R32, R134a, R404A, R407C, R410A, R448A, R449A, R450A, R452A, R454A, R454C, R455A, R507, R513A, R1234yf, R1234ze

  • Alco Tx Valve Orifice T10-000 | Line Components

    The nominal cooling capacity kW is given at an evaporating temperature of +4°C, a condensing temperature of +38°C and 1 K subcooling at the inlet of the expansion valve. Note: When sizing an expansion valve for a refrigerant with glide e.g. R407C, it is important to specify evaporating temperature as dew point = saturated gas and condensing temperature as bubble point = saturated liquid.

    $65.99$119.98
  • Alco Thermo Valve Cage Alco T10-004 | Line Components

    The nominal cooling capacity kW is given at an evaporating temperature of +4°C, a condensing temperature of +38°C and 1 K subcooling at the inlet of the expansion valve. Note: When sizing an expansion valve for a refrigerant with glide e.g. R407C, it is important to specify evaporating temperature as dew point = saturated gas and condensing temperature as bubble point = saturated liquid.

    $65.99$119.98
  • Alco Thermo Valve Cage Alco T10-005 | Line Components

    The nominal cooling capacity kW is given at an evaporating temperature of +4°C, a condensing temperature of +38°C and 1 K subcooling at the inlet of the expansion valve. Note: When sizing an expansion valve for a refrigerant with glide e.g. R407C, it is important to specify evaporating temperature as dew point = saturated gas and condensing temperature as bubble point = saturated liquid.

    $65.99$119.98
  • Alco Thermo Valve Cage Alco T10-002 | Line Components

    The nominal cooling capacity kW is given at an evaporating temperature of +4°C, a condensing temperature of +38°C and 1 K subcooling at the inlet of the expansion valve. Note: When sizing an expansion valve for a refrigerant with glide e.g. R407C, it is important to specify evaporating temperature as dew point = saturated gas and condensing temperature as bubble point = saturated liquid.

    $65.99$119.98
  • Alco Thermo Valve Cage Alco T10-001 | Line Components

    The nominal cooling capacity kW is given at an evaporating temperature of +4°C, a condensing temperature of +38°C and 1 K subcooling at the inlet of the expansion valve. Note: When sizing an expansion valve for a refrigerant with glide e.g. R407C, it is important to specify evaporating temperature as dew point = saturated gas and condensing temperature as bubble point = saturated liquid.

    $65.99$119.98
  • Alco Thermo Valve Cage Alco T10-006 | Line Components

    The nominal cooling capacity kW is given at an evaporating temperature of +4°C, a condensing temperature of +38°C and 1 K subcooling at the inlet of the expansion valve. Note: When sizing an expansion valve for a refrigerant with glide e.g. R407C, it is important to specify evaporating temperature as dew point = saturated gas and condensing temperature as bubble point = saturated liquid.

    $65.99$119.98
  • Alco Thermo Valve Cage Alco T10-00X | Line Components

    The nominal cooling capacity kW is given at an evaporating temperature of +4°C, a condensing temperature of +38°C and 1 K subcooling at the inlet of the expansion valve. Note: When sizing an expansion valve for a refrigerant with glide e.g. R407C, it is important to specify evaporating temperature as dew point = saturated gas and condensing temperature as bubble point = saturated liquid.

    $65.99$119.98
  • Alco Thermo Valve Cage Alco T10-003 | Line Components

    The nominal cooling capacity kW is given at an evaporating temperature of +4°C, a condensing temperature of +38°C and 1 K subcooling at the inlet of the expansion valve. Note: When sizing an expansion valve for a refrigerant with glide e.g. R407C, it is important to specify evaporating temperature as dew point = saturated gas and condensing temperature as bubble point = saturated liquid.

    $65.99$119.98

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