Copeland 32,000 BTU/Hr High Temp. A/C & HP Compressor with Sweat | 208-230/1

CR32K6E-PFV-875-CPD MFG #: CR32K6E-PFV-875
$1,443.00 / EA
  • Availability: 1, 1+Alternate, 11, 11+Alternate, 12, 12+Alternate, 2, 2+Alternate, 4, 4+Alternate, 7, 7+Alternate
  • Bill of Materials: Crankcase Heater, Mounting Parts, Suction and Discharge Sweat Connections
  • Brand: Emerson Copeland
  • Compressor Family: CR High Temperature A/C & Heat Pump
  • Compressor Locked Rotor Amps (High): 82.00A
  • Electrical Connection Type: Molded Plug
  • Hertz: 60 Hz
  • Initial Oil Charge (oz.): 45
  • Motor Design: PSC
  • Motor Overload Protection: Internal Inherent
  • Mounting Height (In.): 14.19
  • Mounting Length (In.): 7-1/2
  • Mounting Width (In.): 7-1/2
  • Net Weight (lbs): 66
  • Oil or Lubricant Type: Polyolester (POE)
  • Oil Recharge (oz.): 43
  • Overall Height (In.): 13.81
  • Overall Length (In.): 10.23
  • Overall Width (In.): 9.65
  • R22 Capacity (BTU/Hr) @ 45 F Evaporator Temperature: 29,300 @ 130 F Condensing/65 F Return/115 F Liquid, 40,700 @ 100 F Condensing/65 F Return/85 F Liquid
  • R407C Capacity (BTU/Hr) @ 45 F Evaporator Temperature: 29,300 @ 130 F Condensing/65 F Return/115 F Liquid, 40,700 @ 100 F Condensing/65 F Return/85 F Liquid
  • Suction Line Connection (In.): 3/4 Sweat Stub
  • Voltage: 208-230/1
  • Manufacturer: Emerson Copeland Canada
  • Compressor Type: Hermetic
  • Application Temperature: High Temperature, Air Conditioning
  • Voltage: 208-230/1
  • Refrigerant: R22, R407C
  • Capacity @ 45 F Evaporator Temperature: 24,001 to 36,000, 36,001 to 48,000
  • Disclaimer: For professional use only. Refer to all information, warnings and instructions on product and package labeling and accompanying documentation provided by the product manufacturer. Product must be used in accordance with such labeling and documentation.
Copelaweld 32,000 BTU/Hr Nominal Capacity High Temperature A/C and Heat Pump Hermetic Compressor with Suction and Discharge Sweat Connections, POE Oil, 208-230/1/60, PSC Motor with Internal Inherent Protection