Catalogue DX SPLIT UNIT Carrier

UNIT MODELS & NOMENCLATURE UNIT MODELS MODEL NOMENCLATURE VERTICAL PACKAGED SYSTEMS 50UB 55 50UB SERIES VERTICAL NOMINAL 50UB - 55 PACKAGE COOLING CAPACITY 50UB - 90 50UB - 110 55 = 55 MBh 50UB - 145 90 = 90 MBh 50UB - 180 110 = 110 MBh 50UB - 240 145 = 145 MBh 180 = 180 MBh 240 = 240 MBh SPLIT SYSTEMS 38BB 55 38BB SERIES CONDENSING NOMINAL UNITS COOLING CAPACITY 38BB - 55 55 = 55 MBh 38BB - 90 90 = 90 MBh 38BB - 110 110 = 110 MBh 38BB - 145 145 = 145 MBh 38BB - 180 180 = 180 MBh 38BB - 240 240 = 240 MBh 40AB 55 40AB SERIES evaporator NOMINAL UNITS COOLING CAPACITY 40AB - 55 55 = 55 MBh 40AB - 90 90 = 90 MBh 40AB - 110 110 = 110 MBh 40AB - 145 145 = 145 MBh 40AB - 180 180 = 180 MBh 40AB - 240 240 = 240 MBh 1 An evaporator section (40AB) and a condenser section (38BB) of matching size. galvanized steel sheet metal. TAKE A LOOK AT THESE FEATURES TRUE POWERFUL COOLING TROPICALLIZED .Thank you for your choice of Carrier vertical packaged / split systems. art * Side panels insulated with 10 mm self-extinguishing galleries. . condenser coils and rmance. Inlet evap. laboratories. offices and homes. to work in very high ambient temperatures up to 52 oC 50UB efficient compressors lead to true unit cooling Perfo. shops. Coil air 19 14 * The control panel is located in a separate compartment and can Max. CE CERTIFIED . CONSTRUCTION SPLIT OR VERTICAL PACKAGED * Weather proof made of chemically treated.50UB series vertical packaged systems and (38BB + 40AB) series split systems are CE certified according to European regulations and norms of safety which are: Low Voltage Directive LVD Electro-Magnetic Compatibility Directive EMC Machinery Directive MD 2 . thermal and acoustic insulation. due to efficient compressor.All materials included in Carrier split or vertical packaged systems conform with the international standards of safety. RELIABILITY AND SAFETY must be used . These fine products have been carefully designed and manufactured under strict quality conditions to give you full satisfaction through efficient operation with minimum maintenance and service. Min. EASY SERVICE AND MAINTENANCE OPERATING LIMITS * The units have access from all side excellent compressor(s) access and removal if necessary. maintaining the same quality/ price ratio. * Carrier split or vertical packaged systems are ideal for installation in new buildings or refurbishment projects in * Powder painted with perfect adhesion of a highly existing buildings. which our competitors will find difficult to equal.Quality is ensured through receiving inspection testing and through all stages of manufacturing. performance and reliability. Coil air 35 21 Min. In addition to true cooling. Max. Carrier 50UB series have advanced features and performance level. They are designed for small and medium resistant polyester paint. Condensate water can be removed on each or both unit Temp. optional head pressure conrol QUALITY. Inlet evap. Inlet cond. Carrier 50UB series were born of a very simple concept: " An excellent product isn't enough. All access panels have Dry Bulb Wet Bulb Temperature OC handles. Enhanced cooling capacity delivers more comfort than Carrier vertical packaged and split systems are designed competitors. sales. ºC side. . it must offer more than its competitors ". Coil air 19* * For lower temperatures. installation and servicing to finally ensure customer full satisfaction according to ISO 9001 Quality System. evaporator coils. The declared capacity of the unit conforms with ARI standard which ensure highest level of cooling capacity to be maintained LONG LIFE. CORROSION RESISTANT AND SOLID long time period. Inlet cond. such as restaurants. Coil air 52 be inspected without disturbing unit operation. The units consist of two sections: * Components are suitable for any climate. ºC Temp. sized air conditioning systems for commercial and residential applications. .Split system is delivered from the factory with evaporator indoor air return design enables installation against the wall units having horizontal air discharge (case 1). 1) 2. (See Fig. Condensing It can be installed in low rise buildings and is also well suited to Section high rise buildings. When applied as a split system. Section VERSATILITY OF LOCATION AND INSTALLATION Units can be installed in office area.Evaporator unit can be field converted for vertical air LOW INSTALLATION COST discharge by using accessory supports (case 2). storage. charged. factory as per the following arrangements: The control box is fully wired to European codes. . Vertical packaged system can be delivered from the Condensate water can be removed on each or both sides. system installed in interior zone with ducted condensing and evaporator units. interconnecting refrigerant piping. system installed outdoor with ducted evaporator air Fig (2) section. the condensing unit Section refrigerant piping connections are possible at the top or left or right side. Only the installation of an isolator and fuses and connection to the power supply.COMPACT DESIGN AND LIGHT WEIGHT VERSATILITY OF AIR DELIVERY Units occupies limited space and has reduced weight. Evaporator When system is installed as split. Front . to air ducts. and tested. Their installation requires followings connections: electrical power supply to thermostat and eventually. Units are designed to provide high efficiency and dependable operation for many years. 5. It is suitable for Arrangemen Evaporator Evaporator outdoor applications. (See Fig. 2) 4. 2) ② ③ ④ Fig (1) ① ① 3 . They can be placed close to the outside wall or at remote location because Evaporator condenser air section can be ducted. condensing unit can be installed inside or outside of the building with water tight duct connections. Two system installed in interior zone of the motel with C Horizontal front Vertical ducted evaporator air sections and through the wall D Horizontal front Horizontal back outdoor air intake and discharge. and in 1 2 case of split system. (See Fig. or stock room or other areas and no machine room is needed. 2) 3. They are delivered factory wired. Section The evaporator unit can be ducted or installed for free blow application with discharge air plenum. (See Fig. t Air Return Air Discharge A Horizontal back Vertical TYPICAL INSTALLATION (Vertical Packaged system) B Horizontal back Horizontal front 1. system installed in a storage area with ducted indoor air discharge and with through the wall outdoor air intake and ⑤ discharge. system installed with discharge plenum and with through the wall outdoor air intake and discharge. Unit can be installed indoor or outdoor. The evaporator unit can have refrigerant piping Condensing installed on left or right side. . CONDENSER MOTOR . The two independent circuits design ensures partial * Built in oil pump load operation. and solder particles and all types of Efficient and Tropicallized design: foreign materials from refrigerant circuit. GENERAL DESCRIPTION CONDENSING UNIT REFRIGERANT CIRCUIT COMPRESSOR .Belt drives with fixed pitch blower pulley and adjustable OPTIONS motor pulley .1 minute time delay for to avoid simultaneous starting of both compressors for dual compressors units. joints brazed by sliver brazing alloys.Precoated aluminium fins for condenser coil means of adjustable pulley from 80% to 120% of nominal values. high water diffusion and high sound absorption. * 100 % suction gas cooled. * Advanced internal spring mounting. For units 110. These overloads mounted on definite purpose contactors of quite operation. . . All electrical components are UL approved and recognized. against extreme conditions and quality control BLOWERS DRIVE approved before leaving the factory. which has excellent thermal conductivity. components and materials selected for compatibility.Voltage protector against low voltage. .Crankcase heater to guard compressor against flood back conditions and to eliminate oil fluffing on start up . . The unit is completely factory assembled. * Double inlet centrifugal blowers with forward curved blades. and charged with holding R22 charge. * Optimum condensing surfaces. high voltage phase reversal and phase loss. . . SUPER SAFETY PROTECTIONS .Internal pressure relief valve for compressor protection against high discharge pressures. efficiently remove CONDENSER COILS moisture. * Multiple cylinder for knock prevention. refrigerant to be temporaily stored in the condenser * Cross counter Flow of refrigerant to air path. Pumping down valves fitted in liquid lines to enable * Optimum Number of coil circuits. * Three phase motor IP55. . reliability and high efficiency. * Advanced internal discharge muffler.4 minutes time delay for compressor protection against short cycling when power off or thermostat off. * Drives blowers through adjustable pulleys. 4 . coil if the refrigerant is to be repaired or some part of * Full condensation with efficient liquid sub cooling. low suction pressures and refrigerant leak.External sensitive quick trip overloads for compressors and motors protection against excessive current. * Well-designed suction and discharge lines. * External resilient rubber grommets for vibration isolation. scale. Two independent refrigerant circuits built up of * F class insulation class for compressor motor.Internal overloads for compressors and motors protection against excessive temperature and/or excessive current. 180 and 240. .All condenser blowers are factory set to give 100% nominal ambient temperatures. Rotalock suction and discharge valves fitted on CONDENSER BLOWERS compressor for servicing. tested free bearings. 145. * Modified sine aluminum fins. pressure and airflow values and these may be field varied by . . Insulated suction line with flexible synthetic rubber * Class F insulation insulation. . Entirely deoxidized dehydrated copper tubes with Heavy-duty hermetic reciprocating compressor use R-22.. the refrigeration system to be replaced * Coils are leak tested at 450 PSI. Filter driers fitted in liquid lines.Dual high/low pressure control for compressor protection against high discharge. electrically * Statically and dynamically balanced running in maintenance wired.Head pressure control for unit operation at lower . . . Heater frame is constructed from galvanized steel and bracket.Remote sensor up to 5 m for thermostat the first stage cannot handle the load. tested against extreme conditions and quality pressure and airflow values and these may be field varied by control approved before leaving the factory. motor pulley. OPTIONS • There is a differential between stages (interstage . EVAPORATOR BLOWERS .Meets UL filter requirements. * Three phase motor IP55. powder painted with perfect adhesion of a highly . insulation. differential) so that the second stage makes only when . * Coils are leak tested at 450 PSI.Temperature limiter protection for electric heater against excessive heating temperatures in case of . 180 and 240 two independent refrigerant circuits built up of components and EVAPORATOR COIL materials selected for compatibility. holding capacity for longer service life and increased overall performance. . heating and fan operation. . For units 110. . THERMOSTAT . which has excellent thermal conductivity. 145. electrically wired. • The two stages of cooling make sequentially as the . GENERAL DESCRIPTION EVAPORATOR UNIT REFRIGERANT CIRCUIT EVAPORATOR MOTOR . The two independent circuits design ensures partial * Modified sine aluminum fins. bearings. ELECTRIC HEATER AIR FILTERS . * Cross counter Flow of refrigerant to air path. System : COOL. The evaporator unit is completely factory assembled.All units supplied with accessory thermostat and mounted .Bonded EZ KLEAN aluminum filtering media with high dust .All evaporator blowers are factory set to give 100% nominal charge. load operation. . BLOWERS DRIVE . VDE Standard.All electrical components are UL approved and temperature rises. high water diffusion and high sound absorption. Finned aluminum heating elements for efficient and .Sensitive operates on 220V supply from the unit to the control vary according to unit size.Long life. external pressure equalizer in all units to control * Statically and dynamically balanced running in maintenance free refrigerant flow to evaporator coil. . Electric heaters include thermal protection. uniform heating. A distributor ensures uniform supply of gas to the evaporator coil. * Drives blowers through adjustable pulleys. means of adjustable pulley from 80% to 120% of nominal values.. * Optimum Number of coil circuits. and charged with R22 holding .HEAT SUPER SAFETY PROTECTIONS Fan : ON-AUTO ON/OFF . permanent and cleanable. contactors and all appropriate internal wiring. Self-regulating thermostatic expansion valves with * Double inlet centrifugal blowers with forward curved blades. . * Optimum evaporating surface. recognized. 5 . reliability and Efficient design: high efficiency. Insulated suction line with flexible synthetic rubber * Full evaporation with vapor superheating. cooling.Conversion kit for evaporator vertical discharge.Belt drives with fixed pitch blower pulley and adjustable .The thermostat includes the following functions: resistant polyester paint. • The two stages of heating make sequentially as the temperature drops.For two stage thermostat: malfunction of evaporator motor. The rating of heaters and number of stages available . Entirely deoxidized dehydrated copper tubes with * Class F insulation joints brazed by sliver brazing alloys. 2 12. (2) Mains fuses and mains power switch are field installed. is based on the following conditions: 27/19ºC DBT/WBT Return Air to Indoor Evaporator Unit.2 14. 6 .5 2 X 4.75 1.5 2. of Refrigerant Circuits 1 1 2 2 2 2 Refrigerant Control Expansion Valve Refrigerant Lines Suction : Diameter – Qty 7/8” .2 26. ELECTRICAL DATA Vertical Packaged 50UB-55 50UB-90 50UB-110 50UB-145 50UB-180 50UB-240 System Model 38BB-55 38BB-90 38BB-110 38BB-145 38BB-180 38BB-240 Split + 40AB-55 + 40AB-90 + 40AB-110 + 40AB-145 + 40AB-180 + 40AB-240 NOMINAL POWER SUPPLY V/3Ph/50Hz 380-420 Minimum Volts – Maximum Volts 342-456 360-440 342-456 360-440 360-440 360-440 Kw (1) 7.9 8.9 5.000 171.9 6. The installer should place 3(Three) Fuses and 1 (One) mains isolator of capacities as shown in the table.8 15.7 25.5 2.2 4 HP 1 1.1 22.7 Maximum Continuous Current (MCC) 16 22 16 18 22 36 CONDENSER MOTOR Power Supply V/3Ph/50Hz 400 ± 10 % KW 1.5 130 Running Load Amperes (RLA) 8.700 109.98 25.1 1/2” .1 2 x 4.5 3 2.2 32.2 1/2” .5 26.5 2 2.4 34.1 1/2” .2 No.2 3 3 3 4 HP 2 2.75 16.9 Cooling Consumption Amps (1) 13 23 26 41.2 34. Air Flow and 35ºC Outdoor Ambient Temperature.000 230.5 2.9 2.5 Starting Current Amps 88 129 173 195 239 343 Mains Fuse Rating (2) Amps 25 40 50 80 80 100 Mains Power Switch (2) Amps 25 40 50 80 80 100 Wiring Section (3) mm² 6 10 16 35 35 35 COMPRESSOR Power Supply V/3Ph/50Hz 380-420 Minimum Volts 342 360 342 360 360 360 Maximum Volts 456 440 456 440 440 440 Locked Rotor Amperes (LRA) 62 78.97 42.2 32.1 16.12 31.4 Full Load Amperes 1.25 11. 100% nominal Evap. (3) The specified wiring section refers to copper conductors a 3-core cable having a maximum length of 20 meter.1 1.2 15.7 3.2 5/8” ..5 8.1 1-1/8” – 1 7/8” – 2 1-1/8” – 2 1-1/8” – 2 1-1/8” – 2 Liquid: Diameter – Qty 1/2” .5 43 60 Kw 6.9 2.9 4 4 4 5.3 2 x 5.5 6.2 Drain Line ID 3/4” Heating Capacity Kw 6 15 15 18 18 22.5 Heating Consumption Amps 11 25.8 27.6 2 x 8.4 21.5 19.3 4.5 62 80 78.4 Full Load Amperes 3. TECHNICAL DATA Vertical Packaged System Model 50UB-55 50UB-90 50UB-110 50UB-145 50UB-180 50UB-240 Condensing Unit Model 38BB-55 38BB-90 38BB-110 38BB-145 38BB-180 38BB-240 Split System Evaporator Unit Model 40AB-55 40AB -90 40AB-110 40AB-145 40AB-180 40AB-240 Btu/hr 54.5 Number of Heating Elements 6 6 6 6 6 9 Kw Per Heating Element 1 2.0 34.5 4.5 2.5 20.3 ELECTRIC HEATER Total Output Kw 6 15 15 18 18 22.5 6.8 22.000 Nominal Cooling Capacity* Kw 15.000 144.2 (1) Outdoor air temperature 35ºC db.2 2.3 EVAPORATOR MOTOR Power Supply V/3Ph/50Hz 400 ± 10 % KW 0.4 27.12 67.500 85.5 4. For lengths exceeding 20 meter resize wires accordingly.2 1/2” .9 4.2 20.5 Number of Stages 1 1 2 2 2 2 Full Load Amperes 9.7 8.5 * Cooling Capacity.20 50.41 Refrigerant Type R22 Charge (Split System) Kg Holding Total Charge (Vertical Packaged System) Kg 4. Indoor air temperature 19ºC wb. 5 2.612 17.9 4 4 4 5.600 10.000 18. mm 150/25 150/25 150/25 150/25 150/25 290/30 BELT Quantity 1 2 2 2 2 2 Size A40 A41 A41 A71 A71 A80 MOTOR PULLEY Type Adjustable Pitch – Cast Iron Number of Grooves 1 2 2 2 2 2 External Diam / Shaft Diam.8 15. 5-3/8” 4-3/8” 5-3/8” 5-3/8” 5-3/8” 6-1/2” Number of Fins per Inch 14 14 14 14 14 12 Type / Material Tubes-Fins Grooved / Copper Tubes – Corrugated Aluminium Fins CONDENSER MOTOR Power Supply V/3Ph/50Hz 400 ± 10 % KW 1.1 1/2” – 1 1/2” .000 13.2 7 . TECHNICAL DATA CONDENSING UNIT MODEL 38BB-55 38BB-90 38BB-110 38BB-145 38BB-180 38BB-240 COMPRESSOR Power Supply V/3Ph/50Hz 380-420 380-420 380-420 380-420 380-420 380-420 Type HERMETIC Quantity 1 1 2 2 2 2 R.600 14.P.000 Air Flow Range m³/hr 4200-6300 7600-11.4 Full Load Amperes 3.3 BLOWER PULLEY Type Fixed Pitch – Cast Iron Number of Grooves 1 2 2 2 2 2 External Diam. mm 100/24 100/28 100/28 100/28 100/28 125/28 Width 890 1338 1338 1593 1593 2088 Height 1069 1165 1165 1405 1405 1405 DIMENSIONS (mm) Depth 753 766 766 824 824 1060 Height with Feet 1169 1265 1265 1505 1505 1505 NET WEIGHT Kg 170 290 230 355 355 635 REFRIGERANT PIPING LINES Suction: Diameter – Qty 7/8” .2 5/8” .2 1/2” .1 1-1/8” – 1 7/8” – 2 1-1/8” – 2 1-1/8” – 2 1-1/8” – 2 Liquid: Diameter – Qty 1/2” .M.145 Number of Rows-Tube Diam.5 4. at 50 Hz 2950 Protection Internal Crankcase heater 220V/1PH Quantity 1x30 1x35 2x30 2x35 2x35 2x35 Type PTCR Minimum Volts 342 360 342 360 360 360 Maximum Volts 456 440 456 440 440 440 Locked Rotor Amperes (LRA) 62 78.612 11.7 8.2 1/2” .5 6.5 130 Running Load Amperes (RLA) 8.5 62 80 78.000 13./ Shaft Diam.400-15.400-15.2 12.400-21.2 15.000 10.9 6.5 8.400 8000-12.7 Motor Cutout Current (MCC) 16 22 16 18 22 36 CONDENSER BLOWERS Quantity 1 2 2 2 2 2 Nominal Air Flow m³/hr 5250 9500 10.5 6.600 Type Centrifugal – Double Inlet – Forward Curved Blades CONDENSER COIL Total Face Area cm² 4943 9000 9000 11.2 3 3 3 4 HP 2 2.7 27. Material Fixed Pitch – Cast Iron Number of Grooves 1 1 1 2 2 2 External Diam.7 3.1 1-1/8” – 1 7/8” – 2 1-1/8” – 2 1-1/8” – 2 1-1/8” – 2 Liquid: Diameter – Qty 1/2” .5 2.1 1.1 22. mm 125/20 125/20 125/20 125/20 125/20 175/20 MOTOR PULLEY Type Adjustable Pitch – Cast Iron Number of Grooves 1 1 1 2 2 2 External Diam / Shaft Diam.240 9600-14.4 27.4 Full Load Amperes 1.8 27.5 3 3 2.2 1/2” .5 997 997 1234.9 4.8 22.2 1/2” .5 939.2 4 HP 1 1.2 5/8” – 2 8 .5 2 2. TECHNICAL DATA EVAPORATOR UNIT MODEL 40AB-55 40AB –90 40AB-110 40AB-145 40AB-180 40AB-240 EVAPORATOR BLOWER Quantity 1 2 2 2 2 2 Nominal Air Flow m³/hr 3400 5100 6000 10.3 BLOWER PULLEY Type .400 Type Centrifugal – Double Inlet ./ Shaft Diam.5 NET WEIGHT Kg 85 125 140 205 205 310 REFRIGERANT PIPING LINES Suction: Diameter – Qty 7/8” .1 1/2” – 1 1/2” .4 34.000 Air Flow Range m³/hr 2750-4080 4080-6120 4800-7200 8160-12.5 Number oh Heating Elements 5 6 6 6 6 9 KW Per Heating Element 1 2.9 2.5 4.9 5.5 939.Forward Curved Blades EVAPORATOR COIL Total Face Area cm² 3019 6451 6968 7742 7742 11.200 12.430 Number of Rows-Tube Diam. mm 100/19 100/24 100/24 100/28 100/28 125/28 BELT Quantity 1 1 1 2 2 2 Size A37-1/2 A38-1/2 A38-1/2 A42-1/2 A42-1/2 A32 ELECTRIC HEATER Total Output Kw 5 15 15 18 18 22.200 10.2 2.5 2.75 1.240 8160-12.5 Number of Stages 1 1 2 2 2 2 Full Load Amperes 9. 4-3/8” 4-3/8” 5-3/8” 4-3/8” 4-3/8” 5-1/2” Number of Fins per Inch 14 14 14 14 12 12 Type / Material Tubes-Fins Grooved / Copper Tubes – Corrugated Aluminium Fins REFRIGERANT Type R22 EXPANSION DEVICE Type Expansion Valve with External Equalizer Quantity 1 1 2 2 2 2 EVAPORATOR MOTOR Power Supply V/3Ph/50Hz 400 ± 10 % KW 0.2 AIR FILTER Type Washable Aluminum Air Filter Width 890 1338 1338 1593 1593 2088 Height 536 663 663 792 792 654 DIMENSIONS (MM) Depth 753 766 766 824 824 1060 Depth W/Heater 922.9 8.9 2. 50 860 4.600 930 3.48 1.040 2.100 2.82 1.22 900 1.55 90 8.62 1.68 810 1. w.040 1.42 1.75 1.040 1.98 90 3 100 9.000 0.095 4.37 1.300 890 2.48 1.20 1.000 830 1.15 815 3.5 100 18.085 2.30 920 2.00 1.020 1.58 120 6.746 kW Available static pressure include condenser coil casing pressure drop 9 .50 900 6.040 1.800 720 3.000 780 0.000 1.45 700 2.600 760 4.59 1.55 890 0.010 1.00 120 21.22 1.00 1.200 1.55 995 1.64 960 0.00 985 1.060 4.30 950 1.94 840 1.73 1.65 80 10.40 980 1.24 1.100 2.98 1.80 1.240 3.72 800 1.050 3.64 1.60 800 3.60 110 11.400 990 2.100 1.83 120 11.00 720 3.030 0.65 685 3.100 1.160 2.20 1.40 950 2.000 2. CONDENSER FAN PERFORMANCE DATA If other static pressure and airflow combinations are required to balance ductwork.070 1.92 990 1.500 860 1.270 3.22 1.400 700 1.080 2.190 1.10 795 4.65 880 0.125 5.75 110 19.300 980 1.200 760 0.75 10.10 55 2 100 5.450 920 1.105 1.125 1.120 2.07 2.10 1.93 1.87 875 2.80 830 4.48 1.180 3.00 1.045 2.230 1.18 910 2.71 1.53 940 1.200 650 2.65 1.10 825 4.130 1.10 80 14.80 1.550 805 1.00 1.060 2. AVAILABLE EXTERNAL STATIC PRESSURE CONDENSING UNIT UNIT MOTOR AIRFLOW External Static Pressure mm.10 880 1.98 885 1.65 760 3.85 1.090 1.85 90 9.50 825 5.095 1.78 145-180 4 100 13.250 860 0.80 1.00 985 3.10 830 5.86 810 0. g.92 90 4.170 1.700 750 1.00 1.98 1.94 860 2.090 4.10 950 1.29 1.085 1.28 1.51 1.210 3.00 860 5.80 1.80 970 3.41 1.70 940 0.70 1.95 1.000 815 1.32 1.80 1.49 815 0.000 680 3.80 870 6.83 915 0.95 1.600 740 0.150 1.115 2.195 2.000 880 1.210 2. select condenser blower speed in accordance with Fan Performance Table. All units are factory set to give 100% nominal flow and pressure values and these may be varied by means of the adjustable motor pulley from 80% to 120% of the nominal.80 1.30 900 6.40 1.50 1.93 850 1.10 920 2.85 760 4.30 760 3.160 3.20 1.040 3.01 2.22 1.40 1.58 1.185 2.80 1.95 80 7.130 2. SIZE HP 0 5 10 15 20 25 % M3/H RPM KW RPM KW RPM KW RPM KW RPM KW RPM KW 80 4.25 720 3.48 1.55 1.400 620 2.65 740 3.145 1.40 1.97 1.080 1.35 930 1.35 950 2.15 660 2.10 240 5.10 120 15.100 0.27 980 1.20 120 12.60 930 7.75 985 1.115 1.015 4.20 1.09 910 1.55 990 2.60 1.220 3.050 1.000 3.725 810 0.000 950 2.45 80 8.14 1.10 1.14 900 2.85 790 4.80 1.180 2.130 2.37 110 5.43 1.20 Motor of greater required 1 HP = 0.00 780 3.45 110 10.85 795 5.98 1.50 760 1.20 110 4 100 10.280 3.02 1.30 970 2.54 90 11.775 910 1.160 2.60 90 16.00 110 14.60 990 2. 175 2.20 120 12.32 850 0.88 1.18 1.88 120 4.100 0.200 860 1.050 2.90 1.075 0.040 0.280 3.71 1.400 880 0.285 1.85 790 1.190 0.94 1.350 5.35 995 0.065 1.440 6.120 0.190 1.290 1.045 0.5 100 12.45 1.61 900 1.96 1.32 1.06 1.93 1.39 1.07 1.43 950 0.54 960 0.070 3.17 120 14. g.42 1.115 2.230 3.200 1.180 0.210 1.55 120 7.97 90 5.800 930 2.63 1.315 5.68 1.400 6.075 2.10 1.260 4.200 0.37 1.30 920 1.76 90 4.21 1.73 1.15 145- 3 100 10.225 4.03 1. EVAPORATOR FAN PERFORMANCE DATA If other static pressure and airflow combinations are required to balance ductwork.740 960 0.240 1.05 1.600 840 1.120 2.70 1. w.86 1.240 1.40 990 0.180 0.78 1.024 2.56 1.34 915 0.51 985 0.030 0.120 900 0.83 1.18 120 6.89 1.070 0.800 810 0.15 920 1.85 80 8.75 995 1.024 3.03 80 4.31 900 0.110 1.0160 4.65 1.39 900 0.33 955 1.160 0. select condenser blower speed in accordance with Fan Performance Table.55 1.50 90 3.89 Motor of greater required 1 HP = 0.43 1.70 1.280 4.08 1.110 3.120 2.000 920 0.00 110 5.33 80 4. AVAILABLE EXTERNAL STATIC PRESSURE EVAPORATOR UNIT UNIT MOTOR AIRFLOW External Static Pressure mm.360 1.170 2.120 0.90 1.41 1.35 1.93 1.100 2.020 0.140 0.34 1.00 1.48 1.280 1.130 1.05 1.92 1.03 1.28 1.29 1.025 0.52 1.51 1.26 930 0.75 1.400 895 0.43 1.70 1.94 1.260 0.27 1.105 0.10 1.590 750 0.51 1.060 1.95 1.36 110 13.105 0.220 3.040 2.96 1.180 3.59 55 1 100 3.25 1.56 1.085 0.230 0.110 0.20 180 110 11.400 1.05 90 9.15 110 2 100 6.110 2.44 1.74 1.22 1.56 1.200 1.74 1.380 1.095 0.600 990 0.040 0.060 1.65 1.55 940 0.50 1.58 990 1.310 1.750 750 0.66 990 0.48 1.00 1.63 1.260 5.140 1.120 3.210 1.21 850 0.00 1.060 0.22 1.64 1.310 1.215 1.64 1.225 0.77 1.160 720 0.010 0.170 1.085 2.000 1.080 710 0.190 1.4 1.300 0.50 1.88 1.50 1.240 1.88 1.180 0.80 1.210 4.02 860 1.080 1.62 1.72 960 2.120 3.38 110 6.73 1.65 1.5 100 5.060 815 0.060 0.000 2.92 90 1.47 1.100 800 0.180 795 1.77 1.04 1. SIZE HP 0 5 10 15 20 25 % M3/H RPM KW RPM KW RPM KW RPM KW RPM KW RPM KW 80 2.68 1.240 0.00 1.24 825 0.010 2.215 0. All units are factory set to give 100% nominal flow and pressure values and these may be varied by means of the adjustable motor pulley from 80% to 120% of the nominal.300 0.85 80 9.32 1.275 0.29 1.250 1.81 1.90 1.35 920 1.58 1.50 990 1.02 1.000 0.92 1.74 110 3.040 0.69 1.43 890 0.220 0.120 0.275 1.220 4.746 kW Available static pressure include condenser coil casing pressure drop 10 .220 930 1.610 860 0.180 3.340 1.215 3.74 1.345 6.090 0.050 1.56 90 10.16 860 1.45 240 5.150 3.75 1.050 1.300 5.07 1.05 1. 11 6.62 11.04 9.284 Ref.75 5.70 9.45 21ºC 9.37 7.67 7.96 7.98 10.13 19ºC 25ºC SENSIBLE CAPACITY KW 11.75 14.68 8.59 9.11 BULB BULB COMPRESSOR INPUT KW 4.30 kW.58 11.51 10.20 9.65 6.02 7.42 7.10 9.47 NOTES: 1.04 10. When Evap.13 7.92 11.55 12.83 13.17 9.66 11.88 11.01 8.19 20ºC 10.94 9.01 10.32 10.85 5.36 BULB BULB COMPRESSOR INPUT KW 4.95 8.08 7.53 12.29 18ºC 8. air flow and at nominal conditions: 27ºC DBT & 19ºC WBT indoor air and 35ºC DBT outdoor air) are respectively 15.37 12.69 25ºC 13.18 10.65 9.65 10.59 24ºC 9.60 10.75 6.72 11.84 WET DRY TOTAL CAPACITY KW 16.02 4080 1.89 13.67 8. Tons.06 10.06 8.56 10.32 24ºC 10.55 7.04 Sensible Capacity 0.82 9.75 9.94 26ºC 12.03 11.95 13.32 9.49 8.77 8.22 BULB BULB COMPRESSOR INPUT KW 4. COOLING CAPACITIES (in KW) UNIT SIZE: 55 EVAPORATOR AIR FLOW EVAP.06 COOLING CAPACITIES (in KW) 11 .00 1.05 5.40 9.95 0.86 28ºC 12.84 11.55 12.75 10.87 7.40 4.88 13.94 6.24 8.61 10.70 14.60 8.89 8.31 8.80 11.68 15.52 10.97 6.09 11.72 29ºC 13.56 28ºC 13.13 11.56 8.86 7.04 1.38 11. air flow is different from nominal air flow.77 12.22 10.20 5.43 7.48 8.81 7. Nominal total capacity and compressor input (at nominal evap.05 9.55 5.46 24ºC 13. use following multipliers: MULTIPLIER FOR Air flow Multi Air flow Multi Air flow Multi Air flow Multi Air flow Multi Total Capacity 0.23 9.37 10.45 10.99 12.40 10.11 9. 1 kW = 860 Kcal/H = 3412 BTU/H = 0.81 10.17 6.70 9.50 4.20 11.46 10.41 BULB BULB COMPRESSOR INPUT KW 4.24 26ºC 10.65 23ºC 12.98 kW and 5.59 11.50 12.93 14.91 15.31 12.48 11.30 8.05 6.05 21ºC 27ºC SENSIBLE CAPACITY KW 11.95 5.86 0.23 8.00 6.6 4.82 22ºC 12.07 6.68 11.76 9.38 19ºC 9.25 22ºC 10.98 3400 1.10 5.64 30ºC 13.67 16.86 15.31 12.36 WET DRY TOTAL CAPACITY KW 13.08 12.44 8.49 22ºC 9.18 11.94 8.96 12.41 8.75 7.73 16.00 11.32 WET DRY TOTAL CAPACITY KW 17.32 11.02 1.70 10. 2.31 7.91 1.26 11.25 17.00 15ºC 21ºC SENSIBLE CAPACITY KW 11.88 9.40 5.48 8.50 6.70 5.13 12.75 27ºC 13.58 10.97 3060 0.11 10.92 10.98 14.51 11.30 9.00 1.45 5.77 12.54 8.00 3740 1.55 25ºC 9.43 13.48 7.61 12.77 13.61 7.84 12.88 24ºC 12.90 12.87 6.02 12.62 8.85 10. 3.04 Compressor Input 2720 0. 3400 M3/h ENTERING AIR CONDENSER ENTERING TEMPERATURE º C 25 30 35 40 46 52 AIR TEMPERATURE º C WET DRY TOTAL CAPACITY KW 15.27 10.04 17ºC 23ºC SENSIBLE CAPACITY KW 11.88 13.90 8.86 11.33 10.83 8.94 12.25 9.5 26ºC 13.15 11.67 12.39 20ºC 8.30 5.44 11.12 8.82 13.43 12.29 8.70 10.74 11.20 8.96 1.00 9.93 10.38 8.49 23ºC 9. 87 0.83 19.32 28ºC 20.40 21.12 18.21 7.04 14.45 12.07 17.44 21. Tons.56 26.69 13.74 16.02 30ºC 23.44 19.20 16.06 7.91 13.02 13.91 7.58 15.10 15.22 18. 2.30 BULB BULB COMPRESSOR INPUT KW 6.77 17.39 8.18 15.02 18.86 14.00 15.70 WET DRY TOTAL CAPACITY KW 27.34 10.15 9.04 19.97 9.98 17.53 22.00 1.89 15.43 14.10 10. 1 kW = 860 Kcal/H = 3412 BTU/H = 0.43 26ºC 20.22 21.98 5100 1.39 15.65 8.56 12.24 17.15 12.10 12 .46 17.13 28ºC 23.72 16.61 13.96 17.27 BULB BULB COMPRESSOR INPUT KW 7.64 22.01 10.71 13.09 17.15 14.06 14.06 25.93 13.284 Ref.34 19.97 14.64 9.58 12.54 14.49 22ºC 15.11 15.80 18.72 13.64 14.37 NOTES: 1.23 19.97 21ºC 27ºC SENSIBLE CAPACITY KW 19.29 13.60 19ºC 17.85 14.28 BULB BULB COMPRESSOR INPUT KW 7. air flow is different from nominal air flow.89 25ºC 22.90 18.12 23.72 21.27 25ºC 16.62 26ºC 18.22 20ºC 15.86 17.94 9.31 16.32 10.84 22ºC 18.76 7.80 25.48 WET DRY TOTAL CAPACITY KW 30.12 kW and 7.63 19.67 12.56 23.73 24ºC 18.40 21.00 1.88 17.50 16.35 17.35 24ºC 23.30 15ºC 21ºC SENSIBLE CAPACITY KW 19.51 21.75 9.33 18.96 14.00 5610 1.75 22.45 17.01 18.26 14.37 15.23 10.19 17ºC 23ºC SENSIBLE CAPACITY KW 19.46 17.86 9.47 20.50 21.55 17.25 20.36 11.12 10.18 21.37 20.34 17.67 29ºC 22.75 14.70 18.70 8.34 11.09 8.17 14.99 15. air flow and at nominal conditions: 27ºC DBT & 19ºC WBT indoor air and 35ºC DBT outdoor air) are respectively 25.59 WET DRY TOTAL CAPACITY KW 28.65 22ºC 21.04 13.73 9.95 20ºC 18.56 17.03 Sensible Capacity 0.75 24ºC 15. 5100 M3/h ENTERING AIR CONDENSER ENTERING TEMPERATURE º C 25 30 35 40 46 52 AIR TEMPERATURE º C WET DRY TOTAL CAPACITY KW 25.06 28.26 12.62 13.24 26ºC 23.84 25. use following multipliers: MULTIPLIER FOR Air flow Multi Air flow Multi Air flow Multi Air flow Multi Air flow Multi Total Capacity 0.29 21.83 13.61 21.15 20.36 20.00 23ºC 22. 3.41 16.52 8.60 21.16 20.93 1.24 8.54 24ºC 21.40 13.35 7.06 Compressor Input 4080 0.25 23.69 12.63 16.56 8.94 19.74 17.32 16.65 14.21 16.29 BULB BULB COMPRESSOR INPUT KW 6.59 18.38 23ºC 16.97 4590 0.80 13.05 19.95 18ºC 15.86 22.39 16.61 16.02 6120 1.95 0.78 27ºC 22.53 16.90 kW.07 14.82 13.42 16. Nominal total capacity and compressor input (at nominal evap.UNIT SIZE: 90 EVAPORATOR AIR FLOW EVAP.76 19.37 12.47 12.58 20.66 17.04 1.26 20.97 1.48 12.49 21ºC 17.52 16.50 13.69 18.76 17.78 15.22 7. When Evap.51 13.08 19ºC 25ºC SENSIBLE CAPACITY KW 19.48 18.50 7.67 17.55 9.43 26.76 14.39 21.91 18.87 17.85 17.99 10.13 16.28 14.81 18.08 1.11 18.90 8.21 10.05 8.17 23. 48 17.01 15ºC 21ºC SENSIBLE CAPACITY KW 22.23 19.64 22ºC 24.34 16. Tons.87 0.48 26ºC 21.53 23.37 22.13 16.93 25.69 23.02 20.80 11.60 kW.93 20.76 17.71 20.90 11.10 21ºC 27ºC SENSIBLE CAPACITY KW 23.76 23.74 25.51 14.55 25.60 22.86 26.86 25.53 18.76 22.01 26ºC 27.23 14.11 24.95 23.79 26.10 10.96 15.11 24.02 Compressor Input 4080 0.88 12.40 25ºC 26.51 35.72 14.90 16.81 BULB BULB COMPRESSOR INPUT KW 9.11 12.55 26.11 19.60 19.30 18.39 29.18 24ºC 18.16 20.30 30ºC 27.23 13.95 0.23 27.00 9.76 27.75 21.09 16.25 22.90 26.64 23.11 14.10 11.62 20.00 1.63 24ºC 21.57 BULB BULB COMPRESSOR INPUT KW 9.27 20.83 17.00 12.98 17.62 25.98 22ºC 18.55 16. air flow and at nominal conditions: 27ºC DBT & 19ºC WBT indoor air and 35ºC DBT outdoor air) are respectively 31.70 10.34 33.90 10.39 20.20 16.79 16. Nominal total capacity and compressor input (at nominal evap.86 20.84 22.80 9.00 1.39 19.88 18.76 27.72 31.98 6000 1. use following multipliers: MULTIPLIER FOR Air flow Multi Air flow Multi Air flow Multi Air flow Multi Air flow Multi Total Capacity 0. 1 kW = 860 Kcal/H = 3412 BTU/H = 0.14 12.22 21.40 11.18 18.74 28ºC 24.40 20ºC 21.72 22.37 23.21 28ºC 27.87 26ºC 24.67 16.41 23.89 16.63 23ºC 25.67 26.69 24.46 19.20 9.46 BULB BULB COMPRESSOR INPUT KW 9.60 11.91 24ºC 27.46 33.40 10.25 19ºC 25ºC SENSIBLE CAPACITY KW 22.30 23.03 Sensible Capacity 0.00 24.20 18.76 18. 2.50 10.51 18.94 NOTES: 1.79 16.74 14.98 1.41 18.60 21.48 22ºC 21.79 21.97 16.40 18.18 23.74 20.18 20.16 25.34 19.65 27.70 WET DRY TOTAL CAPACITY KW 33.04 25.44 21.97 21.55 25.13 21.49 27ºC 26.83 31.93 15.00 6600 1.04 15.36 16.23 24.25 16.65 18.62 25.51 28.55 21.13 22.72 17.86 15.78 20ºC 17.37 17.44 22.76 19ºC 19.99 23ºC 19.74 12.13 17ºC 23ºC SENSIBLE CAPACITY KW 22.02 17.47 17.76 24ºC 24.99 25. COOLING CAPACITIES (in KW) UNIT SIZE: 110 EVAP.34 24.81 24.64 WET DRY TOTAL CAPACITY KW 35.13 20.30 29ºC 26.23 22.94 12.27 15.97 17.82 20.09 18.34 13.62 15.16 15. 3.58 17.37 31.20 10.88 24.13 17.04 20.00 22.06 24.00 18.97 kW and 10.02 22.89 21ºC 19.64 21.02 1.67 21.50 12. air flow is different from nominal air flow.48 22.60 17.30 12.97 5400 0.97 29. When Evap.85 15.34 14.62 33.27 25.58 18ºC 17.09 21.88 23.51 20.00 13.93 1. EVAPORATOR AIR FLOW 6000 ENTERING AIR M3/h TEMPERATURE º CONDENSER ENTERING 25 30 35 40 46 52 C AIR TEMPERATURE º C WET DRY TOTAL CAPACITY Kw 31.67 BULB BULB COMPRESSOR INPUT KW 8.18 22.73 WET DRY TOTAL CAPACITY KW 36.51 19.01 1.74 15.88 17.25 17.65 23.13 COOLING CAPACITIES (in KW) 13 .01 7200 1.81 19.06 23.90 21.37 21.284 Ref.12 25ºC 19.86 29.03 20. 95 1.55 25.91 20.30 BULB BULB COMPRESSOR INPUT KW 11.73 27.04 31.65 33.63 30.57 23ºC 35.69 26.91 0.20 14.20 BULB BULB COMPRESSOR INPUT KW 11.15 28ºC 37.80 32.82 27.30 16.38 17.81 36.03 18.22 24.16 20ºC 28.40 13.08 17.50 12.84 25.83 26.97 35.85 33.06 28.37 31.80 12.14 30.66 32.37 24.42 25ºC 26.50 14.00 11220 1.46 32.03 32.87 27.37 32.24 23.02 12240 1.04 23.97 25ºC 35.32 46.18 41.25 15. Nominal total capacity and compressor input (at nominal evap.36 25.19 19ºC 25ºC SENSIBLE CAPACITY KW 30.60 13.65 14.55 35.20 20.07 25.39 BULB BULB COMPRESSOR INPUT KW 12.17 32.46 33.33 17ºC 23ºC SENSIBLE CAPACITY KW 31.57 24.44 34.64 34.71 24.01 22ºC 28.08 24.51 26ºC 33.74 26.09 COOLING CAPACITIES (in KW) 14 . Tons.35 29.21 25.50 33.78 16.47 31.12 35.48 30.83 27ºC 35. use following multipliers: MULTIPLIER FOR Air flow Multi Air flow Multi Air flow Multi Air flow Multi Air flow Multi Total Capacity 0.38 28ºC 33.07 19.00 30.52 23.10 37. 10200 M3/h ENTERING AIR CONDENSER ENTERING TEMPERATURE º C 25 30 35 40 46 52 AIR TEMPERATURE º C WET DRY TOTAL CAPACITY KW 42.84 25.78 34.44 24ºC 38.68 17.70 29ºC 35.50 25.99 33.35 34.10 21.16 28.80 32.77 20.06 21ºC 27ºC SENSIBLE CAPACITY KW 30.12 30ºC 37.82 25.95 0.38 23.00 1.53 31.82 31. 3.02 28.60 18.05 30.54 22.90 13.53 27.19 22.60 16.40 26.02 27.284 Ref.48 30.92 20.93 19.05 Compressor Input 8160 0.29 26ºC 37.09 kW and 14.34 NOTES: 1. When Evap.56 25.98 34.51 32.25 22.00 16.76 WET DRY TOTAL CAPACITY KW 44.88 27.88 18.53 36.18 26.99 25.50 29.32 32.41 25.03 1.11 36.66 32.52 23.21 29.47 WET DRY TOTAL CAPACITY KW 47.98 10200 1.68 27.76 21.06 42.68 35.70 25.20 40.90 35. 2.75 22.74 26ºC 28.06 20.18 31.39 27.85 29.52 32.35 21.76 24ºC 23.65 24ºC 33.89 22.72 28.61 WET DRY TOTAL CAPACITY KW 45.38 31.58 44.20 21.86 24.90 21.91 1.70 33.00 37.89 26.39 22.36 33.06 21.67 36.00 1.10 13.34 37.50 15.15 29.69 21ºC 26.55 23ºC 26.46 22ºC 23.70 25.UNIT SIZE: 145 EVAPORATOR AIR FLOW EVAP.86 28.79 33.16 20ºC 24.25 kW.34 32.96 36.48 BULB BULB COMPRESSOR INPUT KW 12.05 22.80 22ºC 33.04 Sensible Capacity 0.83 34. air flow is different from nominal air flow.34 30.38 23.06 42.86 18ºC 24.19 30.86 19ºC 26.03 26.16 44.71 29.32 40.70 15.33 31.05 1.78 19.18 23.23 23.31 28.74 18.67 23.62 38.95 32.69 34.54 26.27 29. air flow and at nominal conditions: 27ºC DBT & 19ºC WBT indoor air and 35ºC DBT outdoor air) are respectively 52.09 23.96 9180 0.48 15ºC 21ºC SENSIBLE CAPACITY KW 31.42 24.16 27.34 30.49 34.67 31.20 30.09 39.87 24ºC 28.14 33.01 29.95 15.51 24.20 20. 1 kW = 860 Kcal/H = 3412 BTU/H = 0. 53 20.82 22ºC 35.44 24.65 16.54 26ºC 35. 1 kW = 860 Kcal/H = 3412 BTU/H = 0.05 46.35 14.22 37. When Evap.64 27ºC 42.67 20.99 32.10 26.63 27. 2.00 33.76 26.00 1.38 23.00 1.91 1.30 28.12 33.21 18.95 14.41 32.14 17ºC 23ºC SENSIBLE CAPACITY KW 38.48 30.12 35.UNIT SIZE: 180 EVAPORATOR AIR FLOW EVAP.85 23.94 33.26 50.94 40.56 WET DRY TOTAL CAPACITY KW 55.62 13.92 45.40 47.70 38.50 29ºC 42.95 0.95 15.05 1.80 40.35 27.24 23.96 9180 0.42 38.28 28.49 18.37 38.58 24.95 1.38 31.32 30.55 17.02 40.56 25.36 23ºC 33.88 40.97 39.14 28.20 21.48 31. 3.07 18.284 Ref.14 NOTES: 1.13 32.96 28ºC 45.96 44.70 25.78 35.74 31.52 31.68 31.36 28.34 30.98 35.25 14.75 20ºC 31.91 0.92 13.06 33.58 33. air flow and at nominal conditions: 27ºC DBT & 19ºC WBT indoor air and 35ºC DBT outdoor air) are respectively 50.46 19ºC 33.76 38.16 28.66 40.58 49.99 23.34 37.05 15.60 31.68 26.44 36.58 55.45 25.27 32.16 35.26 30.98 42.52 32.80 32.32 51.05 22ºC 31.17 25.48 29.92 21.66 33.40 43.02 35.78 33.10 26ºC 45.14 48.18 35.00 11220 1.65 18.36 37.00 28.05 Compressor Input 8160 0.72 33. air flow is different from nominal air flow.06 21.20 28.08 40.24 24ºC 45.92 23ºC 43.94 28.10 35.15 18.98 28.71 22.20 30.84 34.29 25ºC 42.52 14.06 28.50 38.26 35.45 18ºC 31. 10200 M3/h ENTERING AIR CONDENSER ENTERING TEMPERATURE º C 25 30 35 40 46 52 AIR TEMPERATURE º C WET DRY TOTAL CAPACITY Kw 53.72 24.32 26ºC 40.40 31.38 36.42 29.70 33.02 28.84 33.66 23.26 42.02 BULB BULB COMPRESSOR INPUT KW 12.96 20ºC 36.03 25.88 37.96 35. use following multipliers: MULTIPLIER FOR Air flow Multi Air flow Multi Air flow Multi Air flow Multi Air flow Multi Total Capacity 0.98 10200 1.84 53.74 40. Nominal total capacity and compressor input (at nominal evap.05 kW and 14.05 18.31 25.60 40.11 BULB BULB COMPRESSOR INPUT KW 13.65 15.28 37.34 28.35 18.04 26.35 24ºC 31.92 33.64 33.22 13.60 22ºC 40.80 31.04 35.30 23.95 30.77 27.68 24ºC 35. Tons.32 35.62 26.66 32.12 42.65 14.62 38.39 20.82 26.90 26.34 21.09 15 .62 30.06 41.35 16.66 31.09 30.03 1.50 21ºC 33.54 31.54 45.52 23.65 kW.02 12240 1.86 42.83 42.35 15.28 WET DRY TOTAL CAPACITY KW 58.49 27.64 38.08 28.81 29.28 15ºC 21ºC SENSIBLE CAPACITY KW 38.67 29.04 Sensible Capacity 0.88 28.00 19ºC 25ºC SENSIBLE CAPACITY KW 38.18 28ºC 40.86 21ºC 27ºC SENSIBLE CAPACITYKW 38.98 33.48 38.71 20.95 17.22 28.19 BULB BULB COMPRESSOR INPUT kW 12.22 25ºC 33.56 38.30 35.13 23.84 25.46 24ºC 40.90 35.36 52.25 17.96 26.82 30ºC 44.74 40.20 BULB BULB COMPRESSOR INPUT KW 13.42 WET DRY TOTAL CAPACITY KW 56.24 35. 97 35.06 42.54 15ºC 21ºC SENSIBLE CAPACITY KW 43.35 28.10 52. air flow is different from nominal air flow.60 20ºC 29.30 54.63 WET DRY TOTAL CAPACITY KW 74.88 55.19 29ºC 53.85 47.62 21.75 33.67 23.20 33.27 23.55 44.36 BULB BULB COMPRESSOR INPUT KW 23.08 33.86 BULB BULB COMPRESSOR INPUT KW 21.18 30.10 30.20 30.90 53.78 41.22 49.52 19.58 49.28 49.00 25.46 27.32 45.08 54. use following multipliers: MULTIPLIER FOR Air flow Multi Air flow Multi Air flow Multi Air flow Multi Air flow Multi Total Capacity 0.284 Ref.38 30.37 26.99 26ºC 39.40 28.25 32.90 0.52 46.48 42.35 47.10 28.98 52.80 47.96 1.43 26ºC 48.58 42.65 41.20 51.90 25.10 24.10 23.22 30.10 42.95 35.60 30.36 51.40 46.12 35.14 21ºC 34.85 35. 12000 M3/h ENTERING AIR CONDENSER ENTERING TEMPERATURE º C 25 30 35 40 46 52 AIR TEMPERATURE º C WET DRY TOTAL CAPACITY KW 71.20 63. air flow and at nominal conditions: 27ºC DBT & 19ºC WBT indoor air and 35ºC DBT outdoor air) are respectively 66.70 66.75 39.12 32.47 19.14 27ºC 53.96 65. 2.22 42.25 59.08 BULB BULB COMPRESSOR INPUT KW 24.30 28.68 19ºC 25ºC SENSIBLE CAPACITY KW 43.00 24ºC 29.20 32.82 55.70 40.48 28ºC 48.40 28. 1 kW = 860 Kcal/H = 3412 BTU/H = 0.15 49.00 30.02 35.58 WET DRY TOTAL CAPACITY KW 73.80 18ºC 29.94 30ºC 58.80 66.20 24.30 kW.52 WET DRY TOTAL CAPACITY kW 72.17 42.72 70.85 39.42 19.45 45. COOLING CAPACITIES (in KW) UNIT SIZE: 240 EVAPORATOR AIR FLOW EVAP.58 27.30 32.83 20ºC 38.70 26.00 1.94 1.15 67.30 38.60 41.78 72.89 28ºC 57.58 25.90 35.22 23.24 25ºC 34.34 24ºC 48.02 54.42 44.62 33.42 26.17 49.70 21.28 30.25 47.04 1.15 33.06 37.87 35.67 42.47 26.50 27.02 1.08 19ºC 34.58 33.00 1.27 31.83 26ºC 57.08 49.78 37.80 30.06 55.50 27.32 30.04 Compressor Input 9600 0.55 23.50 26.95 38.80 21.03 Sensible Capacity 0.08 35.87 37.90 28.90 47.35 19. Nominal total capacity and compressor input (at nominal evap.68 68.58 BULB BULB COMPRESSOR INPUT KW 22.73 21ºC 27ºC SENSIBLE CAPACITY KW 43.50 45.80 58.00 13200 1.00 56.68 NOTES: 1.80 24ºC 57.00 61.37 45.90 33.08 53.94 24ºC 38.82 28.55 25.95 28.75 40.00 35.31 22ºC 48.45 68.62 17ºC 23ºC SENSIBLE CAPACITY KW 43.47 38.97 10800 0.32 51. When Evap.72 41. 3.35 49.68 39.00 28.70 26.52 25.60 44.50 64.15 23.70 33.35 46.30 47.72 23.05 52.42 38.42 47.82 37.02 33.98 12000 1.40 23.48 25.65 40.45 46.92 37.12 49.15 51.18 32.09 25ºC 53.52 59.30 28.80 39.55 26.62 42.22 49.02 14400 1. Tons.75 kW and 26.20 29.02 23ºC 53.40 27.19 23ºC 34.40 31.07 51.92 56.95 54.60 23.88 22ºC 38.60 23.58 40.37 38.98 37.95 47.75 21.95 0.75 62.15 52.50 27.09 DETAILED DIMENSIONS (IN MM) 16 .48 44.40 22ºC 29. VERTICAL PACKAGED SYSTEM 50UB – 55 Evaporator Evaporator Arrangement Air Return Air Discharge A Horizontal back Vertical B Horizontal back Horizontal front (A) (B) Evaporator Evaporator Arrangement Air Return Air Discharge C Horizontal front Vertical D Horizontal front Horizontal back (C) (D) DETAILED DIMENSIONS (IN MM) 17 . 55 EVAPORATOR UNIT 40AB .55 (1) Note (1): Field converted vertical air discharge for evaporator unit. SPLIT SYSTEMS CONDENSING UNIT 38BB . LOCATIONS AND DIAMETERS OF REFRIGERANT PIPING LINES AND CONDENSATE DRAIN LINE Refrigerant Piping Lines and Drain Line Size Line Ø Qty Suction 7/8” 55 Liquid 1/2" 1 Drain 3/4" 18 . DETAILED DIMENSIONS (IN MM) VERTICAL PACKAGED SYSTEMS 50UB .90 & 50UB .110 Evaporator Evaporator Arrangement Air Return Air Discharge A Horizontal back Vertical B Horizontal back Horizontal front (A) (A) (B) (B) Evaporator Evaporator Arrangement Air Return Air Discharge C Horizontal front Vertical D Horizontal front Horizontal back (C) (C) (D) (D) 19 . DETAILED DIMENSIONS (IN MM) SPLIT SYSTEMS CONDENSING UNITS 38BB . OUTLET LOCATIONS AND DIAMETERS OF REFRIGERANT PIPING LINES AND CONDENSATE DRAIN LINE Size Line Ø Qty Suction 1-1/8” 90 Liquid 1/2" 1 Drain 3/4" Suction 7/8” 2 110 Liquid 1/2" 2 Drain 3/4" 1 20 .90 & 38BB .110 (1) (1) Note (1): Field converted vertical air discharge for evaporator unit.90 & 40AB .110 EVAPORATOR UNITS 40AB . 180 Evaporator Evaporator Arrangement Air Return Air Discharge A Horizontal back Vertical B Horizontal back Horizontal front (A) (A) (B) (B) Evaporator Evaporator Arrangement Air Return Air Discharge C Horizontal front Vertical D Horizontal front Horizontal back (C) (C) (D) (D) DETAILED DIMENSIONS (IN MM) 21 .145 & 50UB . DETAILED DIMENSIONS (IN MM) VERTICAL PACKAGED SYSTEMS 50UB . 180 EVAPORATOR UNITS 40AB .180 (1) (1) Note (1): Field converted vertical air discharge for evaporator unit.145 & 38BB . SPLIT SYSTEMS CONDENSING UNITS 38BB .145 & 40AB . OUTLET LOCATIONS AND DIAMETERS OF REFRIGERANT PIPING LINES AND CONDENSATE DRAIN LINE Size Line Ø Qty Suction 1-1/8” 2 145 180 Liquid 1/2" 2 Drain 3/4" 1 22 . DETAILED DIMENSIONS (IN MM) VERTICAL PACKAGED SYSTEMS 50UB .240 Evaporator Evaporator Arrangement Air Return Air Discharge A Horizontal back Vertical B Horizontal back Horizontal front (A) (A) (B) (B) Evaporator Evaporator Arrangement Air Return Air Discharge C Horizontal front Vertical D Horizontal front Horizontal back (C) (C) (D) (D) DETAILED DIMENSIONS (IN MM) 23 . 240 (1) (1) Note (1): Field converted vertical air discharge for evaporator unit.240 EVAPORATOR UNIT 40AB . SPLIT SYSTEM CONDENSING UNIT 38BB . OUTLET LOCATIONS AND DIAMETERS OF REFRIGERANT PIPING LINES AND CONDENSATE DRAIN LINE Size Line Ø Qty Suction 1-1/8” 2 240 Liquid 5/8" 2 Drain 3/4" 1 24 .