vertical giazin= unless replaced by Corer ezteriar shade s.:ec is The SHGC for bus sc.----ns is an arra-144eighted value that assumes that the sc,.--,Is arc only an operable xindows. iite SHGC of exterior shade screens i at are applied to some of the window arcs is area -weighted with the SHCC of bu_ scrccns for (fie remainder of the siazinr_ Refercac: glass far S'r.GCS is 118 inch double stren;th sheer (DSS) ziass. Values from the Residerrrial :lcnual. © 1989 by E,7erccmp, Inc, cars?/9-9 241 C01LtF+1ANCc 10:0$ 99 16:06 FAX 949 719 4976 RIELLY HOMES EMPACIFIC NEWINDOW tot4`4q 7_3 C c c Po sa P1v►zq may S Ne.%_jPcrY A-ntQ 1r IR R pelt SobJf.C� P A Q5�q�... C���--►Gl�r� ."2.oM.�o\ Ver�%I.4\ S1%4et- P4sfZ, o00 \ e y VS �, ��eas2. Coa�b �Do a�.� �� es�-toy. [� — 4 S iA G C • H $ w` t�c•d� • �� S1k GC - LAS SKGc . S O S IR V C. - S \ kJ � tjC+�y • ^1• 5'qg�y a� PULt N.). BOX 814 9 879 W. T.incoln Arc•. ■ 13,i1ning, CA 92220 9 qr1•)/y,19-5959 a Fax. ` 09's49-1 A1r) EMPACIFIC MMWINDOW �rov�: Ma�� p►�.� l I4314� U - vAkve.t,-. 1'kQAk' Goo".. S wU►►•� Coe- 1L%tw►\-' V\uV"43, ,Y' W4P__ rQC%QvJQ- U - U- U - V sAv q- u - VatJe • ua Solar Heo4 (,a.� st.,►�►,M� Co��-�c.,L�,�- CLR Cal4s� 1 S P��'�p4��g5 3p2 r O LtOx ` IS • 1679 �1`. !.rr.i ulil .1.c. • It,rnnm�;, (.,\ „ `�;) ■ )r.r ),8 r`)-i`li) • f U: 7-20-1999 6: S?.4I 1 FRO 1 PALt 1 SPA' I PIGS GLASS G 19 32S S 3G 1 PALM SPRINGS MIRROR & GLASS, INC. MEMO DATE: y— �C� — c / TIME: TO: I'If CC ATTENTION: NOTE: WE ARE TRANSMITTING PAGES. OFFICE: (760) 328--0888 FAX: (760) 328-5361 REFERENCE: ZcJiu/lL�oc-'4 G0EFjCj-C )co^-7—L5j44 L 1 !Jr a,, u S - _ SI �O m V6 e - SS'(q�-M-e vg-nle5 f�bFROM: { /'L' �% �C Q PALM j�;TNG MIRROR AND GLASS, INC. �L1955 34A40 DATE PALM DRIVE ■ CATHEDRAL CITY. CA 92234 AN: GLAZING AREAII Ow =000 M-6.q. 2210)cI- = E; rn. row- Z 6 X S= S_ k.%YLI(:;WTS 4&IYl.Y3D, 3-)(C0=80-S D )OXIQ = JOO S60 1 O 1 9 = t O r-1 X a �ar.am. 5X� = 90 (Z.)pix 94,Z y XL L l4v(/ . 2 x 4 _ $ Cc' x 5 C,m�, 9d, L (oX5= 30 14 d7,5 10Enf zxL_ yam. j30, z_ 1 Z 13) P, 6 )Q • 4 0 y s= 2-7— S r--r An Z x 3 = (a Ft X 170 V4pf-16a, 3 co x g= g9/ J-, (o X Fr = 9 t fL) 1�f 7 T. E?v T. EDIVT, loxL= 1214,4`P1x R r4-L►- .S'�l C31 GARAGE TOTAL GLAZING =_ 6:9 3 N: 2 II GLAZING AREAll YnEt)q-L c.Llt-O o) wool-) = W'0009 m.60. x = 36 Fs� a W.& , Xlp = n Sbo it I - IV, 1O x C7 = `J0 F-1X W, t2i", IO X(O =100 .s 6•7 no 1:::: Na0K ((o X .5 S TX2- -- � Voo),-' S x 5 = y0 F►'� 1� ► T, 2- 1 Z (27) $' X 5 gX I = $ COY-! S fi'S (a x Y = c JO5) T -s 3 x 5 6 .S to o Alo 0 IG r27.r3V, rn . C3 A, J'n• i3� . -15 a y � SQ,� Z 1 fora t S K1rL1C1-ITS O 3 X F = Z L1 F-01. 152/t •' ZxL _ !7-(3)F,x Zx2= y r-IX yxb =1-14 H x - T- Gros 1 1-Aol'� Z x y 1- go,t (oxss= Ll ery r, 3 X 3 (o Lt) ery r. 3 x Z= 1 Z LL) Pt x i FfP-t- L Fl v'� GARAG,F. TOTAL. GLAmiwc, = 77 GZD GLAZINC-i AREA I yn vn4-t, c 1.-4-C 0) ywoo Z 9 95 t 3 Z,3 = Z 81 w o0o et4. L L '� " e SKYLIGHTS r/71at9. ►O00 S60 - O 30, Co Ic = 3 Co F-I x o)f 9 Pi -4) ��•t� nr, IOXiO=1005�o r+ro 0 k Fs = to y s (0,42 C�'xS sm� t4 el�rb arel .16'I o y I o= I OQ Svd 111►A01_ 3 x (o = 54 C3) o �ti) Lf' X S- 1�0 5 1-41�nE 5 to5)rA5 bx3? = Li srov /LO 0 K )L 17. ery 7, Env T, P,vT� 1:�- r, YYI. gel s x L= 1 b Fi D$a.�i311.L dx$'=4FfscoO Cb X S S _ 1SF-1 ,Z L X b = Z µ tL) Fl X sine Ln . fo x eT ^ y- S, ti-) �-�t. ens, dormer TOTAL Gl_AZiNG II GLAZING AREAll = i4') E Tom- C_ 419 (V/ V�1Q o 0 r=1q no , 10 x 8 o Y1/N. '�rxI LAN 32 Z Z ZC/1Z 3Z�t b L ) ✓ lr��N , 8- x t =1 to ( t ) N.t' r1 y o IQ) Imo, $ x 1 0= F,O -5(,D e L) V/P1 r/. FS = 7 L F Y L. I V , �S X g = .� 1- L XL =it CA'" i TAYS L 1-3 = Co L4 j� rv) . -,A 3 y g = 2-y Frc . ion, �Y4. 3X =S�4"pGX neT, to � V-eT, tox 60 = 36 Ry r, x5 . 1 I lV X 6 ` 1 N-7 2.17, 197, z3 ►,s 15 g 51 Z 1O X ? T. �e)'vr, � '� m s ) O F-I-Y y } sT L ►-� . S (L T. La y l C? = CL d 5 (,o 4W Y}'1,130, 3 X 'S_ : LLj 5�4 FA-*,p7 , 3 x co - 3 Lo I,) i--Yq'r'n , 3 1 L = ) L (-L) F-, x 14 rLo o t__ cox Ll 11400iz- bXL = !L 7,5,ix k-IT.IbXib_`),5'�-L n EZtel j3a. 3 S X 5= 2 5 St4d3 2-Y3 =to L1 L= 1 b Imo) 1=1 x a. Z 5 x = 1-!5 =y�1yFIY TOTAL GLA-Liwq % n (,0 C1 3�1 Q+ o AN : S 1 GLAZING AREAll e 1= 4W 3 Y O 9 SQ.Fr. 303b t373 =3YO e = '1 �j'L1�r.. • rX 0 L- (o X ) - (D k -,,t A, f�'9 9K**YUGWTS to x 1. 5 M) o /�mle- to X Id = & 0 5 to d taX kz m t,t ✓ , ) 0 � i v - 1' 00 s 6 ' - (� = W oaO 6 1-1 v, 10 1. = ZO t� 0 uV, rox� = 90 F-t-C (o )L S s m�---j Fero.® gxg &Lf r-�X F4-rrn 114 W , art. to �l rail. co ag-r. jo x t = l am uA,5 i r a-s 2-X S = to Og517-A-5 ) �o x u m,CA, EN T, r3 A, Z x 3 = �o Pi YIN. 3 X(o -/g pi Yeti W y s �o 2-Pr, a(3)Rx (ok Ib F-x v/ UXL5A U k i -Q = to Q 5 (�, o s �- SxIO= 3��X 5 xt = I o 3x�= 3tolt) P� Pt )C cox(o= 3to G�►RAGE to X g = 4 1? (L) FrzT. DV7-, ago'. P(� TOTAL G1AZ1NC., II GLAZING AREAll � = 1'y1 eTq�L c � Khp a� wt?oO rn. CIO, 3 to � F SQ.M-. 33l0'� +.35) = 3 6 R � C(2��x �,x STr,)`� ®� .IZr� • $x)0 =zLYO l3)s6o " 0A::7 a-X if = fa y fex Q T. zit = J1�,(y)F-cx Y�)I3,J, y Z'' y� =/Z.5 �=�• 3 Sx 3 x e, = rLOorc /o x a 8 0 Pi u us- as� T 4-5 40 xis - y 55Z,. 1 �y ,5r 19y, "k-5 1mi S6O /to 0 K 0 $ y_ .S b o N0(0le- 4, ei4' Z 3 = r-i x '07 -ems q. 0i% 1/iZZr Lo k S = 3 cm-*:. f i r-t7 4► XLO CA*SITIG`5 )10X3 = 4•S- F-tX t��N��D•y (ox�t=y�s�a��xSs�� O E7'yvT - ('o x 0 = (/ P �-) Fi2r. ter. moons En' T to x 11 L v N-, • ma y Y�1319• --i 5 " = 7-5 FLt)c ToTAL- GLA:vwc, = l 1 Z to /vo am Plastic Insulating Materials (' ,:: - N F m plastic insulating materials must be sh on a plans and installed when complying the Ilowing requirements: • Fi Safety—UBC Section 1712(b)2. P uct shall be protected as specified. Cei Pro cts have been approved for exec use under floor areas by testing ar� listin • Direct arth Contact —Foam plastic sula- tion us d for crawl -space insulation aving direct a rth contact shall be a clo d cell water re kstant material and meet a slab - edge ins ation requirements for ater ab- sorption a d water vapor transmi sion rate specified in he mandatory measur s. Mineral Wool Insulating Materials • Fire Safety— BC Secti/oke c). "All insu- lation includin facings, vapor barri- ers or breath paperd within .. crawl spaces .. shall hame-spread rating not to exc 25 e density not to exceed 45 whenaccordance with UBC. Stan rd N" In cases where the facing i also etarder, the facing shall be in Iledside that is warm in winter. • Direct Earth Contact ineral wool bans shall not be installed i direct earth contact unless protected by a par retarder/ground cover. Vapor Barrier (Ground ove A ground cover of 6 it (0.0 inch thick) poly- ethylene, cr approve equal, s II be laid entirety over the ground are within cra spaces. • The vapor b er shall be vedapped six inches mini m at joints an shall extend over the top f pier footings. • The vapor arrier should be ted as 1.0 perm or le s. • The edg s of the vapor barrier hould be turned a minimum of four inc s at the stem w II. • Pene ations in the vapor barrier sh Id be no I ger than necessary to fit piers, earn sup orts, plumbing and other penetratio Special Compliance Topics July 1, 1999 • vapor barrier must be shown e plans d installed. Studies sho at moisture con . ns found in crawl spaces. th ave mini entilation do not appear to be a * nifica problem for most building sites provid the crawl -space floors are covered by an .ate vapor barrier and other precaution re take The Energy Com- mission urges ilding official carefully evalu- ate each a ication of this insu ' g technique in conju on with reduced ventila because of the otential for adverse effects urface wat on crawl -space insulation that could ate energy savings predicted by the procedu . 8.8 ZONAL CONTROL Zonally Controlled Space �ntroducUan Conditioning An energy compliance credit is provided for zoned heating and air-conditioning systems which save energy by providing selective condi- tioning for only those areas of a house that are occupied. A house having at least two zones (living and sleeping) with separate thermostats controlling temperatures in the zones, and with a maximum noncloseable opening of 40 square feet may qualify for this compliance credit The equipment may consist of one air-conditioning system for the living areas and another system for sleeping areas or a single system with zoning capabilities; set to turn off the sleeping areas in the daytime and the living area unit turned off at night (See Figure 8-4). ItZone (Section 101(b)) Energy Code ZONE, SPACE CONDITIONING is a space or group of spaces within a building witty sufficiently similar comfort conditioning requirements so that comfort conditions, as specified in 144(b)3 or 150(h), as applicable, can be maintained throughout the zone by a single controlling device. 8-15 Zone #1 Zone #2 (Living zone) (Slee ing zone) Temperature Sensors: -------------I Individual air temperature ___ Heating and/or cooling sensors in each zone � D LR � � MBR � source ical aired (typical) �i in each habitat morn- Zone #4 (Living ° ° - - �nIn///^�7{7 0 0 - '� 7` 1 "Habitable zone) Q Rooms" within . W W each zone: Each f ®; �--}� has a source of space heating FAM EBR UEN and/or cooling. -------- one #3 (Living zone) Nonclosable Openings: Maximum value of W permitted = 40/H feet, where H = Floor -to -ceiling height in feet Figure 8-4: Zonal Control Requirements for Energy Credit _t Zonally Controlled Space Compliance/ Conditioning Plan Check A procedure for analyzing the energy impact of zonally controlled space -heating and -cooling systems has been approved by the Energy Commission as an exceptional method (Energy Commission approved according to Title 24, Part 1, Section 10-109 based on Compliance Options Approval Request, May 14, 1985). The method is available as an option using a computer perform- ance approach and specific modeling criteria (Chapter 5, Part 5.4L). NOTE: Although multiple thermally distinct living and/or teeping zones -may -exist in a residence -the cor- rect way to -model zonal control_ credit- requires only two zones: one living zone. and. one sleeping zone -All separate living zone components must .be modeled as one single living zone; and the same mustbe done for sleeping zones. Zonally Controlled Space Construction Conditioning There are unique eligibility and installation re- quirements that must be met in order for this zonal control method to receive conservation credit The following steps must be taken for the building to show compliance with the standards under this exceptional method: Temperature Sensors Each thermal zone, including a living zone and a sleeping zone, shall have individual air tempera- ture sensors. Habitable Rooms Each habitable room in each zone shall have a source of space heating and/or cooling (if zonal credit for cooling is desired) such as forced air supply registers or individual conditioning units. Habitable rooms shall not include bathrooms, laundry, halls and/or dressing rooms. 8-16 July 1, 1999 Residential Manual r X Noncloseable Openings The total noncloseable opening area between adjacent living and sleeping thermal zones (i.e., halls, stairwells or other openings) shall be less than or equal to 40 square feet. All remaining zonal boundary areas shall be separated by per- manent floor to ceiling walls and/or fully solid op- erable doors capable of restricting free air movement when in the closed position. Setback Thermostats Each zone shall be controlled by a central auto- matic dual setback thermostat that can control the conditioning equipment and . maintain preset temperatures for varying time periods in each zone independent of the other. 1. Each zone must have automatic dual setback control for heating, and setup control for cooling if cooling, is provided. 2. Thermostat locations in each zone must pro- vide accurate temperature readings of the typical condition in that zone. 3. The control may be switched from heating to cooling mode manually. 4. The control must be programmable by the occupant. 5. For residences using heat pump systems, the automatic setback thermostat must have two -stage heating which incorporates a re- covery ramp of other logic that will minimize electric resistance heating. Forced Air Ducted Systems Each zone must be served by a return air register located entirely within the zone. Re- turn air dampers are not required. 2. Dampers shall be manufactured and installed so that when they are closed, there is no measurable air flow at the registers. Special Compliance Topics July 1, 1999 3. The system must be designed to operate within the equipment manufacturer's specifi- cations. 4. Air is to positively flow into, through and out of a zone only when the zone is being condi- tioned. No measurable amount of supply air is to be discharged into unconditioned or un- occupied space in order to maintain proper air flows in the system. 5. Systems that allow supply air to be by- passed to the retum-air system shall be pro- tected against short cycling and excessive temperatures of the space -conditioning equipment, and include necessary controls for efficient, safe and quiet operation. • ff Zonal Control Examples In defining the living and sleeping zones for a home with a zonally controlled HVAC system, can laundry rooms and bathrooms (which are not habitable spaces) be included on whichever zone they are most suited to geographically (e.g., a bathroom located near bedrooms)? Yes. For computer modeling, include the square footage of any nonhabitable, or indirectly conditioned spaces, with the closest zone. I have two HVAC systems and want to take zonal control credit Can the return air for both zones be located in the hallway (living zone)? No. Because of the need to prevent mixing of air between the conditioned zone and the unconditioned zone, it is necessary to (1) have the return air for each zone within that zone, and (2) limit any noncloseable openings between the two zones to 40 square feet or less. Unless these criteria, in addition to the other criteria listed in this Chapter can be met, credit for a zonally controlled system cannot be taken. 8-17 ERA 11 li 0 S id ,0V yaw waw I+ews Ms.� w 3 31 v , I • II w. $ x It .i I f " • 1 9 .r. h I :I f • � tip; ------'----____ - - --Maze I I I 1 1 I 1 1 1 1 1 1 h 1 I I t I 1 1 _-_--- IMP_ _- - ---------- �-------_ it .ow _I��J— I h1p�H� FdH I H3SS��!3 3t-So hW- IF.-M SL. 11404 1 1 � of 1 1 G 4� d ,1 �.wwfew 1� 1� 11 11 � 11 11 11 it J M C�q { IW10� 3 b I .O3 til y� rMi lei■ — 1 $ � ;. � '.,� I� +IIL .o.. ... •o,. .... � .... i r. of k; 0� '.' dM � .I� i� F� I Ygm • � L a M I I —__—_�— Y I I I 1 I � 1 • I i I � I t � I it I I I I i 0 OI i I t I I I 1 1 1 t t t i I I t 1 1 I t 1 — r— —` ..__ —_ ___ ------- -- -- ---� --- -- IT110 ' i _� :36I ?Z _r':3 •��—Ihlr9H, l...lHIh1�J �3 Jtr1=V�— �S—°Z� M=arm y .ci I ` 4 4 I I f� li�101~i1 Q0� 1MOr�. � ----------- 91 LIV)Aj ci 3J / S 3 �li.J J�I'�J- 1 113JS �� 3L: 0 S_1^ Tv- T I -----IL)-V) on T Y' Z' • 0 awa I 1 I I I CE I - - - - - - - - - - - - - - - - - - - - - - - A 0j; '-; V" : '-:" r, 364 9T d3S ',0,/-lOa T-�V8 lig IVlN sLeePPPy �' ROM Wr- 1Y-1 1 qr— f EG EOUIPMENT(cR EqUA.L.) RIELrL`/ HC)MEs aMEIZI CAN wAZEtZ HEQ.TE2 "P,�, WEST" LE940X Co. HEAT1N A/c. vs We 0 :)U PLAN L1 V I W SL-EEP1 N IF -LOW FAU — — 1217. (�A°s FAU 6OUHc.�3-bO 8flUH�2)-i0c) i FLOC, (:�,AS FAU - CO. FAN/GoIt- _ — AFUE BTU OUTPUT HlI,Zoo H91200 CIFM IZID_ IZ10 STRIP t4 EAT -- �ZTL C0OL14;, COIL. — >fLl-z. C00".001t C-HZ27 -y I GHZ3 -L I 'AT I PUMP UNIT "'- WVEM51N6 UNIT IZAC, a 12ACB.3� K5PF (MlM.) � -- SEER (Mw.) 12.0 IZ,O TONS 3 3 aTuti@ 5° 5,cvc'Ut� 3S,to00 sEus @ 115� z�,s�Z Zs,50Z .TER C4ALLON47 75 BTuH INPUT 1y)Soo REC, EFFIC, 7(0 7o STAMO-13Y-L755 TJ/4 ENE► G'Y FAc7v2 , 51 TAN1< wgAP iE� CT T"So Aulow Q-(o *- Nl44T SET-15AC" 71AEIZM0e;TATI�r AIZE. IZEcpultZEo. �b T�f ERMOSTATS W/ S7f2 I F HEAT FU N GT I C N MUST MEET 'il-1 Er R f,nT� OF :�;,EGTICN * IIZ(b) oF-- 44- Ig9E EivE y STA1Vt7A�LpS. 1-Nl NCI / C, ZC�-JAL CC J712C L 'REQU I rZ=o EOUIPMENT(cm Equ,L 12JEE._I_2/ HOMES AME�Z1cAN WATER HE4► �2 P61,& WEST" LEd1t4Ox CC. NEA.TI ev A j� !_.A, q v i NrA. PLAN 2 I , U P FLOW FAU P0¢17.. FAU DN SLOW �,eg FA U 157 Co. FAN/COIL. AFUE BTU _ OUTPUT CFM STRIP 14EAT VF-!ZT, CoOL'C;, CCXL WOtZIZ . COO". CO I L WS T 1 PuMP UNIT CO�.1��l�tS4h1£I vN1T uSPF (MIN,) T©NS ETU �- @ 9 5 ° 5EuS e 115,0 VA%AiE2 H F-, .Tam GALLONS 6TV H INPUT RF-C, EFF1C . STAM O- SY- Lo5ci ENE24y FACTOR-. TANK WRAP DUCT TNSULA-r40N 80 uN c, � -75 SO�v (011700 1(DOO Ic>AZ-,6-S yZ I'Llo 3 `/z y11500 3Z)0cLj 50uI46IB-oo 80% y9, zc)o 1210 IZAca-3to 3 3 5, (o 00 251502 3(0,9 00 990 c23 -31 �5Z-75T75-4>J 7�5 7H15-00 -7 Lo °/ o 1`1�A ,51 12-.0 2 ZL- ,2OO ICo) COO Nllh1-�T SET -BACK THEYZMOSTA.TS, AMF- r1EQutrzsc. T�-fERMOSTAT`� W/ S7R1 ' HEAT FUNGTI ON MVST MEST i HE OF SEGTIflN I12(b) of 199E ENE y STA.raVA.rzDS. L IY` NG, / sL P11�]GI ZC}J,o.L GO►JTIZCL RCgU1 tZ 0 , Qsq MTy EOUIPMENT(oQ Equ,L.) RtELL:V HC)MES AMtEIZICAN I WAzF-rz `r PC-N A, WEST " L-Et AW)X LA. q v t t�rA. PLAM 3 L.IVIN C, SLEEPIi-J61CA.SIT4 UpFt_ow GA5 FAU l-lort�Z. CIAS FAU S0LjV4C,,H=15 E�OUI4t�4=]S — 15T CO. FAN/COIL AFUE BTU _ OUTPUT CPM STRIP l4 EAT Vslzr, Cook,, Ca tL WOsttz . COO l.! . COI L NEAT / PVMP UN1i' CONDENSINy U�41T 1�SPF C►�IN.) SEErZ TONS PTU�2 95° sE�Js e 1 15° WATE2 HEATER 5TOt4 INPUT REC. EFFIC. STA►.LD- BY• Lo5ci ENE24Y FAGTC4Z TAtiu wNzAP DucT L lSUf_ATIOtJ CHZ3-5l 5O% K700 I coOC7 'c1-�Z3-51 SO% 31o,900 99 0 l2Ac,6-Lj$ I12Aca-yZ I12.,oce-2y 6Z,o H-1SOo 31E,9y5 iz.D 3 Vz- i, goo 3Z,o0y �5-2-75T75-y,j 75 "7H)soo 7L4�Yo ►J 1A •51 YE5 t2-1Z 9- - (D HE1iTE2 M'4AT SET-15ACV4 TVASMMOSiTATS ARE. JZEQUIRI<o. 7�4ER-M01e;PTATS w/ STtZI P HEAT Fv►JCTI ON MUST MEET Ti-1F- 2s4MT! Of:-- SEGTI O N # t 12 (b) o f 199E Etvr=v,;l\/ STArAVArZ Ce . tK L_IVI"o�/5,_FEEPI"G, zoIj.&l^ ccNTT20L MaggL)►fZaG. EOUIPMENT(oa Eq,,,.) PU ELU"I HOMES AMeizI r_.&Ni PG A We6T �. t,E�,WcX cc. LA, gvtt�r�. PLAN H LIVING l SLEEP 1 N& CASITJ� UPFLOW Gb.S FAU POMIZ. (�Acj FAU DNFLOW CjAS FAU !ST COS FAN`GOIL- t AFU E B'TU _ OUTPUT CFM STRIP I4E T VcXr, COOL,, CC lL WO21Z . coo". CO 1 L NEAT / PuMip UNIT CONVEN151N61 UNIT !K5 P'F (M im.) SEER (M TONS aTU a. (? saws e WATER H E, .Tsr z C4ALLON4, 61U14 1NpUT REC, EFFIC. STAtt D- BY• LD55 �i ENEaC,Y FAcToR TANK WIZAP DUCT TWSULA--Tlo" Quur��s'IdC 80 l� 82.,QflO Z ZCo O cN Z3 -Las I ZAGQ - lzo IZ,O 5 57,000 y3, Z9(o SOUN�H 15 1;30% (01,�00 1000 CNZ3-S► 11.0 H H-i, 5OO _1519 4 5 IKUVACIZ-49 SO/p 3 (019 00 990 CS -37 12AC6 -14 1z 0 Z Zy,2 oo I & JOcoa (�5Z-75T75-4t,.; 7S 71-1) 5T00 7Co°/o N/4 .51 YES 12--IZ '_ -Co WAiSM HEh► =-z µ EAT1 Al GI j A/C. M'44T SET-BAGK T�ASMMOS;TATS ARE_ iZrUp l2Eo . TI-� ERMOSTATS w� SbMZ I P HEAT Fv N GT { O N My ST MEET -M.4 F OF SEGT� fl N� l t 2 (6) o f I g 9 E EivEQyy STAni�A,cZ DS . � LiVING1 �SILE�F'INl� ZQNA.L- GL7�1T'�p�. Q��V41Z1.=-C. Q 7-P MT' EOUIPMENT(oa �U>�) RIELLy WOMEs AME�ZICAIv WA-tErz ��a.► r+ �1 PCI� VvE5T" L-EWa 40X co. 4-IEA�I ,arc. Lp, gv�t�ra. PLAN 5 LIVIN LIVI N Z L��P1N GASITA. L P FLOW C a5 FAU _ S�vu4 Z �S P021M. CjAls FAu-- DNFLOW ( ,Ac, FAu isT CO. PAN/GOIL- AFU E BTU OUTPUT Gr-M STR19 kEA,-T VF-2i'. COC)L"c,, COIL Wo21-L . COO I.l .COI L E-IEAT I Puml, UNIT COkVEN15IN6 UN1T HSPF (MIM.) SF—F-2 (M I KI .) TONS aru � @ 950 sus Lip 115" WATER H EAR' Z C�ALLONS BlUH INPUT REG, EFFIC. STAm D- BY- I..D5ri ENE"Y FACTcn TANtc Wpgp :)ucT T,isUL&-rtow BOX) L912.00 1210 cNZB-HI a0% v HC1I ZOO 17-10 cHZS-H I Iv�vn"I�-IJ e O% (A 1,700 1(000 CHZ3 -S'1 So% 3(01900 990 c2a-31 �12�,ca-3ca IZAr-13 � 12A�g- Z 1 -2 �l y 12.0 3 35,Cot�O Z5'1SDZ ,fj 52-7ST75-H N -7 S T41S00 7(0 . 1 DES �2,-1Z 1ZIO 2- ZH,200 1(4) (o 2) 5E:T-IE�AGt4 7IAS ZMOST'AT4 AIZE_ jZEQUIREO. T3-!�RMoSTATS W/ S7iZ1 n HEAT FJNGTI ON MUST MEET 7-HF- OF SIEGTION # 112 (b) of l995 EIvEQ1,�y sTA1��ATZDe � Lf1/INC�I SIr.�E.�1NG1 Z.C3�;AL GGNi-TzQ� �,��VIILLE� QspMT" EOUIPMENT(oa EQUAL) R�ELLY H0MEs WFV�5T LA qvt terra. PLAN U R FLOW Gas FAU P0¢ 4 Z.. (�A4 FAU DNGLOW Cases FAL r5l CO. FAN/COIL 1 AFU E BTJ OUTPUT CPM STR1P kEAT VF-�ZT, COOL I;, CO IL W021Z, COO ".CO1L NEAT f FPUMn UWa COuvENsiNs Uu1T TONS 5EuS (p 115� WATER H E ATs-Z (4ALLO► 47 5TUH 1NpuT REC. EFFIC . STAM D- E3Y- LD55 ENE24Y FACTOR TANu -WRAP r-)UC:T lmSULAi now Ov"4H /5-100 e3O�vo ezioco Z V40 ICHZF2-Cog 12.0 5 57J C�OC� Li 3, zgco A m EIZ1 r-.&r a LEt4W)y co. S` T eCUHlq-lS 80VI- 2-413 60% gp°Jo C0l,-700 3fo�900 1(ed0 990 I zAG(3 -4 B )2AC8 -7,4 Iz,o 1210 y 2 471500 Z31 Soo 3 5,9 4,5 15, 500 6152--757-75- H ►v 75 7H/500 7(0 /o N)a .51 YES l.- G WATER 1,4EhTa:2 �-; EATI u CI 4 A) c. M144T SET-aACV- 7)4SamoS;TAT4 ARE rzEqu l rzEo . i�-+�RMosTATS W� STtZ1 n HEAT FvNGT} ON MUST MF _F T O� SEOTI O N � 112 (6) o F Iq 9 � Etv E�Y STANflL�tZ DS . Li V4N6�15t�E}�t1vGy 7-OkJAL Gc»TQCL REgUifzr=:U. Q EQ MT- ENGINEERING DATA UP -FLOW POSITION VALUE 80 "' 80UHG UP-FLOW/HORIZONTAL GAS FURNACES Bulletin No. 210215 *80.0 to 80.5% A.F.U.E. November 1997 45,000 to 120,000 Btuh (13.2 to 32.2 M) Input Heating Capacity 1-1/2 thru 6 Tons (3.5 thru 21.1 M) Nominal Add -on Cooling 'isolated Combustion System Rating for Non -Weatherized Fumaces p ES7 �,y Rl� cw aural GAS 9M r (71Rtlf t Typical Applications Up -Row Utility Room Installation With Cooling Cod and Automatic Humidifier FEATURES Applications •80UHG series gas fired furnaces include ten models (natural gas or LPG/propane) with input capacities of 45.000, 60.000, 75,000, 100.000 and 120,000 Stun (13.2, 17.6, 22.0, 29.3 and 32.2 kW) •A.F.U.E. up to 80.5%. • Up -flow or horizontal applications. *Lennox add -on evaporator coils, electronic air cleaners and power humidifiers can be easily added to the furnace. *Units are shipped factory assembled with all controls installed and wired. *Each unit is factory test operated to insure proper operation. Tubular Aluminized Steel Heat Exchanger *Constructed of aluminized steel for superior resistance to corrosion and oxidation. *Curving design allows com- plete exposure of heating sur- faces to supply air stream. *Round surfaces create mini- mum air resistance and allow air to surround all surfaces for excellent heat transfer. *Compact design reduces space requirements in unit cabinet. *Heat exchanger has been laboratory life cycle tested. HORIZONTAL POSITION Horizontal Attic Installation With Cooling Coil, cectromc Air Cleaner and Automatic Humidifier Approvals *Units are certified by A.G.AJC.G.A. Laboratories • Ratings are certified by GAMA. *Units have been rated and tested according to U.S. DOE test procedures and FTC labeling regulations. •80UHG "X" models meet California Nitrogen Oxides (NOx) Standards and California Seasonal Efficiency requirements. *Blower data is from unit tests conducted in the Lennox Labo- ratory air test chamber. *Units are approved for conventional or horizontal (sidewall) venting. NOTE - Horizontal venting requires sidewall power venting kit, see Optional Accessories. Equipment Warranty *Heat exchanger - limited warranty for ten years. •Solid-state ignition module - limited warranty for three years. •All other components - limited warranty for one year. •Refer to the Lennox Equipment Limited Warranty certificate included with the equipment for details. Induced Draft Blower •Induced draft blower prepurges heat exchanger and safely vents flue products. • Blower is controlled by the furnace control center board for a prepurge cycle (15 seconds) and a post purge cycle (5 seconds). *Pressure switch proves blower operation before allowing gas valve to open. •Induced draft blower operates only during heating cycle. y T997 Lennox industries Inc. NOTE - Due to LenroX Ongoing Commmsnent to quality, Soeaficatiors. Raungs and Dimensions suaect !o change without nonce and Yorhout inaurtng :iadl v SPECIFICATIONS Model No. 80UHG2(X}-45 80UHG2 60 80UHG3(X)-60 80UHG2-75 80UHG3(X}75 80UHG4(X}75 Input Stun (kW) 45,000 (132) 60.000 (17.6) 75.000 (22.0) Output 8tuh (kW) 36." (10.8) 49,200 (14.4) 51,700 (18.1) i A.FU.E 80.1% 80.5% 80.1 % 80.0% California Seasonal Efficiency 75.49'° 76.49/6 75.9% 76.8"'6 7FF/6 76.391. Flue size connection diameter - in. (mm) round 3 (76) 4 (102) Temperature rise range - 'F (-C) 30 - 60 (17. 33) 45 - 75 (25 - 42) High static certified by A.G.AJC.G.A. - in wg, (Pa) .50(125) Gas Piping Size I.P.S. Natural or LPG/propane 12 (13) Blower wheel nominal in. 9 x 7 10 x 7 9 x 7 10 x 7 12 x 8 diameter x width mm 229 x 178 254 x 178 229 x 178 254 x 178 305 x 203 Blower motor output - hp (W) 1/4 (187) 1/3 (224) 1/4 (187) 1/3 (224) 1/2 (373) Nominal cooling Tons 1, 1-1/2 or 2 2, 2-1/2 or 3 1, 1-12 or 2 Z 2-12 or 3 Z 2-1/2. 3. 3-1/2 or 4 that can be added kW 3.5, 5.3 or 7.0 7.01 8.8 or 10.6 3.5. 5.3 or7.0 7.0, 8.8 or 7.0, 8.8, 10.6, 10.6 12.3 or 14.1 Shipping weight - lbs. (kg) 1 package 130 (59) Electrical characteristics 135 (61) 140 (64) 120 volts - 60 hertz - 1 phase (less than 12 amps) All models Optional Accessories (Must Be Ordered Extra) .-- LPG/propane kit LB-69845L (381<84) Twinning Kit 96J69 - 5 lbs. (2 kg) Up-Flow/Horizontal Filter and Filter Rack Kits IlNo. & size of filters - in. (mm) Single (32J02) Ten Pack (66K64) (1) 16 x 20 x 1 (406 x 508 x 25) Sidewall Power Venting Kit 79,115 - 25 lbs. (11 kg) Hanging Bracket Kit LB�9957 (46J66) - 15 lbs. (8 kg) _Annual Fuel Utilization E.'ficienry naeem tin i i c nnc .�. r .-- -- ;;roryuremane rrame type fitter is fumisned with kit ---- - -'- cywauc 15- 1Sp1 leu ccrrio scion system rMN for rmn-weathermen fumaces. Model No. 80UHG3/4(X}100 80UHG4/5(X)-100 80UHG3/4-120 80UHG415(X)-120 100.000 (29.3) 120.000 (35.2) Input Btuh (kW) Output Btuh (kW) 82,000 (24.0) 98,400 (28.8) 80.1% 80.0% 80.110 California Seasonal Efficiency 76 5% n•0'° Not Available 75.5% Flue size connection diameter - in. (mm) round 45 - 75 (25 - 42) 4 (102) 35 - 65 (19 - 36) 45 - 75 (25 - 42) Temperature rise range - ' F (-C) High static certified by A.G.AJC.G.A. - in wg. (Pa) .50 (125) 65 (162) Gas Piping Size I.P.S. Natural or LPG/propane .50(125) 12 x 8 1/2 (13) 12 x 9 12 x 8 12 x 9 Blower wheel nominal in. diameter x width min 305 x 203 1/2 (373) 2. 2-1/2, 3, 3-12 or 4 305 x 229 3/4 (560) 3-1/2. 4, 5 or 6 305 x 203 12 (373) 305 x 229 Blower motor output - hp (W) 3/4 (560) Nominal cooling Tons that can be added Z 2-1/2, 3, 3-1/2 or 4 3-1/Z 4. 5 or 6 7.0. 8.8. 10.6. 1Z3 or 14.1 1 123, 14.1, 17.6 or 21.1 7.0. 8.8, 10.6, 1Z3 or 14.1 12.3. 14.1, 17.6 or 21.1 kW Shipping weight - lbs. (kg) 1 package 175 (79) Electrical characteristics 120 Its - 60 hertz - 1 phase (less than 12 amps) All models Optional Accessories (Must Be Ordered Extra) LPG/pmpane kit L8.69845K (81J14) Twinning Kit 96,169 - 5 lbs. (2 kg) Up-F)ow/Honzontal Filter and Filter Rack Kits Single (46J14) Ten Pack (66K65) -ZNo. & size of filters - in. (mm) (1) 20 x 20 x 1 (508 x 508 x 25) Sidewail Power Venting Kit 79J15 - 25 lbs. (11 kg) Hanging Bracket Kit LB 69957 (46J66) - 15 lbs. (8 kg) TPua1 Fuel Utllitaoon Effiaency oasec on U.S. DOE test procedures and acoorttinq to FrC labem7y regulations. Isolated comOusoon rainy olyurethane frame type fitter Is fumisned with kit system for nortwveatnenzed furnaces. 80UHG :'a-ge 3 ► INSTALLATION CLEARANCES - inches (mm) IIP.9;1 nw oP1Cir1n1U Vent Type I Type "8" Type "C- sioes 0 inches I0 mm) 0 incrtes (0 mml Pear 0 inches (0 mm) 0 inches (0 mm) Poo 1 incn (25 mm) 1 incni (25 mm) Front 2 rncnes (51 mm) 2 inches (25 mm) Front (service) 24 inches (610 mm) 24 inches (6t0 mml Floor Comousuole Comoustible Flue 1 incn (25 mm) 6 incn 1152 mmi HORIZONTAL POSITION Vent Type Type -S- Type "C» �laes __ inCrles (51 min) _ 2 inches (51 min) Rear 0 inches (0 min) 0 inches (0 mm) _Top -0 Inches (0 mm) TO inches (0 min) Front 2 incrles (25 mm) 2 inches (25 mm) Front (service! j 24 inches (610 mm) 24 inches (610 min) Floor 0 inches (0 mm) 0 inches (0 mm) Flue 1 incn (25 mm) 6 incn 052 mm) • - • _ Y - -1-1 11 � Aif r Q Tie vu i t-rur ,Or mrnmz= arts aa)M air venation mus ax=m A se metro= outinec in AmBnim National Starimm (ANSI-Z2Zi-1) rr*WK) 4 otmmao st Arnert= Nawral Stanaaro (AKSi-T123-i1 National RM Gas Code or National Standard of Canada CA"CGA-149.1. NaMIM, FuW Gas Cxe or National Sin— of Canada CAPYCGA-149.i. & GawCGA-t a92 `trutailaam Cane far Gas 8unsng Aoobarms'. 3 CAUCGA-1492 Inswilaom Coos for Gag BuTw q Aopiarcee. NOTE -In one U.S. sue sung must axftm to ate meunoos oumneo xn NOTE -In tine U-3. Ire soN must mnlam to re nOil s aMneo a aurartt GAMA/A.G.L vertanq tables Ariermri National Stan3= autertt GAMA/A.Gak venwig tables, Amemmn %lanota! Stwmid (ANSI-Z223-t) National i=uel Gas Cone or aaolicade oiwm m of b= buia-Z223.1) National am Gas Cane or appcwmr tx D tie of !Dint lairg aloes. In Cartaoa Sue stung must carnarrn to Ise rttetito¢s bwimng coam in Canada .fire smog must corttorrn to 4te mevtooq oumnea in National Stanaare of Canada CAtWCGAa49.1 and 2 oumned in National Standard or Canes CAWCISA-149.1 and 2 -Line °on='nsmdallOn PerrrwssOe aermeen iacket = or sdes am buong pests BLOWER DATA 80UHG2 80UHG2-60 AND 80UHG2-75 BLOWER PERFORMANCE Extern al Static Pressure in. w.g. Pa Air Volume at Various Blower Speeds High cfm Us Medium -High ctm Us Medium -Low cfm Us Low cfm Us 0 .05 0 12 1270 1245 600 590 980 975 460 460 70 770 365 365 570 565 270 265 .10 25 1220 575 975 460 770 365 565 265 .15 37 1195 565 965 455 765 360 560 255 20 50 1170 550 960 455 760 360 560 1 265 25 62 I 1140 540 950 450 760 360 555 7 2 00 30 75 1110 525 940 445 760 360 550 250 .40 100 500 910 1 430 750 355 545 255 50 t25 990 465 I 880 415 740 350 340 I 255 .660 150 425 810 380 690 325 530 250 70 175 1. 300 380 1 740 350 630 295 1 320 1 245 80UHG3-60 ND 80UHG3-75 iur0 uoanaae nner tnet nxitsimi in Coca. ALSO see Titer AN Resistance We BLOWER PERFORMANCE External Static Air Volume at Various Blower Speeds Pressure High 9 � Medium -High Medium -Low Low in. w.g. Pa cfm Us ctm Us cfM Us cfm Us 0 0 1 1425 1 670 1240 385 1000 470 800 1 380 05 12 1 1415 1 670 1230 580 995 470 800 380 10 25 ta00 60"0 1220 575 990 465 795 375 15 37 1385 655 1200 565 985 465 795 375 _ 20 50 1370 645 1180 555 980 460 790 375 25 62 1350 635 1160 545 970 460 780 370 .30 75 1 0 630 1140 540 955 450 770 365 .40 100 1280 805 1095 315 925 435 750 355 .50 125 1210 570 1040 490 900 425 20 340 60 t50 r 535 985 a65 860 405 680 320 70 175 11 1070 505 1 920 435 300 380 630 300 N A11 all cats 4S measures external to unit Witil 1 m. (2$ min) Ceanade lister (not �1mrneo) in place. Also see Mier Alt Ae5t5flnce We SOUHG4- 0UHG3/4-100 AND 80UHG3/4-120 BLOWER PERFORMANCE External Static Air Volume at Various Blower Speeds Pressure High Medium -High Medium Medium -Low Low in. w.g. Pa ctm Us cfm Us cfm Us ctm Us ctm! Us 0 0 1830 865 1600 755 1325 625 1070 505 880 415 -05 12 1815 855 1585 750 1320 625 1070 505 880 415 .10 25 1800 850 1570 740 1315 620 1070 505 880 415 .15 37 1875 885 1550 730 1310 620 1065 505 875 415 .20 50 1750 825 1530 1 720 1300 615 1060 500 875 415 .25 62 1725 815 1515 715 1290 610 1050 495 870 410 30 75 1700 800 1500 710 1275 6W 1040 490 870 410 •40 100 780 1460 690 1245 590 1020 480 860 405 .50 125 1600 755 1420 670 1210 570 1000 470 ' 840 395 50 150 730 1380 650 1170 550 980 460 320 385 .70 175 1480 NOTE - All air data is measured external to Unn w,m 1 700 i 25 1330 630 1130 535 460 455 790 1 375 in. mm1 Cear+aDie riper (not trrrnsneci m Glace. Also see Mter Air ResisOnCe =je 80UHG / Page 4 ► s BLOWFOR DATA OUHG4/5-100 ND 80UHG4/5-120 BLOWER PERFORMANCE External Static Air Volume at Various Slower Speeds Pressure High Medium -High Medium Medium -Low I Low in. w.g. Pa ctrn Us chit Us ctm Lis ctm Lis ctm Us 0 0 1 2450 1155 2160 I 1020 1 1970 930 1700 1 800 1500 710 .05 12 1 2440 1150 2155 1015 1965 925 1695 800 1500 710 .1 25 2430 1145 2150 1015 1960 925 1690 800 1495 705 15 37 2415 1140 2135 1010 1950 920 1685 795 1495 705 .20 50 2400 1135 2120 1000 1940 915 1680 795 1490 705 .25 62 2380 1125 2105 995 1930 910 1675 790 1480 700 .30 75 2360 1115 2090 985 1915 905 1670 790 1470 595 .40 100 0 1090 2050 965 1870 880 1650 780 14.4.0 680 .30 125 2260 1065 2000 945 1810 855 1610 760 1410 665 .80 150 1030 1950 920 1750 325 1560 735 1370 645 70 1 NOTE • AU air oats s 175 measured eraemal 2100 1 to unit wim 1 irl 990 25 mml aeanaW 1890 nW (not 890 I itmtisr ea) in 1700 1 macs. Also see 800 filter Air Resatarim 1520 tame 7?5 1330 630 FILTER AIR RFSISTANrt= cfrn (Us) in. w.g. (Pa) 0(0) 0.00(0) 200 (95) 0.01 12) 400 (185) 0.03(7) 600 (280) 0.04 (10) 8OO (375) 0.06 (15) 1000 (470) 0.09 (22) 1200(560) 0.12(30) 1400(655) 0.15(371 1600(750) 0.19(47) 1800 (845) 0.23 (57) 2000 (935) 0.27 (67) 2200 0030) 0.33 (82) 2400 0i25) 0.38 (95) 2600 (1220) 0,aa 1110) HIGH ALTITUDE DEBATE Unit does not require gas pressure aciustment wnen operating at elevations of 0 to 7500 feet (0 to 2285 m). See taole for correct manifold pressures for natural and LPGi?T. pane gases In Canada. certification for installation at altitudes over 4500 feet (1372 m) aoave sea level is the junsdictlon of local aumonties MANIFOLD G4S PFtFSCI IRt= ALTITUDE tt. (m) Fuel Manifold Pressure (Outlet) in. w.g. (kPa) 0-7500 (0 - 2235) Natural Gas 3.5 (0.87) 0-7500 (0 - 2285) LPG/Prooane 9.0 - 9.5 (2.24 - 2.37) HORIZONTAL VENTING RF0t11R1~MFA1rc rT> - Tt<..- w_rn Furnace Vent Pipe Diameter Furnace Connection Vent Pipe Minimum Equivalent Length Vent pipe Maximum Horizontal Venting Model No. Equivalent Length Transition Required in. mm feet meters feet meters in. mm 80 G3-60 3 76 10 3.0 60 18.0 _3 to 4 Z 76 to 102 80UHG2-75 80UHG3-75 80UHG4-75 80UH133/4-100 SOUHGM5-10() 4 102 10 3.0 60 18.0 - - - - - - - 80UHG3t4-120 8OUHG4/5-120 VENTING NOTES - Elbows - Ona 3 irm r7r; .., . e.e, ec_ One 4 itch (102 mm) diameter 45- elbow is eawvalent td a feet (tV2 m! of stnaignt verip0 e. One 3 inch (76 mm) 90; elbow Is equvalent to 5 feet (LS m! of straight vent aign e. One 4 mcn (102 mm) 90= elbow is equivalent to 7 feet (2.1 m) of straight vent pioe. Two 45= elbows are equal to one 9o` elbow. Tees - One 3 incri (76 mm) diameter tee is equrvaWn to 19 teet (5.8 m).of straight vent proe. eourvaferil Transition - 30ne 4 inch too nqf (76 mm to 02 mm)ttranstoon is equivalenit(7.6 o 2rfeet (0.61 m) of strai rn vent ptoe. =i ransr ion fumisfled with Dower venter should be installed on too of Hue adaptor at induced draft bower. NOTE - All horizontal venting appfications require 0000nal Sidewall Power Venting Kit. r-- o F Left Side G Right Side B O C ELECTRICAL INLETS (Either Side) "NOTE- Return air opening is equipped Return Air with a 314 inch (19 mm) flange 1 --C 1 that may be bent out 901 for (25) Openin9 (25) plenum connection. Dimensions FRONT VIEW shown are afterflange is bent ouL ,DIMVNSIONS - inches (MM) GAS PIPING 2 (51) ELECTRICAL INLETS INLET 1 (Top & Bottom) (25) - E O -- O O (495) (25) FLUE 47/4 (483) (25} OUTLET�i SUPPLY ���- - -- AIR OPENING 'NOTE- Supply air opening at rear and sides of cabinet is 1 equipped with a 3/4 inch (19 mm) scored flange that may I (25) be bent out 90° for plenum connection. Dimensions shown are after flange is bent out. Double scored flange at front of supply air opening may TOP VIEW be bent out for a total opening dimension (front to rear) of either 19-1/2 inches (495 mm) or 19 inches (483 mm). A 04 29-518 2 (51) (752) AIR ?FLOW GAS PIPING INLET (Both Sides) LJ LJ 19-i/2 �I 1 (495) —� (25) 15 RETURN AIR (381) KNOCKOUT ' (Either Side) LJ — — — — — — — LJ I 3/4 (19) "19-1/2 Return Air 1 (495) Opening (25) SIDE VIEW Model No. A B C D E F G 80UHG2-45 80UHG2-60 in. 17 36-1/4 15 6-314 2-7116 6-1/2 12 80UHG2-75 SOUHG3-60 80UHG3-75 mm 432 921 381 171 62 114 254 80UHG4-75 80UHG3/4-100 in. 20-1/2 39 18-1/2 8-3/8 4-1/4 8 13-1/2 80UHG3/4-120 80UHG4/5-100 80UHG4/5-120 j mm 521 991 470 213 108 203 343 �� Technical 80UHG i Page 6 OP.a:olicanons VALUE'' 12 CONDENSING UNITS 12ACB EXPANSION VALVE SYSTEMS Bulletin No. 210077 Up to 13.50 SEER April 1996 *23,200 to 58,000 Btuh (6.8 to 17.0 kW) Cooling Capacity s ;ohs ecles 995 UL CD ® LISTED Typical Application 2 thru 5 Tons (7.0 to 17.6 kW) *ARI and DOE Cartified Ratings ISO 9000 r1EGMI ER 1 worth CUSS tnlAUPf Applications • SEER'S of up to 13.50. • 2 through 5 Ton (7.0 through 17.6 kW) sizes. • Single phase power supply. • Vertical air discharge allows concealment behind shrubs at grade level or out of sight on a roof. • Matching blower powered or add -on furnace evaporator units provide a wide range of cooling capacities and applications. See ARI Ratings table. • For evaporator unit data, see Coils - Blower Coil Units, this section. • Units shipped completely factory assembled, piped and wired. Each unit is test operated at the factory insuring proper operation. • Installer must set condensing unit, connect refrigerant lines and make electrical connections to complete job. Approvals • Rated in accordance with ARI Standard 210/240-94. • Sound rated in Lennox reverberant sound test room in accordance with test conditions included in ARI Standard 270-95. • Tested in the Lennox Research Laboratory environmental test room. • Rated according to U.S. Department of Energy (DOE) test procedures. • Condensing units and components within bonded for grounding to meet safety standards for servicing required by U.L., N.E.C. and C.E.C. • Units are U.L. listed and C.S.A. certified. • Developed in accordance with ISO 9000 quality standards: Equipment Warranty • Compressor — Five years. • All other covered components — One year. • Refer to Lennox Equipment Limited Warranty certificate included with unit for specific details. Unit Cabinet • Heavy gauge steel cabinet with five station metal wash process. • Baked -on outdoor enamel paint finish provides superior rust and corrosion protection. • Painted base section. • Control box is conveniently located with all controls factory wired. • Corner patch plate allows access to compressor components. • Drainage holes are provided in base section for moisture removal. Copper Tube/Enhanced Fin Coil • Lennox designed and fabricated coil. • Ripple -edged aluminum fins. • Copper tube construction. • Lanced fins provide maximum exposure of fin surface to air stream resulting in excellent heat transfer. • Fin collars grip tubing for maximum contact area. • Flared shoulder tubing connections/silver soldering construction. • Coil is factory tested under high pressure to insure leakproof construction. • Entire coil is accessible for cleaning. • PVC coated steel wire coil guard furnished as standard. Condenser Fan • Direct drive fan moves large airvolumes uniformly through entire condenser coil for high refrigerant cooling capacity. • Vertical air discharge minimizes operating sounds and eliminates damage to lawn and shrubs. • Fan motor has sleeve bearings and is inherently protected. • Motor totally enclosed for maximum protection from weather, dust and corrosion. • Rain shield on motor provides additional protection from moisture. • Louvered steel top fan guard furnished as standard. • Fan service access accomplished by removal of top panel. 3 The maole leaf svmbol in this bulletin denotes Canadian only usage wnere aoolicable _.1996 Lennox Industries Inc. NOT'c — Due to Lennox' ongoing committment to quality, Soecrncations. Ratings and Dimensions suoiect ro change without notice and `NIinOUT ncurnng liaodirv. Unit Size & Model No. 'Sound Rating Number (db) 95'F *ARI Standard 210/240 Ratings Up -Flow Down -Flow Horizontal Ex ansion Valve Kit Required Cooling Ca 9 p• SEER EER Total Unit Watts Btuh kW Evaporator Coils 22 Ton 12AC824 (76) 23,600 6.9 12.25 11.15 2120 C26-21(FC) - - - - - - - - -Factory Installed i. 1B-85663J (26K34) *Factory Installed 24,200 7.1 .1 12.50 12.75 11.40 11.50 2125 2125 C23-31(Wl(FC) C26-26(W)(FC) - - - - - - - - - - - - 25,400 7.4 13.25 11.90 2130 C26-31(W)IFC) _ _ _ _ 23,200 6.8 12.00 10.95 2120 - - CR26-21 _ _ . . 25.000 7.3 13.00 11.75 12130 - - - - CR26-31 - - - - LM5663J (26K34) 23,800 7.0 12.25 11.25 2120 - - - - - - - - CH23-31 Btuh kW SEER EER Watts Blower Coil Units Valve 24,000 7.0 12.05 11.40 2105 C829M-21/26 (Multi -Position) *Factory Installed 24,200 7.1 12.05 11.40 2125 C329M-31 (Multi -Position) 24,400 7.1 13.05 11.50 2120 C83OM-21/26 (Multi -Position) 25,600 7.5 13.50 12.35 2075 C830M-31 (Multi -Position) 24,000 7.0 12.50 11.30 2120 o CVP10-26/EC10(n 25 Ton 12ACS30 U.S. Canada (7 (76) vRated in accordance Btuh kW SEER EER Watts I Evaporator Coils Valve 29,400 8.6 12.25 11.00 2675 C23-31(W)(FC) - - - - _ - _ _ LB-85663J (26K341 29,400 8.6 12.50 11.10 2650 C23-41(W)(FC) - - - - - - - 29,600 8.7 12.50 11.15 2655 C26-26(W)(FC) - - - - - - - - •Factory Installed 31,000 9.1 13.00 I 11.70 2655 C26-31(W)(FC) - - - - 31,200 9.1 13.00 11.30 2660 C26-41(FC) - - - - 30,400 8.9 12.75 11.45 2655 CR26-31 LB-85663J (26K34) 31,200 9.1 13.00 11.75 2660 - - - - CR26-41(N)(W) 29.200 8.6 12.25 11.05 2645 - - - - CH23-31 30,400 8.9 12.75 11.45 2655 - - - - - - - - CH23-41 Btuh kW SEER EER Watts Blower Coil Units Valve 27,800 8.1 12.05 10.60 2625 CB29M-21/26 (Multi -Position) *Factory Installed 29,400 8.6 12.50 11.05 2655 C829M-31 (Multi -Position) 29,600 8.7 12.60 11.10 2660 C829M-41 (Multi -Position) 29,600 3.7 12.60 11.30 2625 C830M-21/26 (Multi -Position) 31,200 9.1 13.20 12.20 2560 1 C830M-31 (Multi -Position) 31,200 9.1 13.05 12.0 2600 CB30M-41 (Multi -Position) 31,400 9.2 13.50 12.70 2470 C831MV-41 (Multi -Position) 29,800 8.7 12.70 11.25 2650 o CVP10-31/EC10Q3 - - - - - - - _ 30,400 with AIR] 8.9 Stand, 12.75 d 270/ 11.45 2655 O CVP10-41/EC10Q3 - - - - - - - - 17 connecting refrigerant lines. r (35 C) outdoor air temperature, 80-F (27`C) db / 67'F (19°C) wb entering evaporator airwith 25 h_ (7.6 m) of 'Sound Rating Number rated in accordance with test conditions included in ARI Standard 270. J Kit is required and must be ordered extra, unless shown as factory installed. *Furnished as standard with coil. NOTE - Shaded area denotes most popular evaporator coil. 12ACB / Page 4 ARM RATINGS Unit Size & Model No. *Sound Rating Number (db1 *ARI Standard 210/240 Ratings Up -Flow Down -Flow Horizontal -Expansion Valve Kit Required Cooling Cap' SEER EER Total Unit Watts Stuh kW Evaporator Coils a 34,600 10.1 12.00 10.55 3265 C23-41(W)(FC) .. • . LB-85663J (26K34) 35.400 10.4 12.50 10.75 3290 C26-31(W)(FC) - - - - .... *Factory Installed 35.600 10-41 12.25 10.80 3290 C23-46(FC) . • .. - - - - LB-85663J (26K341 36,200 10.6 12.50 10.95 3300 C26-41(FC) .... - - - - •Factory Installed 36,600 110.7 12.50 11.05 3305 C26-46(FC) • • . - 36,800 10.8 12.50 11.10 3310 C23-51(FC) _ LE-85663J (26K34) 34,400 10.1 12.25 10.75 3200 - - - - CR26-31 - - - - 36,200 10.6 12.50 10.95 3305 - - - - CR26-41(N)(W) - - - - 10.4 12.25 10.80 3295 ---- CH23-41kW SEER EER Watts Blower Coil Units Valve 9.3 12.05 10.45 3225 CB29M-31 (Multi -Position) •Factory Installed 10.0 12.05 10.30 3315 C829M-41 (Multi -Position) 10.4 12.50 10.65 3320 C829M-46 (Multi -Position) 35,600 10.4 12.75 10.75 3310 C830M-31 (Multi -Position) 36,000 10.5 13.05 11.10 3250 C830M-41 (Multi -Position) 36,200 10.6 13.05 11.30 3210 C330M-46 (Multi -Position) 36,200 10.6 13.50 11.45 3165 1CB31MV-41 (Multi -Position) 37000 10.3 13.05 11.50 3225 C33OM-51 (Multi -Position) 37,200 10.9 13.50 12.00 3100 CB31MV-51 (Multi -Position) 35,400 10.4 12.25 10.75 3290 P10-4&EC10Q4 - - - - 35,600 10.4 12.25 10.80 3290 E00V P10-41/EC10Q3 3.5 Ton 12AC342 U.S. (80) Canada (78) Btuh kW SEER EER Watts Evaporator Coils Valve 37,800 40,000 11.1 11.7 11.50 12.00 9.90 10.20 3815 3930 C23-41(W)(FC) C23-46(FC) - - - - ... - LB-85663K (26K35) 40,000 111.7 12.25 10.45 3830 C26-41(FC) - - - •Factory Installed 41,500 112.2 12.25 10.50 3945 C26 46(FC) . • . . 42.000 112.3 12.30 10.85 3945 C23 51(FC) - - - - - - - - L3-85663K (26K35) 42,000 112.31 12.50 10.65 3950 C26-51(FC) ... • •Factory Installed 41,000 112.01 12.25 10.40 13940 CR26-41(N)(W) ---- LB-85663K (25K35) 41,500 112.21 12.50 10.50 3950 CR26-51(N)(W1 41,500 12.2 12.25 10.50 3950 - - - - - - - - CH23-51 Stuh kW SEER EER Watts Blower Cod Units Valve 37,800 11.1 11.50 9.55 3950 C329M-41 (Multi -Position) *Factory Installed 40,000 11.7 12.05 10.00 3995 C829M-46 (Multi-Positioni 40,500 11.9 12.50 10.60 3825 C33OM-41 (Multi -Position) 40,500 11.9 12.60 10.65 3810 CB31MV-41 (Multi -Position) 42,000 112.3 12.05 10.40 4045 C929M-51 (Multi -Position) 42.000 112.31 12.50 10.90 13850 C33OM-46 (Multi -Position) 42000 12.3 12.75 10.95 3840 C33OM-51 (Multi -Position) 42,500 12.5 13.05 11.35 3740 C831MV-51 (Multi -Position) 40,500 11.9 12.00 10.30 3935 O CVP10-46(EC10Q4 40,500 11.9 12.00 10.30 3940.1 O CVP10-51/EC1004 A_ .. ,, OZOU III nu:Qradnce wicn AMi acanaara G iurzW; T5'r (3b'G Outdoor air temperature, 80'F (27'C) db / 67'F (19'C) wo entering evaporator air with 25 ft. (7.5 m) of connecting refrigerant lines. 'Sound Rating Number rated in accordance with test conditions included in ARI Standard 270. - Kit is required and must be ordered e)tra, unless shown as factory installed. •Furnished as standard with cod. NOTE - Shaded area denotes most popular evaporator coil. 7 12AC8 03ge 5 ► Unit Size & Model No. *Sound Rating9 Number Idbl *ARI Standard 210/240 Ratings Up -Flow Down -Flow Horizontal ••Ex ain on Va ve Kit Required Cooling Ca p• SEER EER Total Unit Watts Btuh kW Evaporator Coils 4 Ton 12AC848 U.S. (82) Canada (80) 44,500 12.3 12.25 10.50 4240 - C26.41(FC) . - - - - - - - *Factory Installed 46,500 13.6 12.50 10.75 4340 C26.46(FC) - - - _ 47,500 13.9 12.50 10.80 4400 C23-51(FC) .... - - - - LB-85663K (26K35) 48,000 14.1 12.50 10.80 4440 C26-65(FC) - - - - .. _ . *Factory Installed 48,500 14.2 12.50 10.85 4440 C25-51(FC) 49,000 14.4 12.75 11.00 4460 C23-51/65(FC) - - - - - - - - LB-85663K (261<35) 50,000 14.7 13.00 11.15 4460 C26-65(FC)EAP - - - - - - -Factory Installed 46,000 13.51 12.25 10.55 4340 ---- CR26-41(N)(W) LB-85663K (26K35) 48,000 14.1 12.50 10.35 4440 - - - - CR26-51(N)(W) - _ - _ 47,500 13.91 12.50 10.75 4440 ' ' ' ' - - - - CH23-51 50,000 14.7 13.00 11.15 4460 - - - - - - - - CH23-68 gtuh kW SEER EER Watts Blower Coil Units Valve 45,000 13.2 12.50 10.70 4215 C830M-41 (Multi -Position) •Factory Installed 45,000 13.2 12.50 10.70 4200 CE31MV-41 (Multi -Position) 46,000 13.5 12.05 10.20 4505 C829M-46 (Multi -Position) 46,500 13.6 12. 55 10.95 4245 C830M-46 (Multi -Position) 47,000 13.8 12.25 10.50 4475 CB29M-51 (Multi -Position) 47,500 13.9 12.35 10.55 4510 C829M-65 (Multi -Position) 48,500 14.2 13.10 11.25 4315 C830M-57 (Multi -Position) 48,500 14.2 13.05 11.10 4365 CB30M-65 (Multi -Position) 48,500 14.2 13.25 11.35 4265 C331MV-51 (Multi -Position) 49,000 14.4 13.20 11.45 4285 C831MV-65 (Multi -Position) 46,500 13.6 12.25 10.55 4420 CVP10-51/EC10Q4 - - - - ---- 48,000 14.1 12.50 10.75 4440 O CVP10-65/EC10Q5 5 Ton 12 CC860 U.S.(82) Canada (80) *Rated in accordance Btuh kW SEER EER Watts Evaporator Coils Valve 54,500 16.01 12.00 10.15 5380 C2&65(FC) - - - - *Factory Installed 55,500 16.3 12.00 10.15 5440 C26-51(FC) _ - - _ 57,000 16.7 12.00 10.30 5540 C23-51/65(FC) - - - - - - - - LB-85663K (261<35) 58,000 17.0 12.25 10.50 5500 C26-65(FC)EAP .... - - - - *Factory Installed 55,500 16.3 12.00 10.20 5420 .... CR26-51(N)(W) ---- 57,000 LB-85663K (26K35) 16.7 12.00 10.20 5560 CH23-65 Stuh kW I SEER EER Watts Blower Coil Units Valve 55,000 16.1 11.40 9.65 5700 C829M-51 (Multi -Position) *Factory Installed 55,000 16.1 11.50 9.75 5640 CB29M-65 (Multi -Position) 55,500 16.3 12.50 10.60 5240 CB30M-51 (Multi -Position) 55,500 16.3 12.65 10.70 5190 C831MV-51 (Multi -Position) 57,000 16.7 12.50 10.55 5395 CB30M-65 (Multi -Position) 57,000 16.7 12.60 10.65 5360 CB31MV-65 (Multi -Position) 56,000 with ARI 16.4 Srannarri 12.00 iinnen• 10.25 oc-c 5500 10 CVP10.65/EC10Q5 - - - - - connecting refrigerant lines. •-- -, --- - -•- • ...r=- , - �; uu i of r i wo entering evaporator air with 25 ft. (7.6 ml of 'Sound Rating Number rated in accordance with test conditions included in ARI Standard 270. Kit is required and must be ordered extra, unless shown as factory installed. •Furnished as standard with coil. NOTE -Shaded area denotes most popular evaporator coil. 12ACS / Page 6 No. t r. NOTE- For Temperatures and Capacities not shown in tables, see bulletin -Cooling Unit Rating Table Correction Factor Data in Miscellaneous Engineering Data section. .1 A - VLY-L 1 lrlif Enter- Outdoor Air Temperature Entering Condenser Coil ing Total Air 85°F 129°C) I 95°F (35°Cl 105°F141°C) 115°F (46' We[ Bulb Volume Total Cooling Con- Sensible To Total TO�I Cooling Com- Sensible To Total Total Com- Sensible To Total Total Com- Temper- Capacity pressor Ratio ISM Capacity Pr�r Ratio ISM Cooling g Capacity pa"ty pressor Ratio ISM Cooling pressor Dry Bulb W Dry Bulb ature W� Water Dry Bulb Capacity Motor °F80° 85°F kW Btuh Us cfm kW Btuh Input 5°F °F85°F 49C °C kW Btuh !opal I^Par 5°F80° gr°F Watts 4 29C 4°C 27 kW Btuh Input 63'F 305 650 6.7 22,800 1470 .72 .86 .98 6.4 22,000 1660 .73 .88 .99 6.2 21,100 1870 .75 .89 1.00 5.9 20300 2110 (17.2°C) 375 800 6.9 23,600 1470 .77 .92 1.00 6.7 22,700 1 1660 .78 .94 1.00 6.4 21900 1870 .80 .96 1.00 62 21,000 2110 450 950 7.1 24,300 1470 .82 .97 1.00 6.9 23,400 1670 .84 .99 1.00 6.6 22.500 1880 .85 1.001.00 6.4 21,700 2120 67°F 305 650 7.1 24,200 1 1470 1.56 .70 .83 6.8 23 300 1670 .57 .71 .84 6.6 22.400 1880 .58 .72 .86 6.3 21,500 2120 (19.4°C) 375 800 7.3 24,900 1470 .59 .75 .89 F7.0 23,900 1670 .60 .76 .91 6.7 23.000 1880 .61 .78 .93 6.4 22,000 212D 450 950 7.4 25,400 1480 .62 1.80 .95 7.2 24,400 1670 .63 .81 .97 6.9 23,400 1890 .64 .83 .98 6.6 22,500 2120 71°F 305 650 7.6 25,9W 1480 .42 .55 .67 11 7.3 1 24-900 1670 .42 .55 .68 7.0 23,900 1890 .43 .56 .70 6.7 22.900 2120 (21.7°C) 375 800 7.8 26,500 1480 .43 .58 .72 7.5 25,500 1680 .44 .59 .74 7.2 24,500 1890 .44 .60 .75 6.9 23,500 2120 NOTE -All 45 values 950 are 7.9 dross 27 000 ranacdioc 1480 anri .44 .i., .61 ,,.....,,.i„a„ .77 7.6 26 D00 1680 .45 .62 .79 7.3 24 900 1890 .45 .63 .81 7.0 23 800 2120 76 82 65 43 44 Enter- - YI r�11r �l Outdoor Air Temperature Entering Condenser Coil ing W� Bulb emper- ature 63°F (17.2°C) 67°F (19.4°C) 71 °F (21.7°C) 14501 Total Air Volume L/s cfm 305 650 375 800 450 950 305 650 375 800 117.41 450 950 305 650 375 800 950 118.1 All values are 85°F TO�I Coaling Capacity kW Btuh 6.8 23,200 7.0 24,000 7.2 24,700 7.2 24,700 25,400 7.6 25,900 7.7 26,400 7.9 27,000 1 27,600 gross capacities (29°C) Coin pressor Motor Watts bloat 1470 1470 1470 1470 1470 1480 1480 148p L 1480 1 and Sensible To Total Ratio ISM 95°F Total Cooling Capacity kW Btuh (35°C) Com- Pr e?--" Sensible To Total Ratio ISM 105°F(41°C) Total Cooling � paw kW Btuh Com- pressor Watts Input P Sensible To Total Ratio ISM 115°F Total cool' g �pac (46°CI Com- pressor Motor In WattV.73 Sensible To Total Ratio ISM pry Bulb �Y 5°F 4� .72 .76 .81 .56 .59 .62 .42 d3 44 1.60 do Bulb ° F F .86 .97 .92 1.00 .97 1.00 .69 .82 .74 .89 .79 .94 .54 .67 .57 .72 1 .77 11 not inrlllria Way Input Dry Bulb 5°F 80 4 27 85°F 29°C Dry Bulb 5°F 4°C 8o° 27 85°F kW Btuh 85°F 6.5 6.8 7.0 7.0 72 7.3 7.4 7.6 7.8 1 auan 22,300 23,100 33.800 23,8W 24.400 24,900 25,300 26,000 26 500 1-1 1660 1660 1670 1670 1670 1670 1670 1680 1680 / I . 33 .78 .83 .57 .60 .63 .42 .43 .45 ., _ .87 .94 .98 .70 .76 .81 .55 .58 .62 .99 1.00 1.00 .84 1.91 .96 .68 .73 .78 6.3 6.5 6.7 6.7 6.9 7.0 7.2 7.3 7.41 21,500 22,300 22,900 22,800 23,4001 23,900 24,400 25,000 1 25 40D 1 1870 1870 1880 1880 1880 1 1890 1890 1890 1890 .74 .79 .85 .58 .61 .64 .43 .44 .45 .89 .95 .99 .72 1 .77 .82 .56 .59 1 .63 1.D0 1.00 1.00 .86 1 .92 .98 .69 .75 .80 6.0 6.3 6.5 6.4 6.6 6.7 6.9 7.0 7.1 20,600 21,400 22,100 21,900 22,400 22.900 23,40D 23,900 1 24 300 21.00 2 2 2 2120 2120 1.00 1.00 .88 .62 .79 .94 .65 .84 .99 2120 2120 2120 .43 .57 .71 .44 .46 .60 1 .6a .77 .82 NOTE - 1�Will -v Enter- r lem in Condenser Coil 85°F (29°C) 95°F (35°C) 105°F141°CI 1150F 146°C) ing Total Air Wet Bulb Volume Total Com- Cooling Sensible To Total Ratio (S/T) T°�I Com. Sensible Cooling To Total Total Com- Sensible To Total Total CO-- Sensible Temper- Capacity Motor �� Prior Ratio ISM Motor Coolin g Pa`Ry pressor Motor Ratio ISM Cooling CF pressor To Total Ratio (S/T) Dry Bulb pry Bulb 85°F MotorWatts Dry Bulb °F ature Us cfrn Watts kW Btuh Input °F Dry Bulb kW Btuh Input 4°F W° 4°C °SOFJWIC 291C4°C kW Btuh Pnt 4°C 27° kW Btuh Input 5°F 80° 63°F 305 650 6.8 23,300 1470 .71 .85 .97 .98 6.6 22,400 1 660 .7M 6.3 21,600 1870 .74 .88 1.00 6.7 20,700 2110 27 .75 .90 1.00 (17.2°C) 375 800 7.1 24,100 1470 .761.91 1.00 6.8 23,200 1660 .7.00 6.6 22,400 1870 .79 .95 1.00 6.3 21,400 2110 .97 1.00 450 950 7.3 24,800 1470 .80 .96 1.00 7.0 23900 1670 .8.00 6.7 23,000 1880 .84 .99 1.00 6.5 22,100 2120 .81 1.00 1.00 67°F 305 650 7.3 24,900 1470 .56 .69 .82 7.0 23,900 1670 .5.83 6.7 23,000 1880 .86 (19.4°C) 375 800 7.5 25,600 1480 .59 .73 .88 7.2 24,600 1670 .5.90 6.9 23,600 1880 .57 .60 .71 .76 .85 .92 6. 0 2120 7.6 26,100 1480 .61 .78 .94 7.4 25,100 1670 .61 .78450950 305 .6.95 7.1 24,100 1890 .63 .82 .97 6.7 23, 1 6507.8 26,600 1480 .42 .54 .66 7.5 25,500 1690 .4.67 7.2 24,500 1890 .42 S6 .69 6.9 23,500 2120 .84 .9971°F 375 800 8.0 27,300 148D .43 .57 .71 7.7 26,20.72 7.4 25,200 1890 7.1 24,100 2120 .43 .56 .70(21.7°C) values 950 are 8.2 gross 27 900 capacities 1480 and 44 do 6.78 not includes avannro*�. rn41 /J,..-,._ �__. 7.5 25 600 1890 .44 .45 .59 .62 .74 .79 7.2 24 500 2130 .4d .45 .60 .63 .76450 .81NOTE -All 'I-tAf%D A V SOvs & 11 S° = 110069 Enter- Outdoor Air Temperature Entering Condenser Cod ing Total Air 85°F (29°C) 95°F f35°CI 105°F(410C) 115°F (46°CI Wet Bub Volume Total Cooling 9 Com- Sensible To Total Total Cooling Corr- Sensible Total Com Sensible To Total Total Com- Sensible Temper- Capacity Ratio ISM Capacity pressor Ratio ISM Cooling Capacity pressor Ratio IS CapacityCool pressor To Total Ratio ISM Motor Watts Dry Bulb °F °F °F Motor W� prY Bub ature Watts Dry BulbMotor pry Bulb Us cfm kW Btuh Input 4 C kW Btuh Input 5°F 80° 85° kW Btuh I^Pm 5°F 80° 85°F kW Btuh Watts Input 5°F 80° °F 4 4°C Z7 4°C 27 °F 305 650 6.9 23,500 1470 .72 .86 .98 6.6 2Z,600 1660 .73 .87 .99 6.4 21,700 1880 .74 .89 1.00 6.1 20,800 2110 .76 .91 1.00 (17.2°C) 375 800 7.1 24,300 1470 .77 .92 1.00 6.9 23,400 100 .78 .94 1.00 6.6 22,5W 1880 .80 .96 1.00 6.3 21,600 2120 450 950 7.4 25,100 1470 .82 .97 1.00 7.1 24 200 1670 83 .99 1.00 6.8 23 300 1880 .85 1.00 1.00 6.6 22,400 2120 .82 .98 1.00 .87 1.00 1.00 67°F 305 650 7.3 25,000 1470 .56 .69 .82 7-1 24,100 1670 .57 .70 .8a 6.8 23,100 1880 .58 .72 .86 6.5 22,100 2120 .73 .88 (19.4°C) 375 800 7.6 25,800 1480 .59 .74 .89 7.3 24,800 1670 .60 .76 .91 6.9 23,700 1890 6.7 22,700 .58 450 950 7.7 26,400 1480 .62 .79 .95 7.4 25,300 1680 .63 .81 .97 7.1 24,200 1890 .61 .64 .77 .83 .93 .98 6.8 23,200 2120 2120 .62 .79 .95 .65 .85 1.00 F21 305 650 7.9 26,800 1480 .42 .54 .67 7.5 25,700 1680 .42 .55 .68 72 24,700 1890 .43 .56 .69 6.9 23.600 2130 .57 .71 C) 375 800 8.1 27,500 1480 .43 .57 .72 7.7 26,400 1680 .43 .58 .73 7.4 25,300 1900 7.1 24,200 2130 .43 NOTE - 450 All values 950 are 8.2 gross 28100 capacities 1480 and .4a do .61 not .77 include 7.9 evannrarnr 26900 1680 roil hi, .a5 o. .62 .79 _ 7.5 . a_�..__._ 25700 _ 1900 .44 .45 .59 .63 .75 .8t 7.2 24600 2130 .44 .a6 .61 .77 .64 .83 12ACB / Page 8 ► NOTE- For Temperatures and Capacities nor shown in tables, see b - Unit R tine Table Correction Factor Data in Miscellaneous Engineering Data section. ACB24 - CH23-31 Outdoor Air temperature EnTihng Condenser Coil Enter- rng Wet Bulb Temper- ature Total Air Volume 85-F (29'C) 95°F (35'C) 11 105`F(41°C) 1151F 146°C) Total Cooling Capacity Com- pressor Motor Sensible To Total Ratio IS/Tl Total Cooling Capacrry Com- pressor Motor Sensible To Total Ratio (S/Tl Total Cooling Capacity Com- pressor Motor Sensible To Total Ratio IS/T) Total Cooling Capacity Com- pressor Motor Sensible To Total Ratio (S/T) Dry Bulb Dry Bulb Dry Bulb Dry Bulb Us cfm kW Btuh aput 5°F 40Ct27°C 80°F 5'F °C kW Btuh watts 5 FII80°FI85°F 24°CI27°CI29°C) kW Btuh atts Input 5-F 80°FI85°F 4°C�27°d29°C kW Btuh W tip S 5°F 4°C 80°f�85°F 27°C129°C 63-F 3051 650 16.7 1 22,700 1470 .72 1.86 .98 1 6.4 21,9001 1660 1.731.87 .99 1 6.21 21,100 11380 .741.89 11.00 5.9 20,200 2110 .75 .91 1.00 (172'(C) 3751 800 6.9123,600 1470 .76 .92 1.001 6.7 22,700 1670 1.781.94 1.00 1 6.4 21,800 1880 .79 .95 1.00 6.1 1 20,900 2120 .81 .97 1,00 450 950 17.1 1 24,300 14-7n .81 1.97 1.001 6.9 23,400 1670 1.83 .99 1.00 1 6.6 22,500 1880 .85 11.0011.00 6.4 21,700 2120 .87 1.00 1.00 67'F 3051 650 7.1 24,300 1470 .56 1.69 .82 11 6.8 23,300 1670 1.57 .70 .84 11 6.6 1 22,400 1880 .57 .721.85 19.4`C) 3751 800 7.3 25,000 1480 .59 .74 .89 7.0 24,0001 1670 .60 1.75 .91 6.7 23,000 1890 .61 1 .77 .92 6.4 22,000 2120 .62 .79 .94 4501 950 7.5 25,600 1480 .62 1.79 .94 7.2 24,500 1680 .63 1 .81 1.96 11 6.9 1 23,500 1890 .641.834.984P"W".71°F 3051 650 7.6 26,000 1480 .421.54 .66 7.3 24,900 1680 .42 .551.68 7.0 23,900 1890 .431.56.7 22,900 2130 t .57 .70 (21.7=C) 3751 800 7.8 26,700 1480 .43 .57 .72 7.5 25.600 t680 .43 .58 1.73 11 72 24500 1900 44 .59.9 23,500 2130 .44 .60 .76 450 1 950 8.0 27.200 1480 44 1.60 77 7.6 26.100 1680 .a5 .62 1.78 7.3 25 000 1900 ,45 1 .63..0 I 23 900 I 2130 I a6 I .6a .82 vU I t -All values are gross capacities and do not include evaporator coil blower motor heat tletlucuon. 12ACB24 - CH23-41 SeAV S &"V • Is, goo Enter- ing Wei Bulb Temper- ature Total Volume Outdoor Air Temperature Entering Condenser Coil 85°F (29°C) 95'1` (35'C) 105'F(41°C) 115°F 146'C) Total Cooling Capacity kW Btuh Com- pressor Motor Watts Input Sensible To Total Ratio (S/T) Total Cooling Capacity Com- pressor Motor Watts I^Put Sensible To Total Ratio IS/T) Total Cooling Capacity kW Btuh Com- pressor Motor Watts Input Sensible To Total Ratio (S/T) Total Cooling Capacity Com- pressor Motor Watts Input Sensible To Total Ratio (SIT) Dry Bulb Dry Bulb 75=F 80°F 85=F 24 C 27°C 29 C Dry Bulb Dry Bulb L/s cfm 5'F180'F 4��7� 85=F kW Btuh 5`F 80`F�85`F 4'C 27 C129 C kW Btuh 5`F 4°C 80= 271C291C 85°F 63-F 305 650 16.9 23,700 1470 1 .72 1.85 .9811 6.7 1 22,700 1670 .73 .87 .99 11 6.41 21,800 1880 .7e .89 11.0011 6.1 1 20,900 2120 .75 .91 1.00 (172'C) 375 800 7.2 24,600 1480 .77 .92 1.00 6.9 1 23,600 1670 .78 .94 1.0011 6.6 1 22.600 1890 .80 .96 1.0011 6.4 1 21,700 2120 .82 .98 1.00 4501 950 7.4 25,400 1 1480 .82 .98 1.0011 7.2 1 24,400 1680 .831.99 1.0011 6.9 1 23,400 1890 .8511.00 1.0011 6.6 1 22,500 2130 .87 11.O0 1.()0 67'F 13051 650 7.4 25,300 4480 .56 .69 .6211 7.1 1 24,200 1 1680 .57 1,70 .84 6.8 1 23.200 1890 .57 1 .71 1 .85 11 6.5 22,200 1 2120 .58 1.73 .88 (19.4,C)l 3751 800 7.6 26,100 1480 .591.74 1 .89 li 7.3 1 25,000 1 1680 1.60 1 76 1.91 7.0 1 23,900 1890 .61 1 .77 1 .93 11 6.7 22,900 2130 .62 1.79 1 .95 4501 950 7.8 26.700 1480 .621.791.95 117.5 1 25,6001 1680 .631.81 1.97 7.2 24,500 1 1900 .641.93 1 .99 11 6.8 23,300 2130 .66 .85 1.00 71'F 3051 650 117.9127,100 1 1480 1 .421.54 1 .66 7.6 1 26,0001 1680 1.42 1.55 1.68 7.3 24,900 1900 .421.561.69 7.0 23,800 2130 .43 .57 .70 3751 800 8.2 27,900 1480 .43 1.57 1 .72 7.8 26,700 1 1690 1 .43 .58 .73 7.5 25,500 1900 .4a 1 .59 .75 7.2 24,400 2130 .44 .61 .77 4501 950 18.41 28,500 1 1480 1 .44 1.61 1 77 11 8.0 1 27,200 1 1690 1 45 1 62 1.79 7.6 26,000 1910 .45 1 .63 1 .81 11 7.3 1 24,800 1 2140 NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction. 12ACB24 - CB29M-21 /26 Enter- Wet Bulb Temper- ature Total Air Volume Outdoor Air Temperature Entering Condenser Coil 85°F (29'CI 95`F (35'C) 11 105'F(41°C) 115°F 146°CI Total Cooling Capacity kW Btuh Com- Pressor Motor Wam Input Sensible To Total Ratio IS/Tl Total Cooling Capacity Com- Pressor Motor Sensible To Total Ratio (S/T) Total Cooling Capacity COT- pressor Motor Wam Input Sensible To Total Ratio (S/T1 Total Cooling Capacity Com- pressor Motor watts Input Sensible To Total Ratio (S/T) Dry Bulb Dry Bulb Dry Bulb Dry Bulb L/s cfm 5°F 4°C 80°F 7°C 85'F °C kW Btuh Watts Input 75-F 24 CI27 80° �29°C 85'F kW Btuh 5`F 4� 80 FFjj85°F 27 CI29°C kW Btuh 5°F 4°C 80°F�85`F 27°Ct29°C 631F 305 650 16.91 23,600 1470 .72 .86 .97 1 6.7 1 22,800 1660 .73 .87 .98 6.4 1 21,900 1870 .75 1 .391.99 11 6.2 21,100 2110 .76 .91 11.00 (17.2°C) 375 800 17.21 24,400 1470 .77 .92 1.0011 6.9 1 23,600 1660 .78 1.93 1.00 6.7 22,700 1870 .80 1 .95 11.0011 6.4 21,800 2110 .81 .97 11.00 450 950 7.4 25,100 1470 .82 .97 1.0011 7.1 1 24,200 1670 .83 .98 1.00 6.9 1 23,400 1B80 .85 1 .99 1.0011 6.6 22,500 2110 .87 1.00 1.00 671F 305 650 7.4 25,100 1470 .57 .70 .83 7.1 24,200 1670 .57 .71 .84 6.8 23,300 1880 .58 .72 .86 6.5 22,300 2110 .59 .74 .88 (19,4°C) 3751 800 7.6 25,900 1470 .59 .75 .89 7.3 24,900 1670 .60 .76 .91 7.0 23,900 1880 .61 .78 .92 6.7 22,900 2120 .62 .79 .94 450 950 7.7 26,400 1470 .62 .79 .94 7.4 25,400 1670 .63 .81 .96 7.2 24,400 1890 .641.83 .97 6.9 23,400 2120 .65 .84 .99 71 `F 305 650 7.9 26,900 1470 .43 .55 .67 7.6 25,800 1670 .43 1.56 .68 7.3 1 24,900 1890 .43 1 .56 1 .70 7.0 1 23,800 2120 .43 .57 .71 (21,7'C) 13751 800 8.1 27,600 1470 1 .43 .58 .72 7.8 1 26,500 1680 .44 1.59 .74 7.5 25,500 1890 .44 .60 .75 7.2 24,400 2130 .45 .61 .77 14501 950 8.2 28 100 1470 .45 .61 .77 7.9 27 000 1680 a5 .62 .79 7.6 25 900 1890 .45 .63 .81 7.3 24 800 2130 .46 .64 1 82 NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction. 12ACB24 - CB29M-31 Outdoor Air Temperature Entering Condenser Coil Enter- rng Wet Bulb Temper- ature Total Air Volume 85°F (29°C) 951F (35'C) 1051F(41°C) 115°F (46°C) TotCool Coolrn9 Capacity Com- pressor Motor Sensible To Total Ratio (S/Tl Total Cooling Capacity Com- pressor Watts Input Sensible To Total To Ratio ISrT) Total Cooling Capacity kW Btuh Com- pressor Motor Sensible To Total Ratio IS/T1 Total Cooling Capacity Com- pressor Motor Sensible To Total Ratio (S/T) Dry Bulb Dry Bulb 75`F 80` 85'F 24`CI27 C�29'C Dry Bulb Dry Bulb Us I cfm kW Btuh Watts Input 5`F 4°C 80'F °C 85'F kW Btuh Watts Input 5=F180'F185`F 4'C127`C129'C kW Btuh Watts Input 5'F 4°C 80'Ff85 27°C29°C F 632E13301 700 7.1 24,200 1470 .74 .88 .99 6.8 23,300 1660 .751.89 1.00 6.6 22,400 1880 .761.91 1.00 6.3 21,500 2110 .78 .93 1.00 (17.2°C) 375 800 7.2 24,700 1470 .77 .92 1.00 7.0 23,800 1670 .78 1.93 1.001 6.7 22,900 1880 .801.95 1.00 6.4 22,000 2120 .81 .97 1.00 425 900 7.4 25,200 1470 .80 .95 1.00 7.1 24,300 1670 .81 .97 1.00 6.9 23,400 1880 .83 .98 1.00 6.6 22,500 2120 .85 .99 1.00 671F 330 700 7.5 25,700 1470 .57 .71 .85 7.3 24,800 1670 .58 .72 .86 7.0 23, 00 1880 .59 .74 1 .88 6.7 22,8W 2120 .60 .75 .90 (19.4°C) 375 800 7.7 26,200 1470 .59 .74 .89 7.4 25,200 1670 .60 .76 .90 7.1 24,200 1890 .61 .77 .92 6.8 23,200 2120 .62 .79 .94 425 900 7.8 26,600 1470 .61 .78 .92 7.5 25,500 1670 .62 .79 .94 7.2 24,500 1890 .63 .81 .96 6.9 23,500 2130 .64 .83 .98 71`F 330 700 B.1 27,500 1a70 a3 .56 . 99 7.7 26,400 1680 .43 .57 .70 7.4 25.400 1890 .43 .57 .71 7.1 24,300 2130 .44 .58 .73 (21.7°C) 375 800 8.2 28.000 1480 a3 .58 .72 7.9 26,900 1680 .44 .59 .73 7.6 25,800 1900 .441 .60 1 .75 7.2 24,700 2130 .44 .61 1 .77 425 900 8.3 28 400 1480 .44 .60 .75 8.0 27 200 1680 .45 .61 .77 7.6 26 100 1900 45 1 .62 .79 T3 25,0001 2130 .45 .63 .81 QO I t -All values are gross capacities and do not include evaporator coil blower motor heat deduction. 12ACB / Page 10 .j 00 NOTE- For Temperatures and Capacities not shown /n rables. see bulletin- Cooling Unit Rating Table Correction Factor Data In Miscellaneous Engineering Data section. 117ACIO,= --- r`02e_w-11ftIIf%Ar\ Outdoor Air Temperature Emenng Condenser Coil Enter- ing Total 85°F (29'C) 95°F (35'C) 105°F141°C) I 115°F (46°C) Tout Cooling I Com- Sensible To Total Total Cooling g Corn Sensible To Total Total Com- Cooling Sensible To Total TOE Com-To Sensible Total Wet Bulb Vo ulr me Temper- Capacity Pressor Ratio ISM CaParaty Pressor MotorWatts Ratio (S/) pressor Capacity Ratio ISM Cooling Capaetty Pressor Ratio (S/T1 Dry Bulb Dry Bulb Dry Bulb Motor Dry Bulb 5°FI80°FasS°F attire kW I Btuh WO2atts°r Input Us ctm I 51FI80°FI85°F kW Btuh Input 51980°FIBS° a�tur kW I Btuh Input 5°F180°a85°FI 4°Ctz7°clz9°c) 4`C127°C129°C 4°C127°C129°C kW ( Btul, 4°C 27°C29IC 63°F 4.951 1050 1110.31 35,200 1 2300 1 .76 1 .90 1.0011 9.91 33,9W 1 2590 1.77 .92 1.00119.61 32,6001 2930 1 .78 1 .93 11.0011 9.1 1 31.2001 3320 120 1 -95 11.00 (17.2°C) 5651 1200 110.61 36,000 2300 .79 I .94 11.001110.21 34,7001 2600 1.80 .96 11.00119.81 33,3001 2940 1.82 1.97 11.0011 93 1 31.9W 1 3320 1.83 1.99 1.00 635 1350 1110.8136.7001 2310 .82 .9811.001110.4135.a00 2600 1 .83 .9911.D0 1110.0134,0001 2940 1 .85 11.0011.00111 9.6 1 32.6001 3330 1.87 1 1.0011.00 67-F 495 1050 1111.01 37.4001 2310 1.591.73 .87 1110.61 36.100 12610 1.60 1.74 .88 1110.11 34.6001 2950 1 60 .76 1.90 11 9.7 1 33,1001 3340 1.61 1.77 1.92 (19.4'C) 565 1200 i 111.2138.100 1 2320 1.61 1.76 .91 1110.81 36.7001 2620 1.62 1 -78 1.93 1110.31 35.2001 2950 1 .62 1 .79 1 .9a 1 9.8 1 33,600 1 3340 1.64 F.81 635I 1350 1111.338.600 1 2320 1.631.80 1.951110.91 37.200 1 2620 1.64 1.81 .96 1 10.51 35.7001 2960 1 .65 1.831 .98 10.01 34.1001 .97 3350 1.6r. 1.8s 1.00 71°F 495 1 10501111.7139.900 1 2330 1 .441.571.70I 11.31 38.5001 2630 1.44 1 .58 .72 10.81 36.9001 2970 1.441.591.73 1110.31 35.3001 3360 1 45 (21.7°C) 565 1 12001111.91 40.600 1 2340 1.45 1.59 1 .74 1 11.51 39,1001 2540 1.45 1.60 1.75 111.01 37,5001 2980 1 .451 .61 1.77 1110.51 35-9001 .601.75 3370 1.46 1.62 1 .79 Nr1TF - 635 L 1350 1112-01 41,100 1 All--'--- 2340 1 .45 1 .61 1 .771111-61 39,6001 2640 1,46 .62 1 J9 1111ji 38 000 1 2980 1 .46 1 .63 1 .81 1110.61 36.300 1 3370 19AC`R4R - r�o-�c_cvnwten Outdoor Air Temperature Entering Condenser Coil Enter- ing Total 85°F (29'C) 95°F (35°C1 I 105°F(41'C) 115°F (46°C) coolTo g Com- Sensible To Total Total doling �� Sensible Total Total Com Sensible To Total Total Com- Sensible To Total Wet Bub Volume CaPach`/ pressor Motor Ratio ISM Capacrty pr�r Motor Ratio (S/T) Cooling Capacity pressor Ratio (S/Tl Cooling Capacity Pressor Ratio ISM Dry Bulb Dry Bulb Dry Bulb Motor D Bulb ature Motor Us efrn 5°F'80'F185°FI 4°C 7°Cf29`C kW Btuh nput 5oF �° �`° 11 kW Btuh 5'FI80.985°F kW Btuh I Watts Input 5°F 80°Fi85°F kW Btuh 'Put Input 24°(�27°C.�2 4°C127°C129°C 4°CIZ7°C129°C 63°F 495 10501110.41 35,500 2310 1 .75 .90 1.00 10.11 34.3001 2600 1.76 1.91 11.00119.61 32.8001 2940 1 .781 .9311.001 9.2 1 31,4001 3330 1.79 1.95 1.00 (17,2°C) 565 12001110.61 36,3001 2310 1.79 1.9411.00110.31 35,000 L 2610 1.801.96 1.001 9.8 33.6001 2950 1 .82498 11.0011 9.4 1 32,2001 3340 1231.99 1.00 15351 13501110.91 37,100 1 2320 1 .82 1.98 11.001110.51 35,700 1 2610 1.83 1.99 11-001110.11 34,3001 2950 1 .85 11.0011.001 9.6 1 32.9W 1 M40 1.87 11.0011.00 67'F 4951 1050 11.1 37,800 1 2320 1.591.731.86110.7 36.4001 2620 1.59 1.74 138 1110.21 34.9001 2960 1.601.75 1.9011 9.81 33,4001 3350 1.61 1.77 1.92 565 1 1200 111.31 38.600 1 2330 1 .61 06 1.91 1110.91 37,1 DO 2630 1.61 1.78 1.93 1110.41 35.600 1 2970 1 .621 .79 1 .94 110.01 3,000 1 3350 1.63 1.81 1 1 635 f 1350 111.51 39,100 1 2330 1 .53 1.79 I.95 1111.01 37.700 I 2630 1.64 1.81 1.97 1110.61 36.1001 2970 I .65 1.83 1.98 1110.11 34.4001 3360 .97 1.56 1.35 11.00 71°F 4951 1050 11.81 40.400 1 2340 1 .4A I .57 1.70 1111.41 38.9001 2640 1,44 1.58 1.71 1110.91 37.3001 2990 1 .4a 1 .59 1 .73 110.51 35.7001 3386 I 11 (21,7`C) 5651 1200 1112.01 41.100 1 2350 I AA 1.59 1.741. 11.6 39.6001 2650 1.45 .60 1.75 1111.11 37,9001 2990 1 .451 .61 1 .77 110.61 36200 1 3380 1.461.62 .45 .6 .74 1 16351 Nr1TF - All vnh 1350 1112.2 m° I....,.« 41700 1 ,..,,..,..:.:,.,..._...- 2350 1 .451.61 1 .77 1111.81 ---'--'�-J- -- 40100 I 2650 I.A6 �. .62 1.79 1111.31 384001 3000 1.461.631.90110.8 36700 3390 .79 .a71.65 .82 tit oor Air Temperature Entering Condenser Coil Enter- ing Total 85°F (29°C) 95°F (35°C) 105°F(41°C) II 115°F (46°C) Coo�in Com- Sensible To Total Total IP Com To Sensible Total Sensible Com- To Total Total Sensible Com- To Total Bulb Air Volume Temper- Capacity pressor Ratio lS/T1 Pressor Ratio 1ST cooI� g Capacity nY Pressor Ratio IS/T) � ling pacnY Pressor, Ratio ISM DryBulb Motor Dry Bulb ature Watts Motor Dry Buib watts Motor Dry Bulb Us cfrn kW Btuh Input 5'FI80°Fj85`FII 4°Cm°C�9°c kW Btuh npuutt 5'FI80°F{85°FI 24°C127°G29`C kW Btuh Input I75°FI80°FI85°F I 124°C127°C29°CI kW Btuh Watft Input 5'F 80'gF�85°F �4°CI27°C 63'F 4951105011011 34,700 1 2300 .76 1.90 11.001 9.8 1 33,5001 2590 1.771.9211.001 9.41 32,2001 2930 1 .791 .94 11.0011 9-01 30,8001 3320 1.80 1.96 11.001 (17.2°C) 5651 1200 1110.41 35,500 2300 .79 1.95 1 im-11 10.01 34.2001 2600 1.81 1.96 11.001 9.61 32,9001 2940 1 .821 .98 11.0011 9.2 1 31.5001 3320 1.84 11.0011.00 6351 1350 1110.61 36,2001 2310 1 .83 1 .98 U011 10.21 34,900 2600 1.84 11-0011.00119.81 33.6001 2940 1 .86 11.00 1.0011 9.5 1 32300 1 3340 1.88 1.0011.00 �'F 495 1050 10.8 36.800 2310 .59 133 .87 10.d 35.500 2610 .60 1.75 1 .89 10.01 34.100 1 2950 1 .61 1 (19.4'C) 5651 1200 1111.01 37,500 2320 1 .61 .77 .92 1110.61 36,100 2620 1.62 1.78 1.93 110.21 34,7001 -76 .91 2960 1 .631 .801 .95919.7 1 33.100 F3340 1.64 1.82 1 6351 13501111.21 38,100 2320 1 .631.80 .961110.71 36.600 2620 .64 .821.97 10.31 35.2001 2960 1.651.841.99 1 2970 1 .aa I .59 1 .74 .97 71°F a95 1050 111.51 39.300 2330 .441 .57 .71 11.11 37,900 2630 1 AA 1.58 1.72 11 10.61 36,300 10.21 34,8001 3360 1.45 1.60 I (21.7°C) 565 1 1200 1111.71 39.900 2340 1 .451.60 1 .751 11.31 38.500 1 26a0 1.45 1.61 1.76 10.81 36.9001 2980 1 .451 .62 1 .781110.31 .75 35.3001 3370 1.46 1.63 1 16351 NC)TF - 1350 1111.91 All .,ali,u° I. 40 500 2340 .451 -62 1 .78 1111.41 39.0001 2640 1.16 1.63 t.80 1111.01 37,400 1 2980 1 .46 1 .64 1 81 1110.51 .79 35 700 1 3370 1.47 1 .65 1 .93 7 .. •..".,..,.... .,..,, .,. v.. wa ucaa ucuucuvi 1. /� �3 P l�l�� � 12ACB36 - CH23-51 7 C Outdoor Air Temperature Entenng Condenser Coil Enter. Total 85°F (29°C) 95`F 135°C) 1051F(411C) I 115-F (46°C) Wet Bulb Volume Total Com- TTo otal Total Cooling Co� TO Sensible Total Sensible Total Sen To Tsibie otal emper- Capaloity Pressor W� Ratio IS/TI Dry Bulb Pac+ry Pressor Ratio IS/T) Dry Cooling �Pacity Pressor, Motor Ratiooltsam Cooling Capacity pressor Ratio (SPT) ature kW Btuh WPut Motor went Us cfm kW Btuh Input Watts Input Bulb Dry Bulb Dry Bulb �° 85'F kW Btuh 4°C 129,C 4° 4°C�27°C129°C) kW Btuh 4°CjZ7°C129°C 53'F 495 1050110.4135,400 2300 1 .761.9011.00110.01 34,1001 2600 1.771.9211.00 19.61 32,8001 2940 1 .78 1 .94 11.0()JI 9.21 31-3001 3320 1.80 1 9611.00 (172°C) 5651 1200 10.6 36.200 2310 1.79 .95 1.00 10.2 34,900 2600 1.81 .96 1.00 9.81 33,5001 2940 1 .827.98 1.001 9.4 32,1001 3330 .84 1.00 1.00 6351 1350 1110.81 37.000 2310 1 .821.98 1,001110-41 35,6001 2610 1.84 11.0011.00 10.1 34300 2950 1 86 11.0011.0011 9.6 1 32-9001 3340 1.88 11.0011.00 67°F 495 1 1050 1111-01 37,600 2320 1 .59 .73 1 .871110.61 36.200 2620 .6D 1.74 .89 1110.21 34300 1 2960 1 .61 1 .76 1 .9011 9.7 1 33.200 1 33W (19.4°C) 565 1200 1111.21 38.300 2320 1 .61 1.77 .91 1110-81 36.900 1 2620 1.62 1.78 .93 1110.41 35.4001 2960 1.631 .801 95 9.9 1 33MO 3350 .61 .64 .78 .92 .82 .97 635 1350 11.4 38,900 2330 1 .631.80 .951 11.0 37,4001 2630 1.641.82 .97 1 10.51 35.9001 2970 1 .651 .84 .99 1 10.11 34300 3360 1.00 71°F 4951 1050 11.8 40,100 2340 .44 .57 1 .71 11.3 38.700 1 2640 .4A 1 .58 .72 10.9 37,100 1 2980 .44 1 .59 .73 10.41 35-SW 1 3370 1.45 .661.86 1.70 1 .75 (21.7*C)l 565 1 1200 1112.01 40.800 1 2350 .45 .59 .7a 111.5 393001 2640 1 .45 1.60 1.76 1111.01 37.7001 2990 1 451 .61 1 .77 10.61 36.r 3380 1.46 1.63 1.79 16351 1350 1112.11 41.400 1 2350 1 45 1.62 J8 I n.7 39 80() I 2650 1,46 1.63 1 79 1111.21 38,200 1 2990 461 1110.71 36,4001 1 1.65 1 NOTE - All -1. oe-- .641 .81 3380 47 .83 12ACS / Page 18 No. NOTE -For Temperatures and Capacities not shown in tables, see bull ' - Cooling nit Rating is eis a Correction Factor Data in Miscellaneous Engineenng Data section. 19ACRA2 - CH93.R1 l Enter' ing � Bulb ature azure I Total 85°F (29°C) Air Sensible Volume Total Com- To Total Cooling pressor Ratio ISM Capacity Motor Dry Bulb Outdoor Air I emperature Eineing Condenser Coil 95°F (351C) I 105°F(41°C) 115°F (46°C) _ Total Com- Cooling pressor Capacity Motor Sensible To Total Ratio ISM Dry Bulb Total Cooling �fi kW I Btuh presso► Motor Wam Input Sensible To Total Ratio (Sl11 Total TotalCom- CooliTempeng CaPacrtY kW Btuh Pressor) Motor Input Sensible To Total Ratio ISM Dry Bulb 5°F180°F85°F 4°CI27°C29°C Dry Bulb 5°F�80°F185°F 4°C 27°C2.9°C Us cirri IIkW Btuh nput 5°FI80°FI85°F 41C1Z71Cn C kW I Btuh n 5°Fl80°Fl85° 24°C127°C1 63°F 15901 1250 1112.31 41,8001 2750 1 .75 .89 11.00 11.81 40,300 1 3100 .76 1.91 11.001 11.31 38,700 3490 .78 1.93 1.001110.81 37,000 3930 .79 1.95 11.00 (17.20C)l 660 1 1400 1112.51 42.600 1 2750 1.78 1 .93 11.001112.01 41,1001 3100 1.79 1.94 11.001111.51 39.4001 3500 .81 1.96 11.001111.1 37,8001 3940 1.82 1.98 11.00 17301 1550 1112.71 43.300 1 2760 .81 ! .96 11.001112.31 41,800 1 3110 1.82 1.97 11.00 11.81 40,2D0 f 3500 1 .84 799 11.0011 11.3 38.5001 3950 1 .86 11-0011.00 67°F 5901 1250 1113.01 44.300 1 2770 .581.72 1 .861112.51 42.600 1 3120 1.59 I .7,1.98 1112.01 40,900 3520 .60 1 ,75 1 .90 1111.51 39.100 1 3960 1,61 1.77 .92 (19,4°C) 6601 14001113.21 45.0001 2770 .60 1,75 1 .90 1112.71 43,3001 3130 1.61 1.77 1.91 1221 41.500 3520 1.62 .781 .9 7301 1550 1113.31 45.500 1 2780 .62 1.78 1 .93 1112.81 43.8001 3130 1.63 1.80 ( .95 1112.31 42,000 I 3520 1 .6a 1 .821 .9 111.81 40,100 3970 I .65 .Sa 1 .98 71'F 1 5901 12501113.81 47,2001 2790 1 .431.57 1 .70 1 13.31 45.5001 3140 1.431.57 1.71 12.81 43.6001 3540 1.441.581 .73 (21.7°C) 660 1 14001114.01 a7.800 1 2800 1 .a4 1 .58 1 .73 1 13.51 46.000 1 3150 1 .44 1 59 1 .7a 12.91 44.100 3550 1 .ad 1 .60 1 .76 12.4 42,200 I 3990 I .45 1.62 1 JS 17301 1550 1114.21 48,300 1 2800 1 .44 1.60 1 .76 1113.71 46,600 1 3150 Las 1 .61 178 13.11 aa.600 1 3550 1 . a5 .62 1 79 12.5 42 600 1 40()0 1.46 (.64 1 81 •v • - �•i ve•uca a•c y:I as WWJ Ue ails UU HUl InUiVUC CwajlaratUr Call alower molar neat aeouction. S wAl� 12ACB42 - CB29M-41 C Enter- ing W� Bulb Temper- ature Total Air Volume Outdoor Air Temperature Entering Condenser Coil 85'F (29°C) 95°F (35°C) 105°F141°C) 115°F (46°C) Total Cooling Capac' nY I kW Btuh Com- pressor Motor Inpuut Sensible To Total Ratio ISM Total Cooling Ca a P c+tY Com- pressor Motor Pt+t Sensible To Total Ratio (SITI Total Cooling Capacity Com- pressor Motor Sensible To Total Ratio ISM Dry Bulb Total Goofing Capacity Sensible Com- To Total pressor Ratio ISM Motor Dry Bulb Dry Bulb Dry Bulb l/s I cfrri 51F180-FI85°F 4'G71°CI.29'C kW Btuh 75-F180°FI85- 4°CI27'029°C kW Btuh Warts 5°Fj80°Fi8S°F 4°C 27°C29°C kW Btuh Watts 5-F�go FI85 4°C °C;29°C o3°F15901 1250 1 I 11.31 38,400 1 274 ,741.87 .98 10.91 37,100 3090 1.751.89 99 110.51 35,7001 3490 I.76 .90 1.001110.11 34,3001 3930 1.77 .9211.00 (17 2°C) 6351 1350 1111.41 38,800 1 2740 1.75 .90 11.001111.01 37,600 I 3090 .76 1.91 11.001110.61 36,200 1 3480 1.78 1.93 1.001110.21 34,8001 3930 1.79 1.94 11.00 6851 1450 1111.51 39,300 1 2740 1.77 1.92 11.001 11.1 1 38.0001 3090 1.78 1.93 1.001110.71 36.6001 3490 1 .80 1 .95 1.001110.31 35,200 1 3930 1.81 1.96 11.00 "7°F 590 1 1250 1111.91 40,700 1 2760 1.57 1.71 1 .8a 111.51 39.300 1 3110 1.58 1.72 1.36 111.11 37.8001 3500 1.59 1 .73 1 .871110.61 36.300 1 3950 !.60 1.75 1.89 (19.4°C) 6351 13501112.01 41.000 1 2760 1.58 1.73 I .37 111.61 39.700 1 3110 1.59 1.74 1.88 1 11.21 38.2001 3510 1.60 1 .75 1 .90 110.81 36.700 1 3950 1.61 1.77 1 .92 6851 1450 1112.11 41.4001 2760 1.59 .75 1.891111.71 4.0,000 1 3110 1.60 1.76 1.90 1 11.31 38,5001 3510 1 .81 1.77 I .92 10.81 36.9001 3950 1.62 1.79 1 .94. 71°F 5901 12501112.71 43.200 1 2780 1 .43 1.56 1 .591112.31 41,800 1 3130 1.43 1.56 1.70 1111.81 40,200 1 3530 1 .431 .57 1 .71 111.31 38,7001 3980 1.4A 1 .58 1 .72 (21.7°C) 6351 13501112.81 43.600 1 2780 1 .43 1 .57 1 .71 12.31 12,100 1 3130 1.43 1.58 1.72 11 11.9i 40.6001 3530 1 .aa 1 .581 .73 1111.41 39.0001 3980 I .4a I .59 1 .75 6851 1450 1112.91 43 900 2790 .44 .58 1 .721112.51 42,500 1 3140 1,44 1.59 1 71 T2.01 40,9001 3540 1 .4a 1 .601 .75 1111.5 1 39 300 1 3980 1 AA 1.61 1 .77 = y• e,e •il�� ails uv i Wl nlUiuue w-Vuietur wn uiuwer motor neat aeoucuon. 19ArRA7 - rR90M_Ait Enter- ing Bub WetTemper- ature Total Air Volume Outdoor Air Temperature Emenng Condenser Coil 85°F (29°C) 95°F (35°C) 105°F141'C) 115°F (46°C) Cooling Total �PacrtY pressor Motor Sensible Ratio ISMSensible To Total Dry Bulb TO�1 Cooling CaPac'y kW Btuh Sensible Com- To Total pressor) Ratio ISM Motor Dry Bu)b P nau r<���a�C Total ding CaPacny Com_ pressor) Motor Sensible To Total Ratio (SlTI Dry Bulb Total Cooling CaPaeity ` kW Btuh I I Com- pressor) Motor Way Input Sensible To Total Ratio ISM Dry D Bulb Us din I kW BWh Inpu 4°C127,C129°C kW Btuh Way Input*Fj <°�127°C129°C) (Z4°CI27*F 9°C 63°F 15651 1200 111.71 40,000 1 2800 .72 .86 1 .97 111.31 38,7001 3160 1.731.87 1.99 10.91 37,2001 3560 1.75 1.89 M00 10.5 35,7001 4010 1.761.91 1.00 (172°0 635 1350112.01 40,800 1 2810 .751.89 1.001111.51 39,4001 3160 1.761.91 1.00ii1l.11 37,9001 3570 .78 1.93 11.00 10.7 36.4001 4020 1.791.94 11.00 17101 1500 1112.21 41.500 1 2810 .781.93 1.00111.81 40,1001 3170 !.791.94 11.001111.31 38,6001 3570 1 .801 .96 1 1.D0 1110.81 37,0001 4030 I.82 1.97 1.00 57°F 565 1 1200 1112.51 42.600 2820 .57 1.70 .83 1112.01 41,100 1 3180 1.57 1.71 ! .84 1111.61 39,5001 3580 1 .58 .72 .861111.11 37,9001 4040 1.59 1.74 1 .88 (19.4°C) 635 1 1350 1112.71 43200 1 2830 .58 .73 .86 12.2) 41,7001 3190 1.59 1.74 1.88 ji 11.81 40.100 3590 I .60 .751 .901 11.31 38,4001 4050 1.51 1.77 1.91 7101 1500 1112.8143,8001 2830 1.601.75 .90 1 12.4142.300 1 3190 1.60 .771.91 11 11.91 40.6001 3600 1.61 .781.93 1 11-41 38,9001 4050 1.621201.95 71°c 565 1200 1113.31 453001 2850 .43 .55 .67 12.81 43.700 3210 1.431.56 ,68 123 42.1001 3610 .431.561.70 11.8 40.400 4070 1.43 .57 .71 (21.7°C) 635 13501113.51 46.000 2960 .43 .57 1 .701113.01 44.4001 3220 1.43 1.57 1.71 1117-51 42.700 3620 1 .441.581 .731 12.01 40.9001 4080 1.aa 1.591 .7a 7101 1500 1113.71 46,600 1 2860 1 .4a I .58 1 .73 13.21 45 000 1 3220 1.a4 I .59 1 .7a 11 1).71 a3 200 3630 1 4A I .60 I 76 1119 11 41.a00 1 4080 1.45 1 .61 1 .78 -•� • �••o•�=� v•= y•w� eeua�niaa ells uu nw Ilwiuue eve Nvrawr con Mower motor neat aeouction. i 17ArRA7 - tomtit-ei Enter- ing Wet Bulb Temper-�Pa� azure Total Air Volume Outdoor Air Temperature Emenng Condenser Coil 85°F (29°C) 95°F 135'Cl I 105°F(41°C) 115°F (46°C) Total Cooling Com- pressor Motor Sensible To Total Ratio ISM Dry Bulb TO�I ding Capacity kW I Btuh Com pressor Motor tips Sensible To Total Ratio ISlf1 TOmI Coding Capacity Com- pressor Motor Sensible To Total Ratio IS/T) Dry Bulb Total Cooling Capacity Corn- pressor Motor Sensible To Total Ratio (SlTI Dry Bulb Dry Bulb Us dm kW Btuh nput 5°F180°FI85'F 4°Ci27°C 24,�7�29° kW Btuh Warts 4� 27°C29°C kW Btuh Inpuetts t n 4°C�27°C)29°C FFl�y5 63°F 4951 10501111.61 39,600 1 2740 .701.82 1 .94 111.21 38,2D01 3080 .71 1.84 .95 110.81 36.8001 3470 1.72 1.851 .97 10.31 35300 1 3910 1.73 1.97 1.98 (17 2°C) 590 1250 1112.01 40.800 2740 .73 ( .87 1 .98 111.51 39,4001 3090 1.74 1.88 1.99 1111.11 37,900 3490 1.761 .90 11.00 110.61 36.3001 3930 1.77 92 11.00 685 14501112-31 41,8001 2750 1 .77 1.91 11.001111.81 40,4001 3100 1.78 1.93 1.001111.41 38.8W 1 35W .79 1.95 11.001110.91 37,200 1 3940 1.81 1,9611.00 67°F 495 1050 1112.41 42,200 1 2760 1 55 .67 1 .791112.01 40,8001 3110 1,56 1.68 1 .80 1111.51 39,200 3500 1.56 .69 1 .821111.01 37,600 1 3940 1.57 1.70 .33 (19.4°C) 5901 1250 1112.71 43,300 2770 1 .571.71 .84 12.31 41,8001 3120 .58 1.72 1.85 1111.81 40,200 3510 .58 .731 .871 11.3 138,5001 3960 1.59 .75 .89 685 1450 1113.01 44,200 2770 1 .59 1.74 .88 1112.51 42,600 3130 .60 1.76 1.90 12.01 11.000 3520 .61 .77 .92 11.51 39,200 3970 .62 .79 .94 71°F 495 1050 13.2 45,0001 2760 .42 .53 I .65 12.7 43,500 3130 .42 .54 1.65 123 41,800 3530 1.42I.541 .66 11.81 40.1001 3980 1.43 .55 .68 (21.7°C) 901 1250 1113.51 46.2001 2800 1 .43 1.55 1 .681113.11 44.600I 3150 I.a3 I.561.69 1261 d2.'001 35Q .a3 .57I .71 112.0 1 41,1001 3990 1.43 I.581 .72 51 1450 13.8 17 000 1 2800 43 1.58 1 .721113.31 4S,4001 3150 ! .1a 1,58 1.73 1112.81 43,600 1 3550 1 .0 1 .59 1 .75 1112.31 41.800 4000 1 44 .60 1 .76 11 -- - •-•• -., •.,.,.+ •-•.. y....,.. ..•••_� o••V uv ••v• �•�•.•VVc cveuui eiV• �u.i ul u, ma[Vr neat ueuuction. 12ACB / Page 24 ► C k-, RA77NGS NINE! NOTE -For Temperatures and Capacities not shown in taoles, see bulletin -Cooling Unit Rating Table Correction Factor Oara in Miscellaneous Engineennq Data section. 17ArS2A0 rn~ ee Outdoor Av Temperature Entering Condenser Coil Enter` ing Total 85°F 129°C) 95°F (351C) 1051F(41°C) 115°F (WC) Total Com- TSenslbl; Total ling Corn. �^ ° Ta Total Total Com- Sensible To Total Total Com Sertsi6ls I To Total Bwet ub Air Volume emper- Capacity Pressor W� Ratio ISlT1 Dry Bulb j p ` y Pressor Ratio ISlT) Motor Dry Bulb 1 Cooling CaPa�N pressor Ratio IS/T1 Dry Bulb Cooling Capacity press". Motor Rand IS/T) Dry ature Us corn kW Btuh Input 5°FI80'F185'F{ 24°C27°Ct29'C! I- kW I Btuh Warts�j input IZ4°QZ7°Q29 Cf kW I B� Wets Ind �4°C127°CS29°C) kW I Btuh VY Input �4°CiD Bulb ' °CF 63°F 6601 1401 15.2151,7001 3030 1.731.861.98I14.6149,9001 3420 1.741.881.99114.0147,9001 3850 .75I.9011.00113.a145.8W1 4350 1.77I-9211.00 (17.2°C) 755 1600 115.5 52,9001 3040 1 .76 1 .90 11.001 14.91 51.000 3420 1 .77 1.92 11.00) 14.41 49.0001 3860 .78 1.94 11.001 13.7 46,900 a3W I .80 1.96 11.00 8501 1800115.3 54,000 1 3050 1 .79 1.94 1.()0111 15.21 52.0001 3430 1.30 1.96 11.001 14.71 50,DW 3870 .821 .97 11.001114.01 47,9001 1370 1.84 1.99 11.001 67°F 66014 00 116. T 55.100 13060 1 .57 I .70 .83 115.61 53.100 3&% 1 .57 .71 1 35 11,1.91 50.900 3880 .58 .72 36 I 1 a.3I 48,700 4390 1.59 .74 ► (19.4°C) 7551 1600 16.41 56,100 3070 .59 .73 1 .87 15.91 54,1001 3460 1.59 1.74 1.89 115.2 51,8W 3900 .60 1 .76 1 .91 114.5 49.6001 a400 .61 .88 .78 1.931 8501 1800 16.7 57,000 1 3080 1.601.76 1 .911 16.11 54.8001 3470 1.611.78 1.931 15.4 52.600 3900 .62 .791 .951 14.71 50.300 4410 .63 660 1400117.2158.700 3100 1.4.3 1.55 1.68 16.61 56.700 3490 1.431.56 .69115.9 54.400 3930 1.43 1.57 1.70111521 5 000 aa3D .43 .81 .97 .57 L71°F (21,7°C) 755 1600 17.51 59,800 3110 .43 .57 .711 16.91 57.600 3500 .431.581.72 16.2 55.300 3940 1 .441 591 .74I 1551 52.900 4440 .44 .71 .60I 850 1800 117 8 80,600 3120 1 AA 1.59 1 .74 17.1 58,4001 3510 I .4d I an 116.4 56.000 1 3950 1 51 I 115.7 115001 4d50 1 .75 79 NC)TF - All val.ie° a, «. ,.,,. .75 .a5 .77 .a5 .62 u emperanue rrtermg Condenser Coil Enter- ing Total 85°F (29°C) 1195°F 135°C) I 105°F(41°C) I 1151F (46°CI Total Cooling Com_ To Total Totable l Cooling ��tal Sensible Total Sensible To Total Total ��Ta Sensible Total Wet Bulb Volume emper Capacity Pressor Ratio ISi f1 c pressor Motor Cooling �� Pressor Ratio ISM Cooling CaPacrtY Pressor Ratio (SM ature WadDry Bulb Wad MotorDry Bulb Motor Dry Bulb 4,��"F�I kW Btuh Us drn kW Bich Input Input 24kW Btuh npvt 41Cl2 °FI kW Btuh w 41F sa° BS'F 63°F 660 1a00 1a.6 49,700 3010 1.73 371.981 14.0 47,900 1 3390 1.75 .39 1.99113.5 46.100 3830 .76 .91 1.00113.0 44,200 4330 1.77 .92 1.00 (17.2°C) 755 1600114.9 50,800 3020 .77 .91 1.00 14.4 49,000 3400 1.78 .93 1.001 13.8 47,100 3840 .79 .95 1.001 13.2 a5,200 43a0 1.81 96 1.00 850 1800 15.2 51,800 3030 1 .80 .95 11.00114.71 50.0001 3410 1.81 .96 11.00114.1 48.100 1 3850 1.831.9811,00113.5 46.2001 4350 1.85 11.00 67°F 660 1a00 15.4152,700 3030 .571.71 1.8411491 50.8001 3420 1.58 .72 .86I 14.3 48.800 -60 I.591.73 .99 (19.4°C) 755 1 16001 15.71 53.600 3040 I.59 .7a .88I 15.21 51.700 3430 I.50 .761.901 14.6 49.700I 3870 .61 1.771 .87 .92C13.9 47,5001 4370 1.62 .79I.94 850 1800 15.9154,a00 3050 .611.78 .92 15.41 52,4001 3440 1.621.791.94114.7 50,3001 3880 71°F 16601 14001 16.a1 56,1001 3070 1 .431.56 1 .681 15.91 54,1001 34M 1.43 1.561.70 115.21 52.0001 3900 1 .431 371 .961-1 .711 1a.61 a9,800 I "Do 1.441.581 121.7°Cy 755 1 7600116.7 57.000 13080 I .a3 1 .58 I .72 1 16.1 55.000 1 3470 1 .sa .58 I .73 115.51 52.800 1 3910 I .4d 159 1 .75 11a.81 50.6001 a410 .44 .61 .73 .76 850 1800 16.9 57.800 3090 a4 60 .75 16.3 55 700 3d70 I .a4 I 7 1115.7 53 5001 3920 1 781 15.0 51 200 1 a420 1 1 1.80 NOTF - All valuu< aro n. -..,.,e....... - __.._ .61 . .45 .321 .45 63 1 •f A t%0 A O nunn r 5eNs I? I fr : 35,IYS Ooor Air Temperature utdtu95°F Entering Condenser Coil Enter -Total 85°F (29°C) I (351C) IT 105'F(41°C) 1151F (46°C) Coo nlg Sensible Total Cooling Sensible I TO Total ! Total Coop Sensible Com- To l Com- Sensible To Total eAir Bub Volume Temper- Cape MotorDry Pressor�,4,*C Ratio Slot%T) �� pressor� Ratio IS/T) Motor Dry Bulb I � ry P essor` Ratio ICom- S/T1 Motor �1 Capac y Pressor Rio ISM Bulb I.J. I cfm Dry Bulb a kW Btuh watts n I kW Btuh DIry B�qujlb n Watts Input jj kW 8tuh nPu�t I24' IZ7°CtEl-CI 24°CI27°C129°CII kW Btuh I 4'Fl 63°F 6601 1400 1a.91 51,000 13020 1 .731.87 1-981 14.41 49,2001 3400 1.711.891.99 113,91 a7,3001 3840 1 .761 .9011.001113.31 4.5.3001 4340 1.77 1.92 11.00 (171°C1 755 16001115.31 18501 52.200 3030 1.761.9111.00114,7 50.300 3a20 1.78 .93 11.00111.21 48.a00 3860 1.791.9411.001113.61 46.3001 4360 1.81 .9611.00 1800 1115.61 53.200 3040 1.791.9511.00115.1151.4001 3430 131 1.96 11-001114.51 19,701 3870 1.93I.9811.00113.91 47.4001 1370 1.84 1.9911.00 67°F 6601 14001 15.9154,200 3050 1.57 .71 1.941115.31 522001 34a0 1.58 .72 1.851 14.71 50,1001 3880 I59I.731.871 1a.11 4.8.0001 4370 1.591.75 (19.4°Cy 755 16001l6.2 f 55.200 3060 1 .591.74 1.381 15.6 512001 3440 I.50 .75 1.90 1114.91 51.D001 3890 1.611 .771.92I 11.31 48.8001 .39 4390 1.621.78 8501 1800 1116.41 6,100 3070 .611.771.92 15-81 54,0001 34W 1.62 1.79 1.94 1 15.2 51,800 3900 .631 .80 1.951 14.5119,500 .93 4a00 1.641.821.97 71°F 6601 14JO0 1116.91 57,800 3080 .43 1.55 1.681 16.31 55,700 3470 1.431.561.691 15.71 53.500 3920 1 .43 1 .571.71 1115.01 51,2001 4420 .43 1.58I.72 (21.7°C1 7551 1600117.2 58.700 3100 I .a3 .57 .72I 16.61 56,7001 3490 1.44 .581.73 1115.91 54.4001 3930 I .44 1 .591.74 15.21 52,0001 44M 1.44 850 1800 17.1 59,500 3110 .a4 60 .75 16.8 57,400 3500 1 1 16.1 55 100 3940 1 78 115.41 52 700 .60I .76 NOTE - All values are r, rn« - ,a .4A .50 .76 .45 .37 44a0 51. 80 17Af`4A0 f�o�fnww �� Outdoor Air Tempernure Emenng Condenser Coil Eater- ing Total Air 851F 129°C) 951F (35'Cl 105'F (41°C) 115°F (4WC) Total Cooling Com. Sensible To Total Torel Cooling Com Se�bn Total _ Sensible TO Sensible TO Total wet Bulb Volume CapacityMotor Pressor Ratio ISlT1 � Pressor RatiT. o IS/T7 Cooing �Pec+ty pressor Motor Ratio ISM Dry Bulb CTr Capacity pressor Ratio ISlTI Dry Bulb Moor Dry Bulb Dry Bulb aturo Watts, Moto Z ' 8W 85' kW Btuh Watts Input F I 8r'F1 Us aim kW Btuh Input kW Btuh nputt Input F Bo° 4°Ci27°CQ9°CI 4°Ctts kW Btuh 4 63°F a95 1050 12.81 a3,600 3010 1 .68 1 .80 1.91 1112.31 42,100 3400 1.69 1.81 .92 1111-91 40,500 3840 1 .70 .33 .94 1 11.41 38,8W 1 4350 1,71 1.94 1.96 (17.2°C) 590 1250 113.21 05.100 1 3020 .71 .84 1.961112.71 43.500 3410 1.72 1.861.97112.3 al,8DO 3860 1.73 1.871 .99111,8 40,1001 4370 139' 1.00 685 11450 13.61 46,300 3030 .74 1.88 1.99111111 44.700 3420 1,75 .90 1.00112.E 47_900 3860 .77 1.92 11.00112.01 41,100 1 4370 .75 1.93 1.00 67°F 495 1050 13.71 46.700 3040 .55 1.66 1.771113.21 45,000 3430 1.55. .6 1.78112.7 43,300 3970 .55 .67 .791 12.2 a1,5o01 4380 .78 (19.4°C) 590 1250114.11 48.100 3050 .56 .69 1 81) 13,61 46,400 3440 1.57 .70 F82 1 13.1 44.600 3880 .57 .71 .841 12.51 42.700 4390 .56 .68 .81 1.36 685 1450114.41 49.200 3060 1 .58 .72 1.351113.91 47,400 3460 1.58 .73 j.s7 1 132 45,500 3890 .59 .74 1 .881 12.81 43.600 44D0 .58 .72 71°F 495 1050114.E 49,900 3070 .42 .52 .63114.1 48,200 3460 .42 .53 .64I 13.E a6.400 3900 .42 .53 .65113.01 44,500 4410 .60 .76 .90 (21.7°C) 590 1250 15.0 51,300 3090 d. .54 .66 14.5 49,600 3470 .43 .55 1.157 1114.01 17.7001 3920 1 .43 .55 .68 1 13.41 45,700 4420 .42 .54 .66 685 11150 flli.-di 52400 3100 43 1.56 .69 14.8 50600 3490 I .43 1a.2 ag 600 3930 43 58 J2 !I13.51 46500 .43 1 .56 .69 NOTe - All values are nrnss ran ,tvne - A .57 .70 444Q .dd 59 .73 12AC3 I Page 29 ► NOTE- For Temperatures and Capacities nor shown in tables, see bulletin -Cooling Unit Rating Table Correaron Factor Data in Miscellaneous Engineering Data section. 12ACB60 - CR26-65(N)1W) Outdoor Air Temperature Entering Condenser Coil Enter- Total 85°F (29°CI II 95°F (35°CI I 105°F141°C) 11 115°F 146°C) Total Cooling Capacity Total Sensible C.M. Com- To Total pressor) Cooling pressor) Ratio ISM I Capacity �BuLb Total Cooling Sensible Total Com- To Total purl Ratio IS/11 Cooling �� Sensible Com- To Total pressor. Ratio ISM ing Wet Bulb Air Volume Temper- Motor Motor I� Dry Bulb Motor Dry Bulb I Motor Dry Bulb ature Lis I kW Btuh Watts Watts �, Input kW I Btuh I^Put kW I Btuh Watts { Input �4°Ct27°C29'C1I kW Btuh Watts I Input �4°Cl27°Ci29°C cfrn °C`S1,C129,CII 24°d27°Cl754980 I 18501 1800 1116.71 57,0001 3870 1 .74 1 .88 1 .99 1116.11 55,1001 4360 1.75 1.39 11.001 15.51 53.0W 1 1930 1.76 1.91 11.00111421 50.8001 5550 1.78 1.93 11.00 63°F (17.2-C)i 9451 20001117.01 57,9W 1 3880 1 .761.91 11.001 16.a1 56,0001 4370 1.78 1.93 11.00 115.8 53,9001 4940 1 .79 1.9411.001115.21 5 .7001 5560 1.81 1.96 11.00 110401 2200 1117.21 58.800 1 3890 1 .79 1 .94 11.001116.61 56,800 1 4380 1.80 1.95 11.001 16.11 54,8W 1 4940 1 .82 1.97 11.001115.41 52,6001 5570 1.83 1.99 11.00 18501 18001117.71 60.4001 3900 1.581.71 1.851117.11 58,3001 4400 1.58 1.73 1.86 1116.41 56.1001 4960 1.591.741.381115.81 53.8001 5590 1.601.75 1.90 67°c (19.4°C) 1 9451 20M 1117.91 619200 1 3910 1 .59 1 .7d 1 .88 II 17.31 59.1001 4410 1.60 1.75 1.90 116.71 56.900 1 4970 I .61 1 .77 1 .91 1116.01 54,5001 5590 1 .61 1.78 1.93 10401 2200 1118.11 61,9001 3920 1 .60 1.777 1.91 1117.51 59.8001 4410 1.61 1.78 1.93 1116.91 57.5001 4970 ! .62 1 .79 1 .951116.11 55.100 1 5600 1.63 1 .81 1.96 1 8501 18001118.81 64.300 1 3940 ! .431.56 1.691118.21 62.100 1 4430 1 .13 1.57 1.70 1117.51 59.8001 6000 1 .43 1.57 1 .71 1116.81 57.3001 5620 1.44 1.58 1.73 71°F (21.7'C) 945 1 20001119.11 65,1001 3950 1 .43 1 .57 1 .72 1118.41 62.900 1 4440 44 1 .58 1 .73 17.71 60,500 5000 1 4A 1 .59 1 .71 1117.01 58.000 1 5630 1 .a4 .60 .76 10401 2200 1119.31 65,800 1 3950 44 1.59 1 .74 it 18.61 63,500 1 4450 1 44 1.60 1 76 1117.91 61 1001 5010 l 45 1 .61 f .-7 1117 11 58,500 1 5640 1 45 1.62 !.79 r NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction. 12ACB60 - CH23-65 Enter' ing wB2 Bulb Temper- ature Total Air Volume oor Zir empe r menng Condenser Coil 851F (29°C) II 95°F (35°C) 105°F141°C) 115°F (461C) Total Cooling Capacity Com- pressor Motor Sensible I To Total Ratio IS/T) Dry Bulb Total Cooling Capacity I kW Btuh Sensible Com- I To Total pressor Ratio IS/Tl Motor Dry Bulb Watu 5'FI80°R85'F In LIT 124°CI27°CI29°C Total Cooling Capacity Sensible Com- To Total pressarl Ratio IS/Tl Motor Dry Bulb Total Cooling Capacity kW I Btuh Com- pressor Motor Ins Put Sensible To Total Ratio fS/Tl Dry Bulb L/s cfrn kW I Btuh Watts IrrWrt 5'FI80°F F 4-CW°C 91CII kW Btuh]1nPut Watts 5'F180°FI85'F 4'CI27°Ct9'C 5°F 80°F{85°F 4°C�27°Ct9°C 18501 1800 1116.61 6,7001 3860 1 .75 1 .89 1 .99 1116.1 1 54,800 1 460 1.76 1.90 11.00111551 52.8W 1 4920 1 .77 1.92 11.001114.91 50.700 1 5540 1.78 1.94 11.00 63°F (17.2*C)i 9451 2000 1116.91 57,700 1 3870 1 .T71.92 11.0011 16.41 55,8001 4360 1.78 1.93 11.130 11 15.81 53.8W 1 4930 1 .80 1 .95 11.00 15.1 1 51,6001 5550 1.81 1.97 11.00 110401 2200 1117.21 58.600 1 38M 1.801.9611.001116.61 56.7001 4.370 1.81 1.9611.00116.0154,6001 4930 1.831.9811.00115.41 52,5001 5560 1.84 1.9911.00 8501 18001117.61 60.0001 3890 1.581.721.861117.01 58,0001 4390 1.59 1.73 1.87 1116,31 55.7001 4950 1.591.751.891115.71 53.5001 5570 1.60 1.76 1.91 67°c (19.4°C) 9451 2000117.81 60,800 1 39M ! .601.75 1 .39 1117.21 58,700 1 4400 160 1.76 1.91 1 16.61 56,5001 4960 1 .61 1.78 1 .92 110401 22001118.01 61.500 1 3900 i .61 1.78 1 .92 1117.41 59,400 1 4400 1.62 139 1.94 1 16.71 57,100 1 4960 I .63 1.30 1 .9 1116.1I 54,8001 5590 1.64 1.82 1 .97 18501 18001118.71 63.700 1 3930 1 .43 1.56 1 .70 1118.11 61,600 1 4420 1 .43 1.57 1.71 1117.41 59,3001 4980 1 .431 ,58 I .7 71°F (21.7*C)i 9451 2000 1118.91 64.500 1 3940 1 .44 1.58 1 .73 1118.31 62,400 1 4430 I .dd 1.59 1.74 17-61 60,000 1 4990 i .441 .60 1 .75 1116.91 57.6001 5620 1.45 1.61 1.77 10d0I 2200 1119.11 65,200 1 3940 1 .44 1 50 1 .75 II 18.51 63,000 1 1d40 I .dd 1.61 1.77 1117.81 60,6001 50()0 i . 45 1.62 1 .78 1117.01 58,1001 5620 1 .45 1 .63 I .80 NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction. Se ' ; 12ACB60 - CB29M-51 / 'J Enter- j ing Wet Bulb Temper- ature Total Air Volume Outdoor Air Temperature Entering Condenser Coil 85°F 129°CI I 95°F (351C) I 105'F 141'G 11 115-F (46°C) Sensible Total I Com- I To Total I Cooling pressor) patio lS/Tl Capacity Motor Dry Bulb I Total Cooling Capacity kW Btuh Sensible Com- To Tatal pressor Ratio ISM Motor Dry Bulb npuutt 75'FI80°FI85°FF1I 124°CI27°C129°CI Sensible Total Com- I To Total ding pressor) Ratio ISM Capacity Motor Dry Bulb kW Btuh In 1I5'FI80°F85°F I I p4`C127°9°CII TO�I Com- Cooling pressor �� Motor kW Btuh Input Sensible To Total Ratio ISM Dry Bulb L/s cfrrt kW Btuh I Watts nput 1I5'F180°F185°F jZ4°C27°C129'CII 5°FI80°Fj85°F 4°C127°Cl29°C 8251 1750 1116.61565001 3890 1.741.881.99 1116.01 54.7001 43390 1.75 1.90 11.001115.41 52.7001 1960 1.771.9111.00114.8150,5001 5600 1.78 1.93 11.00 63°F (17.2°C) 8501 18001116.61 56,700 1 38W 1 .75 1.89 1 .99 16.11 54,900 1 4390 1 .76 1.91 11.001 15.51 52.9001 4960 ( .77 1 .92 11.001 14.91 50,8001 5600 1.79 1.94 11.00 1875118501116.71 57,000 1 38W 1.75 .9011.00116.11 55.1001 1400 1.771.91 11.00115.61 53,1001 4970 1 .78 1.93 11.001 1 14.91 51,0001 5600 1.801.9511.00 825 1 1750 1117.61 59,900 1 3920 1 .58 1 .72 1 .85 1117.01 57,900 1 4.420 1.58 1.73 1.87 116.41 55,800 1 4990 1 .59 1.741 1 .88 1115.71 53.5001 5630 1.60 1 .76 1 .90 67'F (19.410550 1 1800 1117.61 60,100 1 3920 1 .581.72 1 .86 1117.01 58,100 1 1430 1.59 1 .74 1.88 116.41 56.0001 5000 1 .60 1 .75 1 .89 1115.71 53.700 1 5630 1.60 1.75 1 .91 8751 18501117.71 60.300 3920 1 .591.73 1 .87 117.11 58.3001 4430 1.59 1.74 1 .88 16.5 562001 5(= 1 .601 .76I .90 1115.81 53.8001 5630 1,61 1.77 1 .92 71°F 82511750 118.7163,8001 39W 1.431.561.69I 18.1161,7001 4d60 1.431.571.70I17.4159.4001 5030 1.431.581.72 1116.71 57.0001 5660 1.44 1.59 1 .73 (21.7°0 8501 1800 1118.81 64.000 1 39W 1 .431.57 1 .70 1118.11 61.9001 "W 1.43 1 .57 171 17.51 59,6001 5030 1 .d4 1 .58 1 .73 1116.81 57,2001 5670 1.- 1.59 1 .74 18751 1850 1118.81 64,200 1 3960 1 .43 1.57 1 .71 118.21 62,100 1 dd60 i 43 1.58 1.72 1117.51 59,8001 5030 1 441 .59 1 73 1116.81 57,4001 5670 1.44 1.59 1 .75 NOTE - All values are gross capacities and do not include evaporator coil blower motor heat oeoucuon. 12ACB60 - CB29M-65 Enter' ing Wet Bulb emper- ature Total Air Volume I Outdoor Air Temperature Entering Condenser Coil 85'F 129°Cl il951F (35°C) I 105'F141°C) I 115°F (46'CI TO�I Cooling Capacity Com- I pressorj Motor Sensible To Total patio ISM Dry Bulb Total Cooling �Pacrty kW Stuh Com- pressor Motor Input Sensible To Total Ratio ISM TO�1 Cooling CaPa<rtY Sensible �^* I To Total press o► Ratio ISlTI Motor Dry Bulb Total Cooling Capacity kW Stuh I Corn- Pres�r Motor Input Sensible ( To Total Ratio !S/Tl Dry Bulb Dry Bulb Lis I cfrrt kW Btuh r>put 5'F180°FIBS'F 4°C77�l29"C 5°F180°F185' 4°CI27°C! kW Btuh npuut 'FI80°F185°F 4°CI27°Ci29 C 5°Fff80°q85°F 4°C127°C129°C 75511600 1116.3155.500 1 3870 I.72I.B6I.97I 15.71 53.700I 4370 I.73 1.87I.98 115.2151,700I 4940 1.75 1.891.99 1114-51 49.6001 5570 1.76 1.9111.00 63°F (17 2°C1 8501 1800 1115.61 56.500 1 3880 1 .75 1.89 1 .99 li 16.01 54,700 1 4380 1.76 1.91 1.001115.41 522001 4950 1 .77 1.92 11.00 114.81 50.600 5580 1.79 1 .94 11.00 19451 20001116.91 575W 1 3890 1 .77 1.92 11.001 16.31 55,6001 4390 1.79 1.94 11.001 15.71 53.6001 4960 1 .80 1.95 11.001115.11 51,500 5590 .82 1.97 11.0o 7551 1600 1117.31 58,900 1 39M 1.57 1.70 1 -83 1116.71 57,000 1 d400 .57 1.71 1.84 1116.11 54.9001 4970 1 .58 .72 1 .86 115.41 52.7001 5600 1.59 1.73 .87 671F 119.4°Cl 8501 1800 i I 17.61 59.9001 3910 1.58 1.72 .86 117.01 57,9001 4d10 1.59 1.74 1.88 116.41 55.8001 4980 1 .60 1 .75 1 .89 1 15.61 53.4001 5610 .60 1.76 I .91 9451 2000 1117.81 60.7001 3920 1 -60 1 -75 1 .89 117.21 58,600 1 4420 1.60 1.76 1.91 16.E 56500 1 49M 1 .61 1.78 1 .92 1115.91 54,1001 5620 1.62 1.79 1 .94 7551 1600 1118.41 62,8W 1 3940 1 .43 1.55 1 .67 1117.81 60,700 1 4"0 1.43 1.56 1.68 1117.11 58.500 1 5010 1 .431.56 1 .70 1116.51 56,2001 5640 1.43 1.57 .71 71°F (21.7*C)l 850 1 1800 1118.71 63.700 1 39M 1 .43 1.57 1 .701118.11 61,7001 4450 I .43 1.57 1.71 1117.41 59,4001 5020 1 ." 1 .581 .73 116.71 57.0001 5650 JA4 1.59 1 .74 1 945 l 2000 1118.91 64,500 1 39M 1 44 1.58 1 73 J1 18.31 62,400 1 4d60 ! .d1 I .59 I 1- 11t7. 1 6- 100 1 5020 1 .44 1 .60 1 75 1116.91 57.6001 5660 1 45 1 -51 1 .71 NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction. 12ACB / Page 34 ► ► C'TT SUPER EAGLE - RESIDENTIAL GAS WATER HEATER Available in 40, 50, 75 and 100 Gallon Gas Models. 77 Ultra High Performance, High Efficiency _ and High Recovery • 5-Year Limited Warranty' on Tank • 5-Year Limited Warranty' on Parts 2" of Polyurethane Foam - Non-CFC Fused Ceramic Shield TankT" Unique Flue Baffle Design Set and Forget Thermostat Additional Side Openings for Combo- _ Space Heating 10 Factory -Installed Side Temperature and Pressure Relief Valve'"„ ' Aluminized Steel Multi -Port Lo-NOX Burne for Natural Gas - Cast Iron for Propane PROLineT" Super Eagie° S-Year` Gas G52 75T75-4NV Dimensions in all cnans snows in mcnes. A B C H [ G524T60-ANV 40 / 50.000 60.000 50.7 60.7 7 53 20 59112 12112 53114 1'* 1 ---: -- o. ). _ G52-75 75-WJ 75 J 74.500 71.450 75.0 73.0 X.5% 5312 26 50 12 1,2 53114 258 Above models are natural gas. To order propane models. cttange'u- sui ix to -P' sudix. -Limited warranty on tank and parts. Complete cetails in manual. G52-50T63-4NV G52-100T88-4NV S Gabs r,tmee ar. 'r .�n C~ "`NT IOU Gabs MMMd iO J l:d w -':r 4PT PAGE 162 SECTION 1 GAS WATER HEATERS APRIL 1996 Rated Rated Ist Hr Storage Rory 1st Hr Storage Rcvy Model (Foot Rating, Energy Volume. snout Efty. Model (Foot Rating. Energy Volume. Input Effc . Number Note) Gals Factor Gels MBTUH X I Number Note) Gals Factor Gels MBTUH % AMERICAN WATER HEATER GROUP (COMM) / G52-40T34-3N (1,Z)s 53 .52 to 34.0 77 G32-40T34-314 (1,Z)s 53 .52 40 34.0 17 441440TISNA (A.Z) 53 .51 40 34.0 77 RM1440TISN9 (A,Z) 53 A2 40 34.0 77 RII440T10SNA (A.Z) 53 Az 4o 14.0 77 RI[440T1OSN9 (A,Z) 53 .52 40 34.0 77 RM1440T35N8 (A,21 53 Az 40 34.0 77 P111440TSSNS (A.Z] i3 Az to. 34.0 77 G101-403a0-311 (Z)s i9 .56 40 40.0 7S G101-40T40-IN (Z)s 59 .56 40 10.0 79 GII-40340-JN (21 i9 .56 40 40.0 76 G11-4OTa0-3N (Z) 59 .56 40 40.0 T9 G5I-40540-3N (Z1 59 .55 40 40.0 T5 G51-40T40-3N (Z1 i9 .56 40 10.0 T9 G31-40340-3N (Zls i9 .56 t0 40.0 75 G81-40T40-3N Ms 69 .56 40 40.0 79 G102-40540-311 (2)s 59 .57 40 40.0 78 GI2-40S40-3N (Z)s 59 .5T 40 40.0 T6 G52-40Sa0-3N (ZIs 59 .57 40 40.0 75 GIZ-4OS40-IN (Z1s 69 .57 40 40.0 16 RWI40355SNS (A,Z) 59 .59 40 40.0 76 G102-t0Ta0-JN (2)s 53 .50 40 40.0 79 GiZ-40T40-M (Z) 59 .60 40 40.0 79 GSZ-4OT40-IN (21 59 .50 40 40.0 79 G31-40T40-3N (2) 59 .50 40 40.0 T9 PHCC40 (A) 63 .51 4O 34.0 19 OYG102-5OTAZ-3N (O.Z19 70 .57 SO 4Z.0 T5 OYG12-5OT4Z-3N (O,2): 70 .57 50 12.0 TS OVG5Z-5OT4Z-3N (0,Z)t 70 .57 SO 41.0 76 OYG82-5OT4Z-IN (O,Z)= 70 .57 SO 42.0 76 G101-40T45-4N (Z): 14 56 40 46.0 71 Gtt-40T45-411 (Z) 74 .56 40 16.0 78 G5I-40T46-4N (Z) 74 .Sfi 40 .16.0 78 G31-4OTa6-4N (2)4 74 .S6 40 15.0 78 G102-40T46-0 (Z)s 74 .58 40 16.0 78 G1Z-40T46-IN (2)9 74 .58 40 46.0 71 G52-40T46-AN (Z)s 74 .39 to 46.0 73 G32-40T45-4N (Z)s 74 .58 40 16.0 71 PYGIOZ-40TSO-JN (C.219 74 .50 40 50.0 76 PYG1Z-40TSO-JN 1C.21= T4 .50 40 50.0 76 9VG52-4OT5O-3N (C.2): 74 .50 40 d.0 T6 PVGAZ-40TSO-IN (C,Z1: 74 .50 40 50.0 76 RM150315N8 (A.Z) T6 .57 50 33.3 76 R1615031O5N1 (A,Z) 76 .5T SO 38.0 T6 R111150755N8 (A,Z) 76 .57 SO 38.0 75 RIIASOSiSN9 (A,Z) 75 AO 50 39.0 76 46145051OSN9 (A.2) 75 .50 5o 23.0 75 RY145055SN9 (A.Z) 75 .50 5o 38.0 76 G101-SOTAO-IN (2)s 79 .54 50 40.0 75 G11-50T40-IN (Z) 73 .54 50 40.0 76 GSI-SOTAO-3N (2) 79 .34 SO a0.0 75 GAI-5OT40-3N (Z)s 79 .54 50 40.0 TS G101-5OT78-JN (Z) 79 .55 50 33.0 78 Gil-SOT39-IN (2) 79 .55 SO 39.0 71 G51-50T18-3N (2) 79 .55 50 38.0 73 G31-SOT38-3N (2) 79 .55 50 13.0 TB G102-SOT40-3N (Z)s 79 .57 50 40.0 76 G12-50TAO-IN (Z)s 79 .57 SO to.0 ?6 02-50T40-1N (2)s 79 .57 5o 40.0 55 G32-50T40-IN (Z)s 79 .57 50 40.0 75 G102-SOT38-3N (A.1,2) 79 .50 SO 11.0 78 G12-50T18-3N (A,1,Z1 19 .50 50 38.0 78 G52-SOT33-3N (A,I,Z) 73 .50 50 11.0 78 • G32-5OT38-3N (A.1,2) T9 .SO 50 38.0 78 PHCCSO (A) T9 .60 50 33.0 76 G52-40T60-4N (2) 35 .54 40 SO.O 76 G10Z-40TSO-4N (Z)s 36 .57 40 50.0 75 G12-40T60-IN (2) 35 .57 40 50.0 T6 G32-40T5O-4N (Z)s 16 .57 40 io.3 75 G101-SOTSO-4N (ZI 37 AA 50 50.0 76 G1t-50T50-4N (Z) 87 .34 50 50.0 76 G51-50TSO-AN (Z) 37 .54 SO 50.0 75 G31-SOTSO-4N (Z)s 17 .5A 50 50.0 75 RUI50455SNO (A,Z1 37 .54 50 50.3 76 G102-50TSO-IN (Z).: 37 .57 50 50.0 T6 G12-50TS0-4N (Z1s 3T .57 50 50.3 76 • G52-50TSO-AN (Z)s 3T .57 50 50.0 76 • G32-50TSO-4N (Z)s 37 .57 50 50.0 15 PVG102-50T53-3N (C.2)9 95 .51 50 53•i 75 PVG12-50T53-1N (C.2)s 35 .51 50 53.5 75 PVG52-5OT63-IN (C,Z)s 35 .61 50 i3A 75 PVG82-'.OT53-IN (C.Z)s 35 .51 SO 53.5 'S GIOZ-SOT63-0 (Z) 36 .55 SO 53.0 76 AMERICAN WATER HEATER GROUP (CONT131 G1Z-iOT53-0 (Z1= 36 .55 50 G5Z-50T53-IN (Z): 36 .55 0 G32-SOT53-IN (21s 36 .55 SO G102 T5T7S-tN (2)s tZ0 .51 7S i3.0 53.0 53.0 7:.5 75 75 75 76 G5Z-TST75-4N (Z)s 120 .51 75 T4.S 75 a PYG102-75T75-3N (C.ZIS 1ZO .51 7S s.5 00 16 PYG12-7ST75-3N (C.Z1s 7ZO .51 75 T4.5 75 PYG5Z-75T75-3N (C.Z)s 1ZO .51 TS 74.5 76 PYGBZ-T3T75-3N (C,215 1ZO .51 TS TA.5 75 �QOPANE • AS G101-19TZ8-3P (Z) 42 .58 19 Z5.0 77 G11-19TZ8-3P (Z1 42 .59 19 Z5.0 77 G51-19T28-3P (ZI 42 .59 19 Z5.0 77 G31-19TZS-39 (2) 42 .58 19 Z6.0 77 YNS=11-30TIC-3P 13.2) 49 .57 3C 10.0 75 wN5C651-]aTic -IP (9.Z1 49 AT 30 30.0 TS G101.30530-3P (Z): 50 .59 1O Z7.0 T6 G11-1CS30-37 (Z) 5O .56 10 Z7.0 75 .51-30530-3P (2) SO .58 IO Z7A 76 G31-30S30-3P (Z): SO .53 30 Z7.0 75 G102-30S30-3P (Z) 50 .50 10 Z7.0 17 G1Z-30510-7D (Z) 5o .50 30 ZT.O 77 GSZ-30510-37 (2) SO .50 10 Z7.0 77 Ga2-30530-3P (Z) 50 .50 30 Z7.0 77 WHG11-30T31-3P i3,Z) S3 .55 30 31.0 75 )4HG51-JOT71-3P i3,Z) 53 .55 10 21.0 75 G101-29535-3P (Zl: 53 .58 Z9 35.0 77 G11-'-9S35-3P (Z1 53 .51 Z9 15.0 75 G5I-Z9535-3P !Z) 53 .59 1.9 I5.0 75 G31-Z9S35-39 (Z!+" i3 .51 29 35.0 77 G102 Z9S75-3P (Z)s 53 .50 Z9 35.0 77 1111-Z9335-3➢ IZ!s 53 .50 is 35.0 77 G52-!9S35-37 (Z) S3 .50 Z9 15.0 77 GiSZ-ISS35-29 IZ1: 53 .50 Z9 35.0 i, h94SCG1t-40T70-39 (8.21 54 Sfi 40 10.0 75 14HSCG51-40T10-39 (3,21 i4 .56 40 30.0 75 G101-10T73-1P (Z.: 54 S8 10, 33.0 76 911-30T13-3P 1Z1 54 .58 10 33.0 75 G51-30T13-3P (Z) 54 Sfl 10 33.3 TS G31-30T33-3P 1Z!s 54 .-A 30 13.3 75 AM17071CX8 121 S4 .Sfi 10 13.0 75 AM130T10CX6 (ZI 54 -& /0 17.0 'S RI13OT5CX8 (Z) 54 .58 IO 33.0 75 GIOZ-I0T33-39 (Z) 54 Al IO 13.0 75 1112-30T33-3P (Z1s 54 .51 30 33.0 75 GS2-30T33-3P (Zl S4 .51 10 33.0 i5 G82-30T33-3D (Z)s 54 .51 M 33.0 76 AM(430TICX8 (21 54 .52 30 33.0 TS AM(430TIOCXI (Z1 54 .52 10 33.3 7S AMI430TSCXa (Z1 SA Az IO 31.0 75 WIG11-IOT31-3P (3.Z) 50 .33 40 11.J 75 NNG51-tOT31.3P (3.Z1 50 .55 t0 31.3 75 G101-Z9T40-3P (Z)s 5o .53 29 40.0 75 Gil-19TaC-3D (Z1s i0 .51 Z9 _0.0 75 G51-13T40-3P (Z1s 50 .58 Z9 10.0 75 G31 Z9Ta0-3P (Z)s 50 .59 29 -10.0 T5 1YG102-40538-19 (O.Z1s i0 .59 40 36.0 75 1YG1Z-4OS33-3P 1O,Z)s i0 .59 40 15.0 75 0YG52-40538-3P (0,Z)s 50 .59 t0 15.0 75 1YG3Z-40378-JP 1O.Z14 50 i9 t0 35.0 75 G101-Z9T40-3P fZlt 50 .54 Z9 40.0 75 7,1Z-Z9T40-3P (Z1: 50 As Z9 :0.0 75 G5Z-Z9T40-39 .' 50 .59 Z9 40.] 75 1,82-ZST40-39 'Zls 50 .59 Z9 =0.0 7S G101-toS33-3P 1Z1: i2 .56 40 13.0 7 ill-SOS33-39 (11 52 .56 40 33.0 77 G51-tOS33-3P (Z1 52 .55 40 33.0 77, G81-tOS33-39 (Z!% 52 .56 40 13.0 7 G11OZ-40540-2P (Z): i2 .57 40 40.0 15 G1Z-4OS40-3P (Z1: iZ .57 to 40.0 75 GSZ-_OS40-1P (Z)= i2 .57 40 40.0 1S G3Z-t0540-39 (Z): i2 .57 40 40.0 75 G102-t0531-7P (Z). i2 .53 40 33.3 77 GIZ-4033-3P (Z): 52 .59 40 33.0 77 G52-!C531-3R (Z!: 5Z .59 40 33.0 77 GZZ-IOS33-39 (Z1.- iZ .59 40 I3.0 GiOI-ACT14-19 (Z): i3 .57 40 1.1.0 77 5It-tOTIi-3P (Z1 53 .57 40 14.0 77 GS1-tOT14-3P (Z! it AT 40 13.0 17