Commercial Standard and High-Efficiency Condensing Units

Transcription

1 F N. A V. 2 Supersedes Form No. A ev. 1 Commercial Standard and High-fficiency Condensing nits AW Standard fficiency AW High fficiency & N L [22.86 & 28 kw]

2 AL F CNNS odel Number esignation...2 Accessories & Standard nit Features...3 Selection Procedure atched Systems...4 ixed Systems...5 & 6 Gross Capacity and ables...7 nit imensions...8 AI atings (AW)...9 lectrical & Physical ata able (AW)...10 AI atings (AW)...11 lectrical & Physical ata able (AW)...12 Cooling Performance ata (AW) Cooling Performance ata (AW) Piping Installation...23 Wiring Schematic...24 Guide Specifications...25 Limited Warranty...25 = H L INIFICAIN A W - or C A Z Z = SCLL CPSS CNNSING NI P W = CCIAL SIGN VAIAIN A = SANA LCICAL SIGNAIN C = SIGN SIS = = SANA FFICINC = = HIGH FFICINC NINAL NNAG 078 = NS [22.86 kw] AW 091 = NS [28 kw] 079 = NS [22.86 kw] AW 091 = NS [28 kw] [ ] esignates etric Conversions 2 heem anufacturing Company

3 CNNSING NI ACCSSIS ACCSS SCIPIN L N SIZS S N Anti-Short Cycle imer Kit XA-A01 AW-078, 091 AW-079, 091 Sight Glass XAG-A048 AW-078, 091 AW-079, 091 Liquid Line Solenoid Valve* XAV-048 AW-078, 091 AW-079, 091 Suction Line Service Valve XV-AA AW-078, 091 Suction Line Service Valve XV-AC AW-079, 091 *ay be used as isolation valve only. o not use as a pump-down solenoid. efer to system wiring diagram. SANA NI FAS CAIN Galvanized steel with powder coat paint finish. he powder coat paint finish is high gloss, durable and capable of withstanding a 0-H salt spray test per AS 117. he unit is of the frame and panel type of construction which allows all access panels to be opened or removed without affecting the structural strength of the unit. Fastening screws are also of the 0-H type. Stamped louver panels offer % protection for the condenser coil. AS PAN Galvanized steel with powder coat paint finish. SVIC ACCSS Control box with separation between line and control voltages, as well as compressor and other refrigerant controls are accessible through removable panel without affecting normal operation of unit. FAN Condenser fan motor(s) are mounted on removable top panel(s) which bring the motor(s) out to you and expose entire condenser coil for cleaning. CPSS he Scroll Compressor is hermetically sealed with internal high temperature protection, and durable insulation on motor windings. he entire compressor is mounted on rubber grommets to reduce vibration and noise. Compressors have an internal pressure relief assembly to protect against excessive pressure differential. here is a separate compressor compartment for easy service access. CPSS CANKCAS HA xternal wraparound heater helps prevent refrigerant migration to the compressor oil during long off periods. CNNS CILS Constructed with copper tubes and aluminum fins mechanically bonded to tubes for maximum heat transfer capabilities. All coil assemblies are leak tested up to 300 PSIG internal pressure. FIGAN CNNCINS All field sweat joints are made external of the unit and are located close to the ground for a neat looking installation. LW AIN CNL A pressure sensitive fan cycling control allows operation of units down to 0 [-18 C]. HIGH PSS CNL anual reset control deactivates system if abnormally high pressure occurs. LW PSS CNL Automatic reset control deactivates system if abnormally low pressure or refrigerant loss occurs. SVIC VALV Standard on liquid line. CNNS FAN S irect drive, single-phase permanently lubricated PSC motors with inherent overload protection. ANSF 50VA step-down type, from Line to 24 volts. CNAC he contactor is an electrical switch which operates the compressor and condenser fans. Its 24 volt coil is activated through the High Pressure Control and Low Pressure Control on a call for cooling. QIPN GN Lug for field connection of ground wire. SING All units are run tested at the factory prior to shipment. nits are shipped with a holding charge of nitrogen. CNL X he control box is located in the top corner of the cabinet providing for easy access through a service panel. CPSS I LA CNL Compressor will remain off for five minutes after power or thermostat interruption, allowing system pressures to equalize. (odel No. X-01) HA SA KIS Hard start kits are available. [ ] esignates etric Conversions heem anufacturing Company 3

4 SLCIN PC ACH SSS xample 1: etermine the Net System Performance of Condensing nit AW-091 with HGG-120 at 3840 CF [1793 [.07 kpa] external static pressure, [27 C] /67 [19 C] W entering indoor air and [35 C] outdoor ambient. From Performance ata Condensing nit AW-091 with Air Handler HG-120Z: otal Cap. (gross) = 94.5 x 0 = 94,500 H [29 kw] Sens. Cap. (gross) = 79 x 0 = 79,000 H [23.15 kw] (gross) = x 0 = 08,500 WAS From Commercial Air Handler Form No. H11-514, Wet Coil Airflow Performance ata: = 1,596 WAS = 1,596 x = 5,445 H [1.59 kw] herefore, the Net Performance is: otal Cap. (Net) = 94,500 05,445 = 89,055 H [20 kw] Sens. Cap (Net) = 79,000 05,445 = 73,555 H [21.55 kw] (Net) = 8, ,596 = 10,096 WAS = 89,055 10,096 = 2 H [2.60 w/w] WA xample 2: etermine the Sensible Net Capacity at [27 C] entering indoor air with the other conditions from xample 1 being the same. From Performance ata Condensing nit AW-091 with Air Handler HG-120 Sens. Cap (Net) = 73,555 H [21.56 kw] (from xample 1) Adjust Capacity for temperature other than [27 C] entering air: Adjustment: [1.10 x 3840 x (1.16) x (-)] = 17,530 H [ 5.08 kw] herefore, Sensible Capacity (Net) at [24 C] entering air is: 73,555 17,530 = 56,025 H [12 kw] (Sens.) xample 3: etermine Net System Capacity Performance with 150 feet [4 m] equivalent length of 1 3 /8" [34.9 mm].. vapor line, with other conditions in example 1 being the same. From piping chart, Vapor Line System Capacity Loss, in this booklet: Capacity Loss = 1.3% per [30.5m] feet of line he condensing unit Performance ata includes 25 feet [ m] of recommended vapor line; therefore, calculate the System performance with 125 feet [3 m] of additional line: otal Cap. (gross) = 94,500 [(.013 x 125 ) x 94,500] = 92,964 H [25 kw] Sens. Cap (gross) = 79,000 [(.013 x 125 ) x 79,000] = 77,716 H [22.77 kw] hus, the Net Performance is: otal Cap. (Net) = 92,964 5,445 = 87,519 H [25 kw] Sens. Cap. (Net) = 77,716 5,445 = 72,271 H [21.18 kw] [ ] esignates etric Conversions 4 heem anufacturing Company

5 SLCIN PC IX SSS xample 4: etermine the Net System Performance of Condensing nit AW-091 with Air Handler HGG-0Z at 3250 CF [1533 [.10 kpa] external static pressure, [27 C] /67 [19 C] W entering indoor air and [35 C] outdoor ambient. a. From the Condensing nit Performance ata in this book: Plot Condensing nit ata (Figure 1) 40 [4 C] 45 [7 C] 50 [10 C],0 H [22.24 kw] 83,500 H [24.45 kw] 91,500 H [20 kw] 7,200 WAS 07,300 WAS 07,400 WAS b. From Commercial Air Handler Form No. H Wet Coil Performance ata: Plot vaporator Performance ata (Figure 1) 40 [4 C] [10.0 C] 129,300 H [39 kw] otal 109,400 H [32.06 kw] otal 86, H [25.24 kw] otal 88,600 H [27 kw] Sensible 079,0 H [23.42 kw] Sensible 70,600 H [20.69 kw] Sensible c. From Indoor lower Performance Curves, (Wet Coil): = 1,020 WAS = 1,020 x = 3,4 H [1.02 kw] d. otal (gross) =,000 H [28 kw] (from plot) Sens. (gross) = 73,000 from evaporator table by plot evaporator temperature (gross) = 07,450 WAS (from plot) e. herefore, the Net Performance is: otal (Net) =,000 3,4 = 86,520 H [25.27 kw] Sens. (Net) = 72,000 3,4 = 68,520 H [20.08 kw] (Net) = 07, ,020 = 8,470 WAS = 86,250 8,470 = H [2.99 w/w]/wa xample 5: etermine the Sensible Net Capacity at db with the other conditions from xample 4 being the same. From the Commercial Air Handler Performance ata in Form No. H Sens. Cap. (gross) = Sens. [24 C] = 56,820 H [14 kw] Interpolation from air handler performance plot.. Adjusted Sens. Cap. (Net) = 56,820 3,4 = 53,340 H [13 kw] From xample 4, otal Cap. (Net), (Net) and remain the same. xample 6: etermine Net System Performance with 150 feet [4 m] equivalent length of 1 3 /8" [34.9 mm].. vapor line, with other conditions in xample 4 being the same. From Piping Chart, Vapor Line System Capacity Loss, in this book: Capacity Loss = 1.6% per feet [30.5 m] of line he Condensing nit Performance ata includes 25 feet [ m] of recommended vapor line. herefore, calculate the System Performance with 125 feet [3 m] of additional line: otal (gross) =,000 [(.016 x 125 ) x,000] = 88,991 H [27 kw] Sens. (gross) = 72,000 [(.016 x 125 ) x 72,000] = 70,560 H [20.67 kw] herefore, the Net Performance is: otal Net = 88,991 3,4 =,511 H [25.06 kw] Sens. Net = 70,560 3,4 = 67,0 H [19.71 kw] Net = 8,470 WAS =,511 8,470 = H [2. w/w]/wa [ ] esignates etric Conversions heem anufacturing Company 5

6 FIG 1 IX SS VAPA PA 6 heem anufacturing Company [ ] esignates etric Conversions

7 CNNSING NI GSS CAPACI AN PW AW-079 SAA VAPA PA AIN 40 [4] 45 [7] 50 [10] PA H [kw] KW H [kw] KW H [kw] KW [24] 7 [22.33] [25.12] [21] [27] 74.0 [21.69] [24.21] 91.5 [22] [29] 71.7 [21.01].7 [23.65] 8 [20] [32] 69.5 [20.37] 7 [22.92] 8 [25.20] 6 [19] 7 [22.16] 83.2 [24.38] [38] 64.9 [12] 73.1 [21.42].5 [23.59] [41] 62.6 [15] 70.5 [20.66] 7 [22.77] [43] 60.4 [10] 6 [19.93].1 [22.01] [46] 5 [16] 65.4 [17] 72.3 [21.19] AW-091 SAA VAPA PA AIN 40 [4] 45 [7] 50 [10] PA H [kw] KW H [kw] KW H [kw] KW [24] 8 [24] 9 [27] 10 [31.07] [27] 84.8 [24.] 94.0 [25] [30.07] [29] 82.0 [24.03] 91.2 [23] 99.5 [26] [32] 79.2 [23.21] 8 [29] 9 [27] 7 [22.42] 84.8 [24.] 94.0 [25] [38] 73.7 [21.60] 82.0 [24.03].3 [26] [41] 71.0 [20.81] 79.2 [23.21] 8 [28] [43] 6 [19.99] 7 [22.27] 83.4 [24.44] [46] 65.4 [17] 72.8 [21.34].2 [23.50] AW-078 SAA VAPA PA AIN 40 [4] 45 [7] 50 [10] PA H [kw] KW H [kw] KW H [kw] KW [24] 73.0 [21.40] [24.07].2 [24] [27] 70.9 [20.78] [23.19] 8 [28] [29] 6 [20.14] 7 7 [22.66].0 [24.92] [32] 6 [19.52] [21.96] 82.4 [24.15] 64.4 [18] [21.22] 79.7 [23.36] [38] 62.2 [13] [20.52] 7 [22.60] [41] 60.0 [19] 0 6 [19.79] 74.4 [21.81] [43] 5 [17] [18] 71.9 [21.08] [46] 5 [13] [15] 69.3 [20.31] AW-091 SAA VAPA PA AIN 40 [4] 45 [4] 50 [4] PA H [kw] KW H [kw] KW H [kw] KW [24] 84.4 [24.73] 92.4 [28].7 [29.52] [27] 82.3 [24.11].2 [23] 9 [24] [29].2 [23.49] 8 [28] 9 [26] [32] 7 [22.87] 8 [25.13] 93.8 [28] 7 [22.24] 83.5 [24.45] 91.5 [20] [38] 73.8 [21.62] 81.2 [23.] 8 [28] [41] 71.7 [21.00] 7 [23.15] 8 [28] [43] 6 [20.35] 7 [22.47] 84.2 [24.68] [46] 6 [19.72] 74.5 [21.82] 81.9 [24.00] KW Condensing nit (Compressor + Fan) H Gross Capacity X 0 H NS: 1. All values at approximately 20 [11.1 C] subcooling 2. ata includes 25 feet [2 m] of recommended vapor and liquid lines [ ] esignates etric Conversions heem anufacturing Company 7

8 NI INSINS & WIGHS N: Allow 24" clearance on compressor access panel side of unit and 12" clearance on all other sides. N [22.86 kw] N [28 kw] CN WIGHS (S.) [kg] L AL WIGH Corner Weights, Lbs. [kg] S. [kg] A C AW [111] 41 [19.34] 63 [24] 54 [24.50] 86 [31] AW [] 43 [20.28] 66 [29.94] 56 [25.40] 89 [40.37] AW [121] 45 [20.41] 66 [29.94] 63 [28] 91 [41.28] AW [150] 55 [24.] 87 [36] 73 [33.11] 116 [52.62] [ ] esignates etric Conversions 8 heem anufacturing Company

9 PFANC AI SANA CNIINS CLING: AW- NI AW- 079CAZ 079AZ 079AZ 091CAZ 091AZ 091AZ L NS IN CIL AN/ AI HANL AL CAPACI /H [kw] [2 C] /67 [19.5 C] W IN AI [35 C] AI N SNSIL /H [kw] N LAN /H [kw] SN AING IN CF [L/s] CC ,000 [22.3] 59,828 [1] 16,172 [4.7] ,400 [1133] CJC-C0 74,000 [21.7] 56,708 [1] 17,292 [5.1] ,600 [1227] (HGG-0H) 74,000 [21.7] 56,536 [1] 17,464 [5.1] ,600 [1227] (HGG-0Z) ➀ 74,000 [21.7] 56,708 [1] 17,292 [5.1] ,600 [1227] CC ,000 [22.3] 59,828 [1] 16,172 [4.7] ,400 [1133] CJC-C0 74,000 [21.7] 56,708 [1] 17,292 [5.1] ,600 [1227] (HGG-0H) 74,000 [21.7] 56,536 [1] 17,464 [5.1] ,600 [1227] (HGG-0Z) 74,000 [21.7] 56,708 [1] 17,292 [5.1] ,600 [1227] CC ,000 [22.3] 59,828 [1] 16,172 [4.7] ,400 [1133] CJC-C0 74,000 [21.7] 56,708 [1] 17,292 [5.1] ,600 [1227] (HGG-0H) 74,000 [21.7] 56,536 [1] 17,464 [5.1] ,600 [1227] (HGG-0) 74,000 [21.7] 56,708 [1] 17,292 [5.1] ,600 [1227] CC ,000 [25.5] 66,657 [19.5] 20,343 [] ,600 [1227] CJC-C0 88,000 [2] 65,4 [19.3] 22,146 [] ,0 [1369] CJC-C120 89,000 [2] 67,726 [19.8] 21,274 [] ,000 [1416] (HGG-0H) 88,000 [2] 67,000 [1] 21,000 [] ,0 [1369] (HGG-0Z) ➀ 88,000 [2] 66,6 [19.5] 21,320 [] ,0 [1369] (HGG-120H) 89,000 [2] 67,726 [19.8] 21,274 [] , [1463] (HGG-120Z) 89,000 [2] 67,766 [19.9] 21,234 [] , [1463] CC ,000 [25.5] 66,657 [19.5] 20,343 [] ,600 [1227] CJC-C0 88,000 [2] 65,4 [19.3] 22,146 [] ,0 [1369] CJC-C120 89,000 [2] 67,726 [19.8] 21,274 [] ,000 [1416] (HGG-0H) 88,000 [2] 67,000 [1] 21,000 [] ,0 [1369] (HGG-0Z) 88,000 [2] 66,6 [19.5] 21,320 [] ,0 [1369] (HGG-120H) 89,000 [2] 67,726 [19.8] 21,274 [] , [1463] (HGG-120Z) 89,000 [2] 67,766 [19.9] 21,234 [] , [1463] CC ,000 [25.5] 66,657 [19.5] 20,343 [] ,600 [1227] CJC-C0 88,000 [2] 65,4 [19.3] 22,146 [] ,0 [1369] CJC-C120 89,000 [2] 67,726 [19.8] 21,274 [] ,000 [1416] (HGG-0H) 88,000 [2] 67,000 [1] 21,000 [] ,0 [1369] (HGG-0) 88,000 [2] 66,6 [19.5] 21,320 [] ,0 [1369] (HGG-120H) 89,000 [2] 67,726 [19.8] 21,274 [] , [1463] (HGG-120) 89,000 [2] 67,766 [19.9] 21,234 [] , [1463] ➀ Highest sales volume tested combination required by... test procedures. [ ] esignates etric Conversions heem anufacturing Company 9

10 LCICAL & PHSICAL AA: AW- PHSICAL LCICAL Weight utdoor Coil Fuse or HAC Circuit reaker inimum Circuit Ampacity Amperes Full Load Amperes (FLA) Fan otor Compressor efrig. Per Circuit z. [g] Phase Frequency (Hz) Voltage (Volts) odel No. AW- Ship Lbs. [kg] Net Lbs. [kg] CF [L/s] No. ows Face Area Sq. Ft. [Sq. m] aximum Amperes inimum Amperes Locked otor Amperes (LA) ated Load Amperes (LA) 079CAZ / /25 30/30 40/ [2.08] [1652] 296 [8392] 266 [120.7] 289 [131.1] 079AZ [2.08] [1652] 296 [8392] 266 [120.7] 289 [131.1] 079AZ [2.08] [1652] 296 [8392] 266 [120.7] 289 [131.1] 091CAZ / /35 45/45 50/ [2.08] 2 30 [1793] 296 [8392] 330 [149.7] 353 [160.1] 091AZ [2.08] 2 30 [1793] 296 [8392] 330 [149.7] 353 [160.1] 091AZ [2.08] 2 30 [1793] 296 [8392] 330 [149.7] 353 [160.1] 10 heem anufacturing Company [ ] esignates etric Conversions

11 PFANC AI SANA CNIINS CLING: AW- NI AW- 078CAZ 078AZ 078AZ 091CAZ 091AZ 091AZ L NS IN CIL AN/ AI HANL AL CAPACI /H [kw] [2 C] /67 [19.5 C] W IN AI [35 C] AI N SNSIL /H [kw] N LAN /H [kw] SN AING IN CF [L/s] CC ,000 [21.1] 58,000 [1] 14,000 [4.1] 0 2,600 [1227] CJC-0 73,000 [21.4] 54,400 [1] 18,600 [5.4] ,600 [1227] (HG-0H) 73,000 [21.4] 54,0 [1] 18,200 [] 9. 2,600 [1227] (HG-0Z) ➀ 74,000 [21.7] 55,400 [1] 18,600 [5.4] ,600 [1227] CC ,000 [21.1] 58,000 [1] 14,000 [4.1] 0 2,600 [1227] CJC-0 73,000 [21.4] 54,400 [1] 18,600 [5.4] ,600 [1227] (HG-0H) 73,000 [21.4] 54,0 [1] 18,200 [] 9. 2,600 [1227] (HG-0Z) 74,000 [21.7] 55,400 [1] 18,600 [5.4] ,600 [1227] CC ,000 [21.1] 58,000 [1] 14,000 [4.1] 0 2,600 [1227] CJC-0 73,000 [21.4] 54,400 [1] 18,600 [5.4] ,600 [1227] (HG-0H) 73,000 [21.4] 54,0 [1] 18,200 [] 9. 2,600 [1227] (HG-0) 74,000 [21.7] 55,400 [1] 18,600 [5.4] ,600 [1227] CC ,000 [24.6] 63,000 [1] 21,000 [] 0 3,150 [1486] CJC-C0 84,000 [24.6] 65,000 [1] 19,000 [] ,000 [1416] CJC-C120 87,000 [25.5] 68,000 [19.9] 19,000 [] ,200 [1510] (HGG-0H),000 [24.9] 65,0 [19.3] 19,200 [] 0 3,000 [1416] (HGG-0Z) ➀,000 [24.9] 65,0 [19.3] 19,200 [] ,000 [1416] (HGG-120H) 87,000 [25.5] 68,000 [19.9] 19,000 [] ,200 [1510] (HGG-120Z) 88,000 [2] 69,000 [20.2] 19,000 [] ,200 [1510] CC ,000 [24.6] 63,000 [1] 21,000 [] 0 3,150 [1486] CJC-C0 84,000 [24.6] 65,000 [1] 19,000 [] ,000 [1416] CJC-C120 87,000 [25.5] 68,000 [19.9] 19,000 [] ,200 [1510] (HGG-0H),000 [24.9] 65,0 [19.3] 19,200 [] 0 3,000 [1416] (HGG-0Z),000 [24.9] 65,0 [19.3] 19,200 [] ,000 [1416] (HGG-120H) 87,000 [25.5] 68,000 [19.9] 19,000 [] ,200 [1510] (HGG-120Z) 88,000 [2] 69,000 [20.2] 19,000 [] ,200 [1510] CC ,000 [24.6] 63,000 [1] 21,000 [] 0 3,150 [1486] CJC-C0 84,000 [24.6] 65,000 [1] 19,000 [] ,000 [1416] CJC-C120 87,000 [25.5] 68,000 [19.9] 19,000 [] ,200 [1510] (HGG-0H),000 [24.9] 65,0 [19.3] 19,200 [] 0 3,000 [1416] (HGG-0),000 [24.9] 65,0 [19.3] 19,200 [] ,000 [1416] (HGG-120H) 87,000 [25.5] 68,000 [19.9] 19,000 [] ,200 [1510] (HGG-120) 88,000 [2] 69,000 [20.2] 19,000 [] ,200 [1510] ➀ Highest sales volume tested combination required by... test procedures. [ ] esignates etric Conversions heem anufacturing Company 11

12 LCICAL & PHSICAL AA: AW- LCICAL PHSICAL Weight utdoor Coil Fuse or HAC Circuit reaker inimum Circuit Ampacity Amperes Full Load Amperes (FLA) Fan otor Compressor efrig. Per Circuit z. [g] Phase Frequency (Hz) Voltage (Volts) odel No. AW- Ship Lbs. [kg] Net Lbs. [kg] CF [L/s] No. ows Face Area Sq. Ft. [Sq. m] aximum Amperes inimum Amperes Locked otor Amperes (LA) ated Load Amperes (LA) [5670] 244 [.7] [5670] [5670] [5103] [5103] [5103] 267 [121.1] 244 [.7] 267 [121.1] 244 [.7] 267 [121.1] 254 [.2] 298 [135.2] 254 [.2] 298 [135.2] 254 [.2] 298 [135.2] 078CAZ / /28 35/35 45/ [1.93] [1888] AZ [1.93] [1888] AZ [1.93] [1888] CAZ / /33 45/45 50/ [2.14] 1 40 [2242] 1 091AZ [2.14] 1 40 [2242] 1 091AZ [2.14] 1 40 [2242] 1 12 heem anufacturing Company [ ] esignates etric Conversions

13 CLING PFANC AA CNNSING CLING NI AW-078 CIL CC-5013 NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 3120 [1472] 2600 [1227] 20 [982] 3120 [1472] 2600 [1227] 20 [982] 3120 [1472] 2600 [1227] 20 [982] ➀ P A P A [2] [3] [4] CNNSING NI [2] [3] [4] AW-078 NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 3120 [1472] 2600 [1227] 20 [982] 3120 [1472] 2600 [1227] 20 [982] 3120 [1472] 2600 [1227] 20 [982] ➀ epression ratio db ntering air dry bulb wb ntering air wet bulb.5 [22] 5 [11] 8 [23] 5 [11] 8 [25.09] 5 [17] 83.7 [24.53] 55.4 [14] 81.9 [24.00] 54.4 [14].0 [23.45] 53.4 [15] 7 [22.83] 52.4 [16].4 [22.10] 51.3 [15.03] 72.2 [21.16] 50.2 [14.71] 93.5 [20] 5 [12].8 [21] 55.0 [12] 8 [27] 54.2 [18] 8 [25.41] 53.3 [12] 84.9 [24.88] 52.4 [16] 83.0 [24.32] 51.4 [15.06].9 [23.71] 50.3 [14.74] 7 [22.98] 49.3 [14.45].2 [22.04] 4 [14.10] [ ] esignates etric Conversions CLING CIL 8 [20] 52.3 [13].0 [24.91] 51.6 [15.13] 82.8 [24.27] 50.8 [14.89].9 [23.71] 50.0 [14.65] 7 [23.18] 4 [14.36] 7 [22.65] 4 [14.07].2 [22.04] 4 [13.77] 72.6 [21.28] 4 [13.45] 69.5 [20.37] 44.8 [13.13].7 [28] 50.3 [14.74] 8 [29] 4 [14.54] 8 [25.15] 4 [14.30] 83.9 [24.59] 4 [14.04] 82.1 [24.06] 4 [13.77].3 [23.53] 4 [13.48] 7 [22.92] 45.0 [13.19] 7 [22.16] 43.9 [12.87] 72.5 [21.25] 42.8 [12.54] 84.9 [24.88] 4 [13.77] 82.2 [24.09] 4 [13.57].0 [23.45] 45.5 [13.33] 7 [22.89] 44.6 [13.07] 7 [22.39] 43.7 [12.81] 74.5 [21.83] 42.7 [12.51] 72.4 [21.22] 41.6 [12.19] 69.9 [20.49] 40.5 [11.87] 6 [19.55] 3 [11.55] CJC-0 8 [26] 44.9 [13.16].2 [24.97] 44.2 [12.] 83.0 [24.32] 43.4 [12.72] 81.1 [23.77] 42.6 [12.48] 7 [23.27] 41.6 [12.19] 7 [22.71] 40.6 [11.].4 [22.10] 3 [11.61] 72.9 [21.36] 3 [11.28] 69.7 [20.43] 3 [10.96] otal otal capacity x 0 H Sens Sensible capacity x 0 H KW input 84.6 [24.79] 6 [20.02] 81.9 [24.00] 6 [19.81] 79.7 [23.36] 6 [19.58] 7 [22.] 6 [19.34] 7 [22.27] 65.0 [15] 74.2 [21.] 64.0 [16] 72.1 [21.13] 63.0 [16] 69.5 [20.37] 61.9 [14] 6 [13] 60.8 [12] 8 [27] 6 [13] 84.9 [24.88] 6 [19.23] 82.7 [24.24] 64.8 [19].8 [23.68] 64.0 [16] 7 [23.15] 63.0 [16] 7 [22.63] 62.0 [17].1 [22.01] 61.0 [18] 72.5 [21.25] 59.9 [15] 69.3 [20.31] 5 [13] 81.8 [23.97] 63.0 [17] 7 [23.18] 62.3 [16] 7 [22.54] 61.5 [12].0 [21.98] 60.6 [16] 73.2 [21.45] 59.7 [10] 71.4 [20.93] 5 [10] 69.3 [20.31] 5 [18] 6 [19.55] 5 [16] 63.6 [14] 55.4 [14] 84.8 [24.] 60.9 [15] 82.1 [24.06] 60.2 [14] 79.9 [23.42] 5 [11] 7 [22.86] 5 [17] 7 [22.33] 5 [18] 74.4 [21.] 5 [19] 72.3 [21.19] 5 [19] 69.7 [20.43] 54.5 [17] 6 [19.52] 53.4 [15] 7 [23.15] 5 [18] 7 [22.39] 5 [18] 74.2 [21.] 5 [14] 72.3 [21.19] 55.2 [18] 70.5 [20.66] 54.3 [11] 6 [20.10] 53.3 [12] 6 [19] 52.3 [13] 64.0 [16] 51.2 [15.01] 60.8 [12] 50.1 [14.68] 82.0 [24.03] 5 [19] 7 [23.27] 54.9 [19] 7 [22.63] 54.1 [16].3 [22.07] 53.2 [15.59] 73.5 [21.54] 52.3 [13] 71.6 [20.98] 51.3 [15.03] 69.5 [20.37] 50.2 [14.71] 6 [14] 4 [14.39] 63.8 [10] 4 [14.07] 7 [22.68] 74.0 [21.69] 74.7 [21.89] 73.3 [21.48] 72.5 [21.25] 72.5 [21.25] 70.6 [20.69] 70.6 [20.69] 6 [20.16] 6 [20.16] 6 [14] 6 [14] 64.9 [12] 64.9 [12] 62.3 [16] 62.3 [16] 59.2 [15] 59.2 [15].4 [23.56] 72.0 [21.10] 7 [22.77] 71.3 [20.].5 [22.13] 70.5 [20.66] 73.6 [21.57] 6 [20.40] 71.8 [21.04] 6 [20.13] 70.0 [20.51] 6 [19.84] 6 [19.] 6 [19.55] 6 [14] 6 [14] 62.2 [13] 62.2 [13] 74.6 [21.86] 6 [20.13] [21.07] 6 [19.] 69.7 [20.43] 6 [19] 6 [19.87] 6 [16] 6 [19.34] 65.4 [17] 64.2 [12] 64.2 [12] 62.1 [10] 62.1 [10] 5 [17] 5 [17] 5 [13] 5 [13] 7 [22.74] 6 [19.52] 74.9 [21.] 6 [19.31] 72.7 [21.31] 65.1 [18] 70.8 [20.] 64.3 [14] 6 [20.22] 63.3 [15] 6 [19] 62.3 [16] 65.1 [18] 61.3 [17] 62.6 [15] 60.2 [14] 5 [11] 5 [12] 71.9 [21.07] 63.3 [15] [20.28] 62.6 [15] 6 [14] 61.8 [11] 65.1 [18] 60.9 [15] 63.3 [15] 60.0 [18] 61.4 [19] 5 [19] 59.3 [18] 5 [17] 5 [15] 5 [15] 53.6 [11] 53.6 [11] 74.9 [21.] 61.2 [14] [21.16] 60.6 [16] 70.0 [20.51] 59.8 [13] 6 [19.96] 5 [16] 6 [13] 5 [10] 64.4 [17] 5 [11] 62.3 [16] 5 [18] 59.8 [13] 54.8 [16] 5 [19] 53.7 [14] NS: ➀ When the entering air dry bulb is other than [27 C], adjust the sensible capacity from the table by adding [1.10 x CF x (1 ) x (db )]. ➁ otal and sensible capacity is gross, with no deduction for indoor blower motor heat. ➂ input is gross, which does not include indoor blower motor. ➃ efer to the Systems Selection Performance Program and ata iskette to interpolate or extrapolate above data. heem anufacturing Company 13

14 CLING PFANC AA CNNSING NI P A [2] [3] [4] AW-078 NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 3120 [1472] 2600 [1227] 20 [982] 3120 [1472] 2600 [1227] 20 [982] 3120 [1472] 2600 [1227] 20 [982] ➀ epression ratio db ntering air dry bulb wb ntering air wet bulb AI HANL 93.4 [27] 5 [19].7 [28] 54.9 [19] 8 [24] 54.1 [16] 8 [28] 53.3 [12] 84.8 [24.] 52.3 [13] 83.0 [24.32] 51.3 [15.03].9 [23.71] 50.3 [14.74] 7 [22.] 49.2 [14.42].2 [22.04] 4 [14.10] [ ] esignates etric Conversions 14 heem anufacturing Company HG-0.6 [25] 50.2 [14.71] 8 [29] 49.5 [14.51] 8 [25.12] 4 [14.30] 83.8 [24.56] 4 [14.04] 82.1 [24.06] 4 [13.].2 [23.50] 4 [13.45] 7 [22.89] 44.9 [13.16] 7 [22.16] 43.8 [12.84] 72.4 [21.22] 42.7 [12.51] 8 [26] 44.9 [13.16].2 [24.97] 44.2 [12.] 83.0 [24.32] 43.4 [12.72] 81.1 [23.77] 42.5 [12.46] 79.3 [23.24] 41.6 [12.19] 7 [22.68] 40.6 [11.].3 [22.07] 39.5 [11.58] 72.8 [21.34] 3 [11.25] 6 [20.40] 3 [10.93] otal otal capacity x 0 H Sens Sensible capacity x 0 H KW input 8 [24] 6 [10] 84.8 [24.] 65.5 [19.20] 82.6 [24.21] 64.8 [19].7 [23.65] 63.9 [13] 7 [23.12] 62.9 [13] 7 [22.60] 61.9 [14].0 [21.98] 60.9 [15] 72.4 [21.22] 59.8 [13] 69.3 [20.31] 5 [10] 84.8 [24.] 60.9 [15] 82.1 [24.06] 60.2 [14] 79.9 [23.42] 5 [11] 7 [22.86] 5 [14] 7 [22.33] 5 [18] 74.3 [21.78] 5 [19] 72.2 [21.16] 55.5 [17] 69.7 [20.43] 54.4 [14] 6 [19] 53.3 [12] 82.0 [24.03] 55.5 [17] 79.3 [23.24] 54.8 [16] 7 [22.60] 54.0 [13].2 [22.04] 53.1 [15.56] 73.4 [21.51] 52.2 [10] 71.6 [20.98] 51.2 [15.01] 6 [20.34] 50.2 [14.71] 6 [11] 4 [14.39] 63.7 [17] 4 [14.07].3 [23.53] 71.9 [21.07] 7 [22.74] 71.2 [20.87].4 [22.10] 70.4 [20.63] 73.5 [21.54] 6 [20.40] 71.8 [21.04] 6 [20.10] 69.9 [20.49] 6 [19.81] 6 [19.87] 6 [19.52] 6 [14] 6 [14] 62.1 [10] 62.1 [10] 7 [22.74] 6 [19.52] 74.9 [21.] 6 [19.31] 72.7 [21.31] 65.1 [18] 70.8 [20.] 64.2 [12] 6 [20.22] 63.3 [15] 6 [17] 62.3 [16] 65.0 [15] 61.2 [14] 62.5 [12] 60.1 [11] 59.3 [18] 5 [19] 74.8 [21.92] 61.2 [14] [21.13] 60.5 [13] 69.9 [20.49] 59.7 [10] 6 [19.93] 5 [13] 6 [10] 5 [17] 64.4 [17] 5 [18] 62.3 [16] 5 [15] 59.7 [10] 54.8 [16] 5 [19] 53.7 [14] CNNSING CLING NI AW-091 CIL CC-5013 NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 37 [1784] 3150 [1487] 2520 [1189] 37 [1784] 3150 [1487] 2520 [1189] 37 [1784] 3150 [1487] 2520 [1189] ➀ P A [2] [3] [4] 10 [32.12] 40.4 [11.84] [31.45] 3 [11.55] [30.89] 3 [11.37] [30.42] 3 [11.20] [29.] 3 [11.08].5 [25] 3 [10.93] 9 [23] 3 [10.73] 9 [24] 3 [10.43] 94.2 [21] 34.2 [10.02] 10 [30.98] 3 [10.84] [30.36] 3 [10.58] [29.81] 35.5 [10.40] [29.34] 35.0 [10.26] 9 [20] 34.6 [10.14] 9 [23] 34.1 [9.99].3 [23] 33.5 [9.82] 93.3 [24] 32.6 [9.55].9 [24] 31.3 [7] [29.86] 33.5 [9.82] [29.25] 32.7 [9.58] [22] 32.1 [1] 9 [28] 31.7 [9.29].0 [24] 31.3 [7] 93.5 [20] 30.9 [6] 91.8 [20] 30.3 [8] 89.9 [25] 29.5 [5] 8 [27] 2 [2] 9 [20] 7 [22.24] [25] 74.9 [21.] [20] 74.2 [21.] [20] 73.7 [21.60] 91.2 [23] 73.2 [21.45] 8 [26] 72.7 [21.31] 8 [23] 72.0 [21.10] 8 [25.12] 71.1 [20.84] 83.2 [24.38] 69.7 [20.43].1 [27] 6 [20.34] [26] 6 [20.08] 91.2 [23] 6 [19.] 89.5 [23] 6 [19.] 8 [29] 6 [14] 8 [22] 6 [19] 84.7 [24.82] 6 [19.31] 82.7 [24.24] 65.0 [15].3 [23.53] 63.7 [17] 91.7 [27] 62.9 [13] [26] 62.1 [10] [23] 61.5 [12] 8 [25.29] 61.1 [11] 84.8 [24.] 60.7 [19] 83.3 [24.41] 60.3 [17] 81.6 [23.91] 59.7 [10] 79.7 [23.36] 5 [16] 7 [22.68] 5 [14] 94.9 [21].0 [24.91] [27] 84.0 [24.62] [21] 83.3 [24.41] 8 [21] 82.8 [24.27] 8 [24] 82.4 [24.15] 8 [25.17] 81.8 [23.97] 84.1 [24.65] 81.2 [23.] 82.0 [24.03].2 [23.50] 79.5 [23.30] 7 [23.09] 91.6 [25] 7 [22.77] [20] 7 [22.51] [27] 7 [22.33] 8 [25.20] 7 [22.21] 84.4 [24.74].3 [22.07] 82.9 [24.30] 74.9 [21.] 81.1 [23.77] 74.2 [21.] 7 [23.18] 73.3 [21.48] 7 [22.48] 72.1 [21.13] 8 [25] 70.5 [20.66] [25.26] 69.7 [20.43] 84.4 [24.74] 6 [20.25] 82.8 [24.27] 6 [20.13] 81.4 [23.86] 6 [20.02] 79.8 [23.39] 6 [19.] 7 [22.92] 6 [19.72] 7 [22.36] 6 [19] 74.0 [21.69] 65.4 [17] NS: ➀ When the entering air dry bulb is other than [27 C], adjust the sensible capacity from the table by adding [1.10 x CF x (1 ) x (db )]. ➁ otal and sensible capacity is gross, with no deduction for indoor blower motor heat. ➂ input is gross, which does not include indoor blower motor. ➃ efer to the Systems Selection Performance Program and ata iskette to interpolate or extrapolate above data.

15 CLING PFANC AA CNNSING CLING NI AW-091 CIL CJC-C0 NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 3600 [1699] 3000 [1416] 2400 [1133] 3600 [1699] 3000 [1416] 2400 [1133] 3600 [1699] 3000 [1416] 2400 [1133] ➀ P A P A [2] [3] [4] CNNSING NI [2] [3] [4] AW-091 NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 3840 [1812] 3200 [1510] 2560 [1208] 3840 [1812] 3200 [1510] 2560 [1208] 3840 [1812] 3200 [1510] 2560 [1208] ➀ epression ratio db ntering air dry bulb wb ntering air wet bulb [32.03] 42.3 [12.40] [31.39] 41.4 [12.13] [30.83] 40.7 [11.93] [30.33] 40.2 [11.78] [29.86] 39.7 [11.63].3 [20] 39.2 [11.49] 9 [27] 3 [11.28] 9 [25] 3 [10.99] 93.9 [22] 3 [10.61] [33.03] 4 [13.45] [32.36] 44.9 [13.16] [31.83] 44.2 [12.] 10 [31.33] 43.7 [12.81].3 [30.86] 43.3 [12.69] [30.36] 42.7 [12.51] [29.86] 42.0 [12.31] 99.8 [29.25] 41.1 [12.05] 9 [22] 39.7 [11.63] [ ] esignates etric Conversions CLING CIL.5 [30.92] 3 [11.34] [30.27] 3 [11.08] [29.] 3 [10.] 99.9 [29.28] 3 [10.76] 9 [21] 3 [10.64] 9 [27] 3 [10.49].0 [24] 35.2 [10.32] 93.0 [26] 34.3 [10.05].7 [28] 33.1 [9.70] 10 [31.86] 42.0 [12.31] [31.24] 41.1 [12.05] [30.68] 40.5 [11.87] [30.22] 40.0 [11.72] [29.78] 3 [11.61].0 [29.31] 3 [11.46] 9 [21] 3 [11.28] 9 [22] 3 [11.02] 93.9 [22] 3 [10.64] [29.78] 35.1 [10.29] [29] 34.3 [10.05] [26] 33.7 [9.88] [29] 33.3 [9.76] 94.8 [28] 32.9 [4] 93.2 [21] 32.5 [9.52] 91.6 [25] 31.9 [9.35] 89.7 [29] 31.1 [1] 8 [21] 30.0 [9] CJC-C [30.71] 3 [11.14] [30.10] 3 [10.] [29.57] 3 [10.76] [23] 3 [10.64] 9 [29] 3 [10.52] 9 [25] 35.4 [10.37] 94.7 [25] 34.9 [10.23] 92.8 [20] 34.1 [9.99].5 [22] 32.9 [4] otal otal capacity x 0 H Sens Sensible capacity x 0 H KW input 9 [21] 7 [22.] [26] 7 [22.51] [21] 7 [22.30] 92.5 [21] 7 [22.16].9 [24].2 [22.04] 89.3 [27] 74.6 [21.86] 8 [24] 73.9 [21.66].4 [25.03] 73.0 [21.39] 83.0 [24.32] 71.6 [20.98] [29.81] 81.3 [23.83] [26].4 [23.56] [20] 79.7 [23.36] [21] 79.2 [23.21] 94.3 [24] 7 [23.06] 92.7 [27] 7 [22.92].9 [24] 7 [22.71] 8 [22] 7 [22.42] 8 [25.29].2 [22.04] 94.9 [21] 71.1 [20.84] [27] 70.3 [20.60] [24] 6 [20.40] 89.3 [27] 69.2 [20.28] 8 [20] 6 [20.13] 8 [25.26] 6 [20.02] 84.4 [24.74] 6 [19.81] 82.4 [24.15] 6 [19.55].1 [23.48] 65.5 [19.20] 9 [25] 74.4 [21.] [23] 73.5 [21.54] 94.2 [21] 72.9 [21.36] 92.5 [21] 72.4 [21.22] 91.0 [27] 72.0 [21.10] 8 [20] 71.5 [20.] 8 [20] 70.9 [20.78] 8 [25.12] 70.0 [20.51] 83.3 [24.41] 6 [20.13] 91.4 [29] 64.5 [10] [20] 63.7 [17] 8 [27] 63.1 [19] 8 [25.20] 62.7 [18] 84.5 [24.76] 62.3 [16] 83.0 [24.32] 61.9 [14] 81.4 [23.86] 61.3 [17] 7 [23.27] 60.5 [13] 7 [22.60] 5 [11] 94.6 [22] 6 [19.] [21] 6 [19.52].7 [28] 6 [19.37] 89.2 [24] 6 [19.25] 8 [20] 6 [14] 8 [25.26] 64.8 [19] 84.5 [24.76] 64.3 [14] 82.6 [24.21] 63.5 [11].3 [23.53] 62.3 [16] 94.6 [22] 8 [25.47] [28] 8 [25.17].5 [22].3 [25.00] 8 [22] 84.7 [24.82] 8 [25.56] 84.3 [24.71] 8 [25.09] 83.8 [24.56] 83.8 [24.56] 83.1 [24.35] 81.8 [23.97] 81.8 [23.97] 79.3 [23.24] 79.3 [23.24] 9 [22].4 [29] [28] 89.5 [23] 93.9 [22] 8 [22] 92.2 [22] 8 [28].6 [25] 8 [23] 8 [28] 8 [25.59] 8 [25.56] 8 [28].1 [24.94].1 [24.94] 82.6 [24.21] 82.6 [24.21] 91.3 [26] 79.5 [23.30] [24] 7 [23.04] 8 [25.59] 7 [22.86] 8 [25.12] 7 [22.71] 84.2 [24.68] 7 [22.60] 82.6 [24.21] 7 [22.45].9 [23.71] 7 [22.27] 7 [23.12].1 [22.01] 7 [22.42] 73.8 [21.63] 94.6 [22] 82.7 [24.24] [28] 81.8 [23.97].6 [25] 81.2 [23.] 8 [28].8 [23.68] 8 [21].3 [23.53] 8 [25.17] 79.9 [23.42] 84.1 [24.65] 79.2 [23.21] 82.1 [24.06] 7 [22.] 79.7 [23.36] 7 [22.60] 8 [29] 72.1 [21.13] [25.17] 71.3 [20.] [24.68] 70.7 [20.72] 82.6 [24.21] 70.3 [20.60] 81.1 [23.77] 69.9 [20.49] 7 [23.33] 69.5 [20.37] 7 [22.83] 6 [20.19] 7 [22.27] 6 [19.96] 73.7 [21.60] 6 [11] 91.1 [20].0 [21.98] [21] 74.2 [21.] [25.59] 73.6 [21.57] 8 [25.12] 73.2 [21.45] 84.2 [24.68] 72.8 [21.34] 82.7 [24.24] 72.4 [21.22] 81.1 [23.77] 71.8 [21.04] 7 [23.18] 71.0 [20.81] 7 [22.51] 69.9 [20.49] NS: ➀ When the entering air dry bulb is other than [27 C], adjust the sensible capacity from the table by adding [1.10 x CF x (1 ) x (db )]. ➁ otal and sensible capacity is gross, with no deduction for indoor blower motor heat. ➂ input is gross, which does not include indoor blower motor. ➃ efer to the Systems Selection Performance Program and ata iskette to interpolate or extrapolate above data. heem anufacturing Company 15

16 CLING PFANC AA CNNSING AI NI AW-091 HANL HGG-0H NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 3600 [1669] 3000 [1416] 2400 [1133] 3600 [1669] 3000 [1416] 2400 [1133] 3600 [1669] 3000 [1416] 2400 [1133] ➀ P A P A [2] [3] [4] CNNSING NI [2] [3] [4] AW-091 NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 3600 [1669] 3000 [1416] 2400 [1133] 3600 [1669] 3000 [1416] 2400 [1133] 3600 [1669] 3000 [1416] 2400 [1133] ➀ epression ratio db ntering air dry bulb wb ntering air wet bulb.1 [32.27] 42.9 [12.57] [31.59] 41.9 [12.28] [31.04] 41.3 [12.10] [30.57] 40.7 [11.93] [30.10] 40.3 [11.81] [20] 39.8 [11.66] 99.2 [27] 3 [11.46] 9 [29] 3 [11.17] 94.7 [25] 3 [10.76] 10 [31.97] 41.9 [12.28] [31.33] 40.9 [11.99] [30.77] 40.3 [11.81] [30.27] 39.8 [11.66] [29.81] 39.3 [11.52].1 [29.34] 3 [11.37] 9 [21] 3 [11.17] 9 [29] 3 [10.87] 93.8 [29] 3 [10.46] [ ] esignates etric Conversions AI HANL 16 heem anufacturing Company 10 [31.12] 39.2 [11.49] [30.48] 3 [11.25] [29.] 3 [11.05] [28] 3 [10.93] 9 [24] 3 [10.79] 9 [27] 3 [10.67] 9 [28] 3 [10.46] 93.8 [29] 34.8 [10.20] 91.4 [29] 33.6 [9.].3 [30.86] 3 [11.22] [30.22] 3 [10.99] [29] 3 [10.79] 99.7 [29.22] 3 [10.67] 9 [28] 3 [10.52] 9 [21] 35.5 [10.40] 94.9 [21] 34.8 [10.20] 92.9 [23] 33.9 [9.94].5 [22] 32.7 [9.58] [29.98] 3 [10.43] [20] 34.8 [10.20] [27] 34.2 [10.02] [20] 33.8 [9.91].5 [29] 33.4 [9.79] 93.9 [22] 33.0 [7] 92.3 [25] 32.4 [9.50].4 [29] 31.6 [9.26] 8 [22] 30.5 [4] HGG-0Z [29.] 34.7 [10.17] [23] 34.0 [9.96] [20] 33.4 [9.79] [26] 33.0 [7] 94.6 [22] 32.6 [9.55] 93.1 [28] 32.1 [1] 91.4 [29] 31.6 [9.26] 89.5 [23] 30.8 [3] 8 [25.56] 2 [7] otal otal capacity x 0 H Sens Sensible capacity x 0 H KW input 9 [24] 7 [22.] [20] 7 [22.68] [24] 7 [22.48] [24] 7 [22.33] 91.7 [27] 7 [22.19].0 [28].2 [22.04] 8 [28] 74.5 [21.83] 8 [25.26] 73.5 [21.54] 83.7 [24.53] 72.2 [21.16] 9 [25] 7 [22.68] [21] 7 [22.39] [25] 7 [22.19] 92.3 [25].2 [22.04].7 [28] 74.7 [21.89] 8 [21] 74.2 [21.] 8 [25.59] 73.5 [21.54].3 [25.00] 72.6 [21.28] 82.8 [24.27] 71.2 [20.87] 9 [22] 71.7 [21.01] [20] 70.8 [20.] 91.6 [25] 70.2 [20.57].0 [28] 69.7 [20.43] 8 [24] 69.3 [20.31] 8 [25.47] 6 [20.16].2 [24.97] 6 [19.99] 83.2 [24.38] 6 [19.72].8 [23.68] 6 [19.34] 94.7 [25] 70.8 [20.] [21] 69.9 [20.49] [28] 69.3 [20.31] [21] 6 [20.16] 8 [27] 6 [20.05] 8 [25.20] 6 [19.] 84.3 [24.71] 6 [19.72] 82.3 [24.12] 6 [16] 79.9 [23.42] 65.1 [18] 92.1 [29] 65.0 [15] [21] 64.2 [12] 8 [28] 63.6 [14] 8 [25.41] 63.2 [12].2 [24.97] 62.8 [10] 83.7 [24.53] 62.4 [19] 82.1 [24.06] 61.8 [11].1 [23.48] 61.0 [18] 7 [22.] 59.9 [15] 91.2 [23] 64.1 [19] [24] 63.4 [18] 8 [21] 62.8 [10] 8 [25.17] 62.4 [19] 84.4 [24.74] 62.0 [17] 82.9 [24.30] 61.5 [12] 81.2 [23.] 61.0 [18] 79.3 [23.24] 60.2 [14] 7 [22.57] 5 [19].4 [26] 8 [24] [21] 8 [25] 91.3 [26] 8 [25.15] 8 [26].3 [25.00] 8 [29] 84.9 [24.88] 8 [22] 84.3 [24.71] 84.6 [24.79] 83.6 [24.50] 82.5 [24.18] 82.5 [24.18].0 [23.45].0 [23.45] 94.4 [27] 8 [25] [22].5 [25.06] [26] 84.8 [24.] [27] 84.3 [24.71] 8 [25.53] 83.9 [24.59].4 [25.03] 83.3 [24.41] 83.6 [24.50] 82.7 [24.24] 81.6 [23.91] 81.6 [23.91] 7 [23.18] 7 [23.18] 92.0 [26].0 [23.45] [25] 7 [23.18] [22] 7 [23.01] 8 [22] 7 [22.86] 84.9 [24.88] 7 [22.74] 83.3 [24.41] 7 [22.60] 81.6 [23.91] 7 [22.42] 7 [23.33] 7 [22.16] 7 [22.63] 74.4 [21.] 91.1 [20] 7 [23.18] [28] 7 [22.92] [25.56] 7 [22.74].5 [25.06] 7 [22.60] 84.0 [24.62] 7 [22.48] 82.4 [24.15] 7 [22.33].7 [23.65] 7 [22.16] 7 [23.06] 74.7 [21.89] 7 [22.36] 73.5 [21.54] 8 [20] 72.5 [21.25] [28] 71.7 [21.01] [24.88] 71.2 [20.87] 83.3 [24.41] 70.7 [20.72] 81.8 [23.97] 70.4 [20.63].3 [23.53] 69.9 [20.49] 7 [23.04] 6 [20.34] 7 [22.48] 6 [20.10] 74.4 [21.] 6 [19.] 8 [23] 71.7 [21.01] [25.15] 70.9 [20.78] [24.62] 70.4 [20.63] 82.4 [24.15] 69.9 [20.49].9 [23.71] 69.5 [20.37] 7 [23.27] 6 [20.25] 7 [22.] 6 [20.08] 7 [22.21] 6 [19.84] 73.5 [21.54] 6 [19.52] NS: ➀ When the entering air dry bulb is other than [27 C], adjust the sensible capacity from the table by adding [1.10 x CF x (1 ) x (db )]. ➁ otal and sensible capacity is gross, with no deduction for indoor blower motor heat. ➂ input is gross, which does not include indoor blower motor. ➃ efer to the Systems Selection Performance Program and ata iskette to interpolate or extrapolate above data.

17 CLING PFANC AA CNNSING AI NI AW-091 HANL HGG-120H NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 3840 [1812] 3200 [1510] 2560 [1208] 3840 [1812] 3200 [1510] 2560 [1208] 3840 [1812] 3200 [1510] 2560 [1208] ➀ P A P A [2] [3] [4] CNNSING NI [2] [3] [4] AW-091 NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 3840 [1812] 3200 [1510] 2560 [1208] 3840 [1812] 3200 [1510] 2560 [1208] 3840 [1812] 3200 [1510] 2560 [1208] ➀ epression ratio db ntering air dry bulb wb ntering air wet bulb [33.06] 4 [13.48] [32.41] 45.0 [13.19] [31.86] 44.4 [13.01] [31.36] 43.8 [12.84] [30.89] 43.4 [12.72] [30.42] 42.9 [12.57] [29.89] 42.2 [12.37] 99.9 [29.28] 41.2 [12.07] 9 [25] 39.8 [11.66] [33.09] 4 [13.51] [32.44] 45.2 [13.25] [31.89] 44.5 [13.04] [31.39] 44.0 [12.].5 [30.92] 43.5 [12.] [30.45] 43.0 [12.60] [29.92] 42.3 [12.40].0 [29.31] 41.3 [12.10] 9 [20] 40.0 [11.72] [ ] esignates etric Conversions AI HANL 10 [31.89] 42.1 [12.34] [31.27] 41.2 [12.07] [30.74] 40.6 [11.] [30.24] 40.1 [11.] [29.81] 39.7 [11.63].1 [29.34] 39.2 [11.49] 9 [24] 3 [11.31] 9 [25] 3 [11.05] 94.0 [25] 3 [10.67] 10 [31.92] 42.2 [12.37] [31.30] 41.3 [12.10] [30.77] 40.7 [11.93] [30.30] 40.2 [11.78] [29.83] 39.8 [11.66].2 [29.37] 39.3 [11.52] 9 [27] 3 [11.34] 9 [28] 3 [11.08] 94.1 [28] 3 [10.73] [30.74] 3 [11.17] [30.13] 3 [10.93] [20] 3 [10.79] 99.5 [26] 3 [10.67] 9 [22] 3 [10.55] 9 [28] 35.5 [10.40] 94.8 [28] 35.0 [10.26] 92.9 [23] 34.2 [10.02].6 [25] 33.0 [7] HGG-120Z.0 [30.77] 3 [11.22] [30.16] 3 [10.99] [26] 3 [10.81] 9 [29] 3 [10.70] 9 [25] 3 [10.58] 9 [21] 3 [10.46] 94.9 [21] 35.1 [10.29] 93.0 [26] 34.3 [10.05].7 [28] 33.1 [9.70] otal otal capacity x 0 H Sens Sensible capacity x 0 H KW input [29.83] 81.4 [23.86] [29].5 [23.59] [23] 79.8 [23.39] 9 [23] 79.3 [23.24] 94.4 [27] 7 [23.09] 92.8 [20] 7 [22.] 91.0 [27] 7 [22.74] 8 [25] 7 [22.45] 8 [25].3 [22.07] [29.86] 81.6 [23.91] [29.22].6 [23.62] [26] 79.9 [23.42] [26] 7 [23.27] 94.5 [20] 7 [23.15] 92.9 [23] 7 [22.98] 91.1 [20] 7 [22.] 8 [21] 7 [22.51] 8 [28].4 [22.10] 9 [28] 74.5 [21.83] [26] 73.6 [21.57] [24] 73.0 [21.39] [24] 72.5 [21.25] 91.1 [20] 72.1 [21.13] 89.5 [23] 71.6 [20.98] 8 [23] 71.0 [20.81] 8 [25.15] 70.1 [20.54] 83.4 [24.44] 6 [20.19] 9 [24] 74.6 [21.86] [29] 73.7 [21.60] [27] 73.1 [21.42] 92.8 [20] 72.6 [21.28] 91.2 [23] 72.2 [21.16] 8 [26] 71.7 [21.01] 8 [26] 71.1 [20.84] 8 [25.17] 70.2 [20.57] 83.5 [24.47] 6 [20.22] 94.7 [25] 6 [19.78] [24] 6 [19.55].8 [21] 6 [10] 89.3 [27] 6 [19.25] 8 [23] 65.4 [17] 8 [25.29] 64.9 [12] 84.6 [24.79] 64.4 [17] 82.7 [24.24] 63.6 [14].4 [23.56] 62.4 [19] 94.8 [28] 6 [19.81] [27] 6 [11] [27] 6 [13] [20] 6 [19.31] 8 [26] 65.5 [19.20] 8 [22] 65.0 [15] 84.7 [24.82] 64.5 [10] 82.8 [24.27] 63.7 [17].5 [23.59] 62.5 [12] 9 [25].6 [25] [21] 8 [26] [25] 8 [25] [25] 8 [21].7 [28] 8 [26] 8 [21] 8 [21] 8 [25.59] 8 [25.41].2 [24.97].2 [24.97] 82.8 [24.27] 82.8 [24.27] 9 [28].7 [28] [23] 89.7 [29] [28] 8 [21] 92.4 [28] 8 [24].8 [21] 8 [22] 89.2 [24] 8 [27] 8 [21] 8 [25.47].4 [25.03].4 [25.03] 82.9 [24.30] 82.9 [24.30] 94.7 [25] 82.8 [24.27] [21] 82.0 [24.03].7 [28] 81.3 [23.83] 8 [21].9 [23.71] 8 [24].4 [23.56] 8 [25.20].0 [23.45] 84.2 [24.68] 79.3 [23.24] 82.2 [24.09] 7 [22.98] 79.9 [23.42] 7 [22.63] 94.8 [28] 83.0 [24.32] [27] 82.1 [24.06] [21] 81.5 [23.89] [24] 81.0 [23.74] 8 [20].6 [23.62] 8 [25.23].1 [23.48] 84.4 [24.74] 79.5 [23.30] 82.4 [24.15] 7 [23.04].0 [23.45] 7 [22.65] 91.2 [23].1 [22.01] [24] 74.3 [21.78] [21] 73.7 [21.60] 8 [25.15] 73.3 [21.48] 84.4 [24.74] 72.9 [21.36] 82.8 [24.27] 72.5 [21.25] 81.2 [23.] 71.9 [21.07] 79.3 [23.24] 71.1 [20.84] 7 [22.57] 70.0 [20.51] 91.3 [26].2 [22.04] [27] 74.4 [21.] 8 [24] 73.9 [21.66] 8 [25.20] 73.4 [21.51] 84.5 [24.76] 73.0 [21.39] 83.0 [24.32] 72.6 [21.28] 81.3 [23.83] 72.0 [21.10] 7 [23.27] 71.2 [20.87] 7 [22.60] 70.1 [20.54] NS: ➀ When the entering air dry bulb is other than [27 C], adjust the sensible capacity from the table by adding [1.10 x CF x (1 ) x (db )]. ➁ otal and sensible capacity is gross, with no deduction for indoor blower motor heat. ➂ input is gross, which does not include indoor blower motor. ➃ efer to the Systems Selection Performance Program and ata iskette to interpolate or extrapolate above data. heem anufacturing Company 17

18 CLING PFANC AA CNNSING NI P A [2] [3] [4] AW-079 AI HANL 18 heem anufacturing Company CJC-0 NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 3120 [1472] 2600 [1227] 20 [982] 3120 [1472] 2600 [1227] 20 [982] 3120 [1472] 2600 [1227] 20 [982] ➀ epression ratio db ntering air dry bulb wb ntering air wet bulb 89.8 [22] 5 [0] 8 [22] 5 [15] 8 [25.29] 5 [15] 84.4 [24.74] 5 [14] 82.5 [24.18] 55.5 [17].6 [23.62] 54.9 [19] 7 [23.15] 54.1 [16] 7 [22.74] 53.2 [15.59] 7 [22.45] 52.0 [15.24] [ ] esignates etric Conversions 8 [25.50] 52.9 [15.50] [25.03] 52.0 [15.24] [24.47] 51.3 [15.03] 81.6 [23.91] 50.6 [14.83] 79.7 [23.36] 50.0 [14.65] 7 [22.83] 4 [14.48] 7 [22.33] 4 [14.24] 74.8 [21.92] 4 [13.98] 73.8 [21.63] 4 [13.63] 84.2 [24.68] 4 [13.89] [24.21] 4 [13.63] [23.68] 4 [13.42] 7 [23.12] 45.1 [13.22] 7 [22.27] 44.5 [13.04].1 [22.01] 43.9 [12.87] 73.4 [21.51] 43.1 [12.63] 72.1 [21.13] 42.2 [12.37] 71.0 [20.81] 41.0 [12.02] otal otal capacity x 0 H Sens Sensible capacity x 0 H KW input 83.3 [24.41] 6 [19.96] [23.94] 6 [19] [23.39] 6 [16] 7 [22.83] 6 [19.28] 7 [22.27] 65.2 [11] 74.2 [21.] 64.5 [10] 72.5 [21.25] 63.8 [10] 71.1 [20.84] 62.8 [10] 70.1 [20.54] 61.7 [18].5 [23.59] 62.6 [15] [23.12] 61.7 [18] [22.60] 60.9 [15].2 [22.04] 60.3 [17] 73.2 [21.45] 59.7 [10] 71.4 [20.93] 5 [19] 69.7 [20.43] 5 [19] 6 [20.05] 5 [19] 6 [19.72] 5 [17] 7 [22.77] 5 [13] [22.30] 5 [17] 74.3 [21.78] 55.4 [14] 72.4 [21.22] 54.8 [16] 70.5 [20.66] 54.2 [18] 6 [20.10] 53.5 [18] 6 [14] 52.8 [15.47] 6 [19.23] 51.8 [15.18] 64.6 [13] 50.7 [14.86] 79.9 [23.42] 79.9 [23.42] [22.] 7 [22.] [22.42] 7 [22.42] 74.6 [21.86] 74.6 [21.86] 72.6 [21.28] 72.6 [21.28] 70.8 [20.] 70.8 [20.] 6 [20.25] 6 [20.25] 6 [19.84] 6 [19.84] 6 [19.55] 6 [19.84] 7 [22.60] 7 [22.21] [22.13] 74.8 [21.92] [21.60] 73.7 [21.60] 71.8 [21.04] 71.8 [21.04] 69.9 [20.49] 69.9 [20.49] 6 [19.93] 6 [19.93] 6 [16] 6 [16] 65.0 [15] 65.0 [15] 63.9 [13] 63.9 [13] 74.7 [21.89] 70.1 [20.54] [21.31] 6 [20.40] 70.9 [20.78] 6 [20.19] 6 [20.22] 6 [19.87] 6 [17] 6 [17] 6 [14] 6 [14] 63.6 [14] 63.6 [14] 62.2 [13] 62.2 [13] 61.2 [14] 61.2 [14] CNNSING CLING NI AW-079 CIL HGG-C0 NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 3120 [1472] 2600 [1227] 20 [982] 3120 [1472] 2600 [1227] 20 [982] 3120 [1472] 2600 [1227] 20 [982] ➀ P A [2] [3] [4] 92.7 [27] 5 [0] [20] 5 [12] 89.2 [24] 5 [11] 8 [25.59] 5 [11].4 [25.03] 54.7 [13] 83.6 [24.50] 54.1 [16] 81.9 [24.00] 53.3 [12].5 [23.59] 52.4 [16] 79.5 [23.30] 51.2 [15.01] 89.9 [25] 52.1 [15.27] 8 [28] 51.2 [15.01] 8 [25] 50.5 [14.] 84.6 [24.79] 49.8 [14.59] 82.6 [24.21] 49.2 [14.42].8 [23.68] 4 [14.24] 7 [23.18] 4 [14.01] 7 [22.] 4 [13.] 7 [22.48] 4 [13.39] 8 [25.53] 4 [13.66] [25.06] 4 [13.39] [24.53] 45.0 [13.19] 81.8 [23.97] 44.3 [12.98] 79.9 [23.42] 43.7 [12.81] 7 [22.86] 43.1 [12.63] 7 [22.39] 42.3 [12.40].0 [21.98] 41.4 [12.13] 74.0 [21.69] 40.2 [11.78] 8 [25.26] 6 [19.72] 84.6 [24.79] 6 [16] 82.8 [24.27] 6 [19.23].9 [23.71] 65.0 [15] 7 [23.12] 64.4 [17] 7 [22.60] 63.7 [17].4 [22.10] 63.0 [16] 74.1 [21.72] 62.1 [10] 73.0 [21.39] 60.9 [15] 83.4 [24.44] 61.8 [11] [23.97] 60.9 [15] [23.45] 60.1 [11] 7 [22.89] 59.5 [14] 7 [22.33] 5 [16] 74.3 [21.78] 5 [16] 72.7 [21.31] 5 [15] 71.3 [20.] 5 [19] 70.3 [20.60] 55.4 [14].7 [23.65] 5 [10] [23.18] 55.4 [14] [22.63] 54.6 [10].3 [22.07] 54.0 [13] 73.4 [21.51] 53.4 [15] 71.6 [20.98] 52.7 [15.44] 69.9 [20.49] 52.0 [15.24] 6 [20.08] 51.1 [14.98] 6 [19.78] 49.9 [14.62] 82.8 [24.27].4 [23.56] 81.2 [23.] 79.7 [23.36] 7 [23.27] 7 [23.06] 7 [22.71] 7 [22.71] 7 [22.16] 7 [22.16] 73.7 [21.60] 73.7 [21.60] 72.1 [21.13] 72.1 [21.13] 70.7 [20.72] 70.7 [20.72] 6 [20.40] 6 [20.40].1 [23.47].0 [21.98] [22.98] 73.9 [21.66] [22.45] 73.5 [21.54] 74.7 [21.89] 72.8 [21.34] 72.8 [21.34] 71.9 [21.07] 71.0 [20.81] 71.0 [20.81] 69.3 [20.31] 69.3 [20.31] 6 [19.] 6 [19.] 6 [11] 6 [11] 7 [22.65] 69.5 [20.37] [22.19] 6 [20.10] [21.66] 6 [19.87] 71.9 [21.07] 6 [19] 70.0 [20.51] 6 [19.52] 6 [19.99] 6 [19.31] 6 [19] 65.2 [11] 65.1 [18] 64.2 [12] 64.1 [19] 63.1 [19] NS: ➀ When the entering air dry bulb is other than [27 C], adjust the sensible capacity from the table by adding [1.10 x CF x (1 ) x (db )]. ➁ otal and sensible capacity is gross, with no deduction for indoor blower motor heat. ➂ input is gross, which does not include indoor blower motor. ➃ efer to the Systems Selection Performance Program and ata iskette to interpolate or extrapolate above data.

19 CLING PFANC AA CNNSING NI P A [2] [3] [4] NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 28 [1359] 2400 [1132] 1920 [6] 28 [1359] 2400 [1132] 1920 [6] 28 [1359] 2400 [1132] 1920 [6] ➀ epression ratio db ntering air dry bulb wb ntering air wet bulb 92.4 [28] 54.8 [16].5 [22] 54.0 [11] 8 [22] 53.4 [15] 8 [25.15] 52.7 [15.44] 84.5 [24.] 51.7 [15.15] 82.4 [24.14] 50.9 [14.92] 7 [23.33] 50.5 [14.78] 7 [22.70] 49.7 [14.55].3 [22.05] 4 [14.32] [ ] esignates etric Conversions.6 [25] 51.1 [14.98] 8 [21] 50.4 [14.76] [25.21] 49.9 [14.63] 84.2 [24.66] 49.2 [14.42] 82.2 [24.10] 4 [14.21].3 [23.52] 4 [14.00] 7 [22.92] 4 [13.78] 7 [22.31] 4 [13.55] 74.0 [21.69] 45.5 [13.33] 8 [21] 4 [13.82] [24.96] 4 [13.71] 83.3 [24.42] 4 [13.50] 81.6 [23.] 45.4 [13.30] 79.8 [23.37] 44.7 [13.10] 7 [22.83] 44.0 [12.89] 7 [22.27] 43.3 [12.68] 74.1 [21.70] 42.5 [12.46] 72.1 [21.11] 41.8 [12.24] otal otal capacity x 0 H Sens Sensible capacity x 0 H KW input 8 [25.17] 6 [19.26] [24.63] 64.9 [13] 82.1 [24.05] 64.1 [18].1 [23.47] 63.2 [11] 7 [22.89] 62.3 [16] 7 [22.36] 61.8 [10] 74.4 [21.81] 61.1 [19] 72.0 [21.09] 60.9 [15] 69.9 [20.48] 60.2 [15].3 [24.99] 60.6 [14] 83.5 [24.47] 59.7 [19] 81.6 [23.91] 5 [14] 79.7 [23.35] 5 [11] 7 [22.] 5 [12] 7 [22.15] 5 [17] 74.1 [21.71] 5 [13] 71.7 [21.01] 5 [17] 69.7 [20.42] 55.1 [14] 81.6 [23.92] 54.8 [16] [23.25] 54.6 [19] [22.73] 53.9 [18] 7 [22.43] 52.7 [15.43] 74.3 [21.77] 52.5 [17] 72.5 [21.23] 51.7 [15.16] 70.6 [20.70] 51.0 [14.94] 6 [20.16] 50.2 [ [10] 4 [14.49].4 [23.54] 7 [22.56] 7 [23.07] 7 [22.34] 7 [22.46] 7 [22.30].0 [21.98].1 [21.99] 74.8 [21.93] 74.8 [21.93] 72.5 [21.25] 72.5 [21.25] 70.9 [20.77] 70.9 [20.77] 69.2 [20.28] 69.2 [20.28] 6 [19.77] 6 [19.77] 7 [22.86] 71.3 [20.89] [22.41] 69.5 [20.36] 74.4 [21.] 69.5 [20.36] 72.6 [21.26] 6 [20.01] 71.2 [20.] 6 [19.93] 6 [20.35] 6 [17] 6 [19.83] 6 [11] 6 [19.25] 64.8 [18] 64.9 [11] 63.6 [12].5 [22.12] 63.0 [16] 74.0 [21.68] 62.2 [13] 72.3 [21.19] 61.4 [18] 70.3 [20.60] 61.5 [12] 6 [20.14] 60.8 [10] 6 [19.79] 5 [12] 65.4 [16] 59.2 [15] 63.7 [17] 5 [17] 62.2 [13] 5 [14] CNNSING CLING NI AW-091 CIL CJC-0 NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 34 [1642] 20 [1369] 2320 [10] 34 [1642] 20 [1369] 2320 [10] 34 [1642] 20 [1369] 2320 [10] ➀ P A [2] [3] [4] AW-079 AI HANL [33.20] 6 [0] [32.79] 6 [19.84] [32.15] 6 [11] 10 [31.36] 6 [19.28] [30.51] 64.5 [10] [29] 63.2 [12] 9 [28] 62.1 [10] 9 [25] 61.3 [17] 9 [23] 61.0 [18] CC-5013S [32.21] 61.6 [15] 10 [31.83] 61.2 [14] 10 [31.18] 60.4 [11] [30.39] 59.3 [18].8 [29.54] 5 [10] 9 [22] 5 [12] 9 [22] 5 [19] 94.1 [28] 54.8 [16] 93.6 [23] 54.5 [17] 10 [31.24] 55.1 [15].3 [30.86] 54.7 [13] [30.22] 53.9 [10].4 [22] 52.7 [15.44] 9 [27] 51.5 [15.09] 94.6 [22] 50.2 [14.71] 92.3 [25] 4 [14.39].8 [21] 4 [14.16].3 [26] 4 [14.07] [30.51] 7 [23.33] [30.13] 79.2 [23.21].6 [28] 7 [22.98] 9 [29] 7 [22.65] 94.9 [21] 7 [22.27] 92.1 [29] 74.7 [21.89] 89.8 [22] 73.6 [21.57] 8 [25] 72.8 [21.34] 8 [23] 72.5 [21.25].8 [29.54] 73.1 [21.42] 99.5 [26] 72.7 [21.31] 9 [22] 71.9 [21.07] 94.5 [20] 70.7 [20.72] 91.6 [25] 69.5 [20.37] 8 [22] 6 [19.99] 8 [25] 6 [17] 84.9 [24.88] 6 [13] 84.5 [24.76] 6 [19.34] 9 [27] 6 [19.52] 9 [29] 6 [10] 94.0 [25] 65.4 [17] 91.2 [23] 64.2 [12] 8 [28] 63.0 [16].5 [25.06] 61.7 [18] 83.2 [24.38] 60.6 [16] 81.6 [23.91] 59.8 [13] 81.2 [23.] 59.5 [14] [29.83] 8 [26].5 [25] 89.2 [24] 9 [21] 8 [21].5 [29] 8 [25.59] 92.6 [24] 8 [25.20] 89.8 [22] 84.7 [24.82] 8 [24] 83.6 [24.50] 8 [25.17] 82.8 [24.27].5 [25.06] 82.5 [24.18] 9 [27] 83.1 [24.35] 9 [29] 82.7 [24.24].0 [24] 81.9 [24.00] 92.2 [22].8 [23.68] 89.3 [27] 79.5 [23.30] 8 [25] 7 [22.92] 84.1 [24.65] 7 [22.60] 82.6 [24.21] 7 [22.36] 82.2 [24.09] 7 [22.27].2 [20] 7 [22.45] 93.8 [29] 7 [22.33] 91.6 [25].4 [22.10] 8 [25] 74.2 [21.] 8 [25.20] 73.0 [21.39] 83.2 [24.38] 71.7 [21.01].8 [23.68] 70.6 [20.69] 79.3 [23.24] 69.8 [20.46] 7 [23.12] 69.5 [20.37] NS: ➀ When the entering air dry bulb is other than [27 C], adjust the sensible capacity from the table by adding [1.10 x CF x (1 ) x (db )]. ➁ otal and sensible capacity is gross, with no deduction for indoor blower motor heat. ➂ input is gross, which does not include indoor blower motor. ➃ efer to the Systems Selection Performance Program and ata iskette to interpolate or extrapolate above data. heem anufacturing Company 19

20 CLING PFANC AA CNNSING NI P A [2] [3] [4] NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 28 [1359] 2400 [1132] 1920 [6] 28 [1359] 2400 [1132] 1920 [6] 28 [1359] 2400 [1132] 1920 [6] ➀ epression ratio db ntering air dry bulb wb ntering air wet bulb 92.4 [28] 54.8 [16].5 [22] 54.0 [11] 8 [22] 53.4 [15] 8 [25.15] 52.7 [15.44] 84.5 [24.] 51.7 [15.15] 82.4 [24.14] 50.9 [14.92] 7 [23.33] 50.5 [14.78] 7 [22.70] 49.7 [14.55].3 [22.05] 4 [14.32] [ ] esignates etric Conversions 20 heem anufacturing Company.6 [25] 51.1 [14.98] 8 [21] 50.4 [14.76] [25.21] 49.9 [14.63] 84.2 [24.66] 49.2 [14.42] 82.2 [24.10] 4 [14.21].3 [23.52] 4 [14.00] 7 [22.92] 4 [13.78] 7 [22.31] 4 [13.55] 74.0 [21.69] 45.5 [13.33] 8 [21] 4 [13.82] [24.96] 4 [13.71] 83.3 [24.42] 4 [13.50] 81.6 [23.] 45.4 [13.30] 79.8 [23.37] 44.7 [13.10] 7 [22.83] 44.0 [12.89] 7 [22.27] 43.3 [12.68] 74.1 [21.70] 42.5 [12.46] 72.1 [21.11] 41.8 [12.24] otal otal capacity x 0 H Sens Sensible capacity x 0 H KW input 8 [25.17] 6 [19.26] [24.63] 64.9 [13] 82.1 [24.05] 64.1 [18].1 [23.47] 63.2 [11] 7 [22.89] 62.3 [16] 7 [22.36] 61.8 [10] 74.4 [21.81] 61.1 [19] 72.0 [21.09] 60.9 [15] 69.9 [20.48] 60.2 [15].3 [24.99] 60.6 [14] 83.5 [24.47] 59.7 [19] 81.6 [23.91] 5 [14] 79.7 [23.35] 5 [11] 7 [22.] 5 [12] 7 [22.15] 5 [17] 74.1 [21.71] 5 [13] 71.7 [21.01] 5 [17] 69.7 [20.42] 55.1 [14] 81.6 [23.92] 54.8 [16] [23.25] 54.6 [19] [22.73] 53.9 [18] 7 [22.43] 52.7 [15.43] 74.3 [21.77] 52.5 [17] 72.5 [21.23] 51.7 [15.16] 70.6 [20.70] 51.0 [14.94] 6 [20.16] 50.2 [ [10] 4 [14.49].4 [23.54] 7 [22.56] 7 [23.07] 7 [22.34] 7 [22.46] 7 [22.30].0 [21.98].1 [21.99] 74.8 [21.93] 74.8 [21.93] 72.5 [21.25] 72.5 [21.25] 70.9 [20.77] 70.9 [20.77] 69.2 [20.28] 69.2 [20.28] 6 [19.77] 6 [19.77] 7 [22.86] 71.3 [20.89] [22.41] 69.5 [20.36] 74.4 [21.] 69.5 [20.36] 72.6 [21.26] 6 [20.01] 71.2 [20.] 6 [19.93] 6 [20.35] 6 [17] 6 [19.83] 6 [11] 6 [19.25] 64.8 [18] 64.9 [11] 63.6 [12].5 [22.12] 63.0 [16] 74.0 [21.68] 62.2 [13] 72.3 [21.19] 61.4 [18] 70.3 [20.60] 61.5 [12] 6 [20.14] 60.8 [10] 6 [19.79] 5 [12] 65.4 [16] 59.2 [15] 63.7 [17] 5 [17] 62.2 [13] 5 [14] CNNSING CLING NI AW-091 CIL HGG-0 NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 3120 [1472] 2600 [1227] 20 [982] 3120 [1472] 2600 [1227] 20 [982] 3120 [1472] 2600 [1227] 20 [982] ➀ P A [2] [3] [4] AW-091 AI HANL 10 [31.83] 64.9 [11] 10 [31.15] 64.0 [14] [30.43] 63.0 [16] [29.74] 62.1 [10] 9 [24] 61.2 [13] 9 [22] 60.9 [14] 93.8 [28] 60.0 [17] 91.2 [23] 5 [10] 8 [26] 5 [12] CJC-C [31.18] 60.2 [15] [30.54] 5 [19] [29.] 5 [12] 99.2 [26] 5 [14] 9 [28] 5 [10] 94.5 [29] 5 [16] 92.1 [28] 5 [10] 8 [26] 54.4 [15] 8 [25.53] 53.6 [10] [29.97] 54.8 [16].2 [29.37] 54.0 [13] 9 [22] 53.2 [15.58].4 [26] 52.4 [14] 93.8 [28] 51.6 [15.11] 91.6 [23] 50.7 [14.86] 89.3 [26] 49.9 [14.62] 8 [25.49] 49.3 [14.45].2 [24.98] 4 [14.10] [29.77] 7 [23.00] 99.5 [25] 7 [22.58] 9 [27] 7 [22.43] 94.6 [22] 7 [22.17] 92.3 [25] 74.7 [21.].3 [25] 73.1 [21.42] 8 [20] 72.9 [21.35].2 [24.] 71.9 [21.06] 82.7 [24.23] 70.9 [20.77] [29] 71.6 [20.97] 9 [20] 70.3 [20.60] 94.6 [22] 69.9 [20.47] 92.5 [20] 6 [20.22].8 [29] 6 [19.77] 8 [22] 6 [19] 8 [25.14] 6 [12] 83.5 [24.47] 6 [14] 81.1 [23.78] 64.4 [16] 9 [23] 63.9 [12] 93.7 [26] 63.0 [16] 91.2 [21] 62.7 [16] 89.2 [23] 61.8 [11] 8 [25.54] 61.0 [16].1 [24.92] 60.1 [11] 82.7 [24.24] 59.2 [14].7 [23.65] 5 [18] 7 [22.88] 5 [18] 94.9 [21] 91.8 [29] 92.7 [27].3 [26] 91.0 [26] 89.8 [22] 8 [29] 8 [28] 8 [25] 8 [25].4 [25.04].4 [25.04] 83.5 [24.46] 83.5 [24.46] 81.7 [23.] 81.7 [23.] 7 [23.28] 7 [23.28] 92.3 [23] 83.2 [24.39].3 [25] 82.4 [24.13] 8 [23] 81.3 [23.82] 8 [27] 7 [23.34] 84.2 [24.66] 7 [23.26] 82.1 [24.05] 7 [22.97] 79.9 [23.42] 7 [22.67] 7 [22.] 7 [22.25] 7 [22.19].3 [22.07] 8 [21] 73.8 [21.62] 8 [28] 72.9 [21.37] 84.7 [24.] 72.0 [21.10] 83.2 [24.37] 70.3 [20.60].9 [23.69] 70.3 [20.59] 7 [23.12] 6 [20.33] 7 [22.52] 6 [20.05] 74.8 [21.92] 6 [19.78] 72.4 [21.21] 6 [12] 9.2 NS: ➀ When the entering air dry bulb is other than [27 C], adjust the sensible capacity from the table by adding [1.10 x CF x (1 ) x (db )]. ➁ otal and sensible capacity is gross, with no deduction for indoor blower motor heat. ➂ input is gross, which does not include indoor blower motor. ➃ efer to the Systems Selection Performance Program and ata iskette to interpolate or extrapolate above data.

21 CLING PFANC AA CNNSING NI P A [2] [3] [4] AW-091 NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 3720 [16] 3 [1463] 24 [1170] 3720 [16] 3 [1463] 24 [1170] 3720 [16] 3 [1463] 24 [1170] ➀ epression ratio db ntering air dry bulb wb ntering air wet bulb [33.26] 69.3 [0] [32.88] 6 [20.19].0 [32.24] 6 [19.96] 10 [31.45] 6 [14] [30.60] 6 [19.25] [29.78] 64.4 [17] 99.2 [27] 63.3 [15] 9 [23] 62.5 [12] 9 [29] 62.2 [13] 9.3 [ ] esignates etric Conversions CLING CIL HGG [32.30] 62.8 [10] 10 [31.92] 62.4 [19] 10 [31.27] 61.6 [15] [30.48] 60.5 [13] [23] 59.2 [15] 9 [28] 5 [17] 9 [21] 5 [15] 94.4 [27] 5 [11] 93.9 [22] 5 [12] 10 [31.33] 5 [10] 10 [30.] 5 [18] [30.30] 55.1 [15].7 [29.51] 53.9 [10] 9 [23] 52.7 [15.44] 94.9 [21] 51.4 [15.06] 92.6 [24] 50.3 [14.74] 91.0 [27] 49.5 [14.51].6 [25] 49.2 [14.42] otal otal capacity x 0 H Sens Sensible capacity x 0 H KW input [30.60].8 [23.68] [30.22].4 [23.56].9 [29.57] 7 [23.33] 9 [25] 7 [23.01].2 [20] 7 [22.63] 92.4 [28] 7 [22.24].1 [21] 74.8 [21.92] 8 [24] 74.0 [21.69] 8 [22] 73.7 [21.60] [23] 74.3 [21.78] 99.8 [29.25] 73.9 [21.66] 9 [20] 73.1 [21.42] 94.8 [28] 72.0 [21.10] 91.9 [23] 70.7 [20.72] 8 [21] 6 [20.34] 8 [25.44] 6 [20.02].2 [24.97] 6 [19.78] 84.8 [24.] 6 [19] 9 [26] 6 [19.87] 9 [25] 6 [19.] 94.3 [24] 6 [19.52] 91.5 [22] 65.4 [17] 8 [27] 64.2 [12] 8 [25.15] 62.9 [13] 83.4 [24.44] 61.8 [11] 81.9 [24.00] 61.0 [18] 81.5 [23.89] 60.7 [19] [29.92].8 [21].8 [29.54].4 [29] 9 [20] 8 [26] 9 [28] 8 [24] 92.9 [23] 8 [25.56].1 [21] 8 [25.17] 8 [20] 84.8 [24.] 8 [25.26] 84.0 [24.62] 8 [25.15] 83.7 [24.53] 9 [26] 84.3 [24.71] 9 [25] 83.9 [24.59].2 [20] 83.1 [24.35] 92.5 [21] 82.0 [24.03] 8 [26].7 [23.65] 8 [25.44] 7 [23.27] 84.4 [24.74] 7 [22.] 82.9 [24.30] 7 [22.71] 82.5 [24.18] 7 [22.63].5 [29] 7 [22.] 94.1 [28] 7 [22.68] 91.9 [23] 7 [22.45] 89.2 [24].4 [22.10] 8 [25.29] 74.2 [21.] 83.5 [24.47] 72.9 [21.36] 81.1 [23.77] 71.8 [21.04] 7 [23.33] 71.0 [20.81] 79.2 [23.21] 70.7 [20.72] CNNSING AI NI AW-091 HANL CC-5013S NING IN [2 C] db ➀ wb 71 [21.7 C] 67 [1 C] 63 [1 C] CF [L/s] 3120 [1472] 2600 [1227] 20 [982] 3120 [1472] 2600 [1227] 20 [982] 3120 [1472] 2600 [1227] 20 [982] ➀ P A [2] [3] [4] 10 [31.83] 64.9 [11] 10 [31.15] 64.0 [14] [30.43] 63.0 [16] [29.74] 62.1 [10] 9 [24] 61.2 [13] 9 [22] 60.9 [14] 93.8 [28] 60.0 [17] 91.2 [23] 5 [10] 8 [26] 5 [12] 10 [31.18] 60.2 [15] [30.54] 5 [19] [29.] 5 [12] 99.2 [26] 5 [14] 9 [28] 5 [10] 94.5 [29] 5 [16] 92.1 [28] 5 [10] 8 [26] 54.4 [15] 8 [25.53] 53.6 [10] [29.97] 54.8 [16].2 [29.37] 54.0 [13] 9 [22] 53.2 [15.58].4 [26] 52.4 [14] 93.8 [28] 51.6 [15.11] 91.6 [23] 50.7 [14.86] 89.3 [26] 49.9 [14.62] 8 [25.49] 49.3 [14.45].2 [24.98] 4 [14.10] [29.77] 7 [23.00] 99.5 [25] 7 [22.58] 9 [27] 7 [22.43] 94.6 [22] 7 [22.17] 92.3 [25] 74.7 [21.].3 [25] 73.1 [21.42] 8 [20] 72.9 [21.35].2 [24.] 71.9 [21.06] 82.7 [24.23] 70.9 [20.77] [29] 71.6 [20.97] 9 [20] 70.3 [20.60] 94.6 [22] 69.9 [20.47] 92.5 [20] 6 [20.22].8 [29] 6 [19.77] 8 [22] 6 [19] 8 [25.14] 6 [12] 83.5 [24.47] 6 [14] 81.1 [23.78] 64.4 [16] 9 [23] 63.9 [12] 93.7 [26] 63.0 [16] 91.2 [21] 62.7 [16] 89.2 [23] 61.8 [11] 8 [25.54] 61.0 [16].1 [24.92] 60.1 [11] 82.7 [24.24] 59.2 [14].7 [23.65] 5 [18] 7 [22.88] 5 [18] 94.9 [21] 91.8 [29] 92.7 [27].3 [26] 91.0 [26] 89.8 [22] 8 [29] 8 [28] 8 [25] 8 [25].4 [25.04].4 [25.04] 83.5 [24.46] 83.5 [24.46] 81.7 [23.] 81.7 [23.] 7 [23.28] 7 [23.28] 92.3 [23] 83.2 [24.39].3 [25] 82.4 [24.13] 8 [23] 81.3 [23.82] 8 [27] 7 [23.34] 84.2 [24.66] 7 [23.26] 82.1 [24.05] 7 [22.97] 79.9 [23.42] 7 [22.67] 7 [22.] 7 [22.25] 7 [22.19].3 [22.07] 8 [21] 73.8 [21.62] 8 [28] 72.9 [21.37] 84.7 [24.] 72.0 [21.10] 83.2 [24.37] 70.3 [20.60].9 [23.69] 70.3 [20.59] 7 [23.12] 6 [20.33] 7 [22.52] 6 [20.05] 74.8 [21.92] 6 [19.78] 72.4 [21.21] 6 [12] 9.2 NS: ➀ When the entering air dry bulb is other than [27 C], adjust the sensible capacity from the table by adding [1.10 x CF x (1 ) x (db )]. ➁ otal and sensible capacity is gross, with no deduction for indoor blower motor heat. ➂ input is gross, which does not include indoor blower motor. ➃ efer to the Systems Selection Performance Program and ata iskette to interpolate or extrapolate above data. heem anufacturing Company 21

22 PICAL FIGAN PIPING CNAINS General Notes: 1. Vertical risers not to exceed 60 feet [19 m]. 2. Locate the condensing unit and evaporator(s) as close together as possible to minimize piping runs. 3. Condensing units are shipped with a nitrogen holding charge. vacuate condensing unit before charging with refrigerant. SIZ (IN.) [mm].. QIVALN LNGH (F.) [m] F SAIGH P L ING F NN-FS VALVS AN FIINGS (AZ) SL- NI VALV ANGL VALV SH AIS LL LNG AIS LL LIN FLW ANCH FLW LIQI LIN 1/2 [12.7] 70 [21.34] 24 [2] 4.7 [1.43] 3.2 [0.98] 1.7 [0.52] [2.01] 5/8 [18] 72 [21.] 25 [2] [1.74] 3.9 [1.19] 2.3 [0.70] [2.50] 3/4 [15] [22.86] 25 [2] [1.98] 4.5 [1.37] 2.9 [0.88] 9.7 [3.00] 7/8 [22.23] 78 [23.77] 28 [3] [2.38] [1.62] 3.7 [1.13] 12.0 [3.66] SCIN LIN 1 1 /8 [28] 87 [22] 29 [4] 2.7 [0.82] 1.9 [0.58] 5.2 [1.59] [2.44] 1 3 /8 [34.93] 102 [31.09] 33 [10.06] 3.2 [0.98] 2.2 [0.67] [2.10] 10.0 [3.05] 1 5 /8 [41.28] [35.05] 34 [10.36] 3.8 [1.16] 2.6 [0.79] [2.65] 12.0 [3.66] 2 1 /8 [53.98] 141 [42.98] 39 [11.89] 5.2 [1.59] 3.4 [1.04] 12.0 [3.66] 1 [4.88] LIQI LIN PSS P P F [30.48 m] QIVALN LNGH (P L CPP ING) CN VAP AN LIQI LIN SIZS F VAIS LNGHS F N LINA LIQI LIN.. LNGH SIZS (IN.) [mm] (F.) [m] 078/ * 078/ [0-4.57] 1/2 [12.7] 1/2 [12.7] 1 1 /8 [28] [ ] 1/2 [12.7] 1/2 [12.7] 1 1 /8 [28] 51- [ ] 1/2 [12.7] 1/2 [12.7] 1 1 /8 [28] [ ] 1/2 [12.7] 1/2 [12.7] 1 3 /8 [34.93] VAP LIN.. SIZS (IN.) [mm] VAP LIN SS CAPACI LSS IN PCN P F [30.48 m] QIVALN LNGH (P L CPP ING) /8 [28] 1 1 /8 [28] 1 3 /8 [34.93] 1 3 /8 [34.93] N: uns between condenser and evaporator not to exceed 150' [4 m] linear length. *See note ➃ under liquid line pressure drop chart. se 5 /8" [18 mm] liquid line with solenoid valve. NS: 1) When evaporator coil is above condenser, the pressure drop due to vertical lift (.5 PSIG per foot of lift) [1.05 kpa per meter] must be added to the pressure drop derived from this curve. 2) Size liquid line for no more than 10 loss (approximately 30 PSIG [20 kpa] total pressure drop). 3) o not oversize liquid line. versized liquid lines add significantly to the amount of refrigerant required to charge the system. 4) he maximum recommended velocity with solenoid valves or other quick closing devices in the liquid line is 300 FP [1.5 m/s]. CIL AV CNNSING NI N: SLNI VALV IS WI F ISLAIN NL, N PP WN. NS: 1) he minimum velocity line (700 fpm) [3.6 m/s] is recommended. 2) For vapor pressure drop (PSIG) [ kpa], multiply percent (%) loss by ) Size vapor lines for no more than 2 [1.1 C] loss which corresponds to approximately 3 PSIG [20.7 kpa] pressure drop. 4) Pitch all horizontal vapor lines downward in the direction of flow ( 1 /2" [12.7 mm] to10' [3.0 m] run). WANING o not use oxygen to purge lines or pressure system for leak test. xygen reacts violently with oil, which can cause an explosion resulting in severe personal injury or death. CIL LW CNNSING NI 22 heem anufacturing Company [ ] esignates etric Conversions