Patent ID: 9599384
Date: 2017-03-21
CPC Classifications: F25B

Claim:
1. A refrigerant vapor compression system comprising: a compressor for compressing a refrigerant, the compressor having a suction port, a discharge port, and a compressor discharge temperature sensor operatively coupled to the discharge port, the compressor discharge temperature sensor configured to provide a compressor discharge temperature; an air-cooled heat exchanger operatively coupled to the discharge port of the compressor; an evaporator heat exchanger operatively coupled to the air-cooled heat exchanger and the suction port of the compressor, and at least one of an evaporator outlet pressure sensor and an evaporator outlet temperature sensor operatively coupled to the evaporator; an expansion valve coupled to the inlet of the evaporator for at least partially vaporizing the refrigerant entering the evaporator; an ambient air temperature sensor for monitoring an ambient air temperature; a return air temperature sensor for monitoring a return air temperature; and a controller operatively associated with the expansion valve, the controller configured to: operate the expansion valve in a base mode wherein the expansion valve is controlled in response to a difference between actual superheat and desired superheat of the evaporator; and in response to the ambient air temperature, the return air temperature and the compressor discharge temperature meeting respective limits, exiting the base mode to control the expansion valve in response to a difference between a set point and the compressor discharge temperature instead of the difference between actual superheat and desired superheat of the evaporator.