KR870008162A - Control system and control method for controlling the reset of the temperature of the discharged cooling fluid of the cooling system - Google Patents

Abstract

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Description

Control system and control method for controlling the reset of the temperature of the discharged cooling fluid of the cooling system

Since this is an open matter, no full text was included.

1 is a schematic diagram of a centrifugal steam compression cooling system having a control system for varying the capacity of a refrigeration system in accordance with the principles of the present invention. 2 is a graph of coolant temperature as a function of load.

* Explanation of symbols for main parts of the drawings

1 steam compression refrigeration system 2 centrifugal compressor 3 control system 4 condenser 5 evaporator 6 poppet valve 7 compressor discharge line 8 tube 9 refrigerant line 10 : Tube, 11: compressor suction line, 12: compressor inlet guide vane, 13: temperature sensor, 14: guide vane operator, 15: temperature sensor, 16: system interface board, 17: processor board, 18: setpoint and display Board, 19: Analog-to-digital converter, 20, 21, 22: Electric line.

Claims (5)

A control system for controlling the reset of a temperature setpoint of a discharge cooling fluid in a cooling system of a type comprising an evaporator and a microprocessor that absorbs heat from a heat transfer fluid by a refrigerant, the fixing of the discharge cooling fluid at a first load. At least two data pairs of the first data pair corresponding to the reset amount from the temperature set point and the second data pair corresponding to the reset amount from the fixed temperature set point of the discharge cooling fluid at the second load are supplied to the microcomputer. Means for inputting and generating a signal corresponding to each input data pair; Means for generating a first control signal as a function of the temperature of the heat transfer fluid entering the evaporator; Means for generating a second control signal that is a function of the temperature of the heat transfer fluid discharged from the evaporator; And A pre-programmed sequence for receiving the signal corresponding to each of the input data pairs, the first and second control signals, and for determining a set point temperature of the heat transfer fluid released from the evaporator for the actual load of the present cooling system. Means for processing said received signal according to said control system. 2. The method according to claim 1, wherein said processor means determines said setpoint temperature proportional to a temperature difference between said input data pair and an incoming heat transfer fluid and a discharged heat transfer fluid. Control system for controlling the reset. A method of resetting a temperature setpoint of an emission cooling liquid of a cooling system having a microcomputer system and an evaporator that absorbs heat from a heat transfer fluid by a refrigerant, the method corresponding to a first data point input to the microprocessor. Generating a setpoint signal; Generating a second setpoint signal corresponding to a second data point input to the microprocessor; Generating a first temperature signal corresponding to the actual temperature of the incoming cooling liquid; Generating a second temperature signal corresponding to the actual temperature of the cooling fluid to be discharged; Generating an output signal proportional to a predetermined relationship between the first and second set point signals and the first and second temperature signals. Method for controlling. 4. The method of claim 3, wherein the first input data point corresponds to a reset amount from a temperature set point of the fixed cooling liquid at a first load condition, and the second input data point is a fixed discharge at a second load condition. A method for controlling the reset of the temperature of the discharged cooling fluid of a cooling system corresponding to a reset amount from a temperature set point of a cooling liquid. 5. The method of claim 4, wherein the output signal is generated in proportion to the sum of the setpoint signals and the difference between the first and second temperature signals. Way. ※ Note: The disclosure is based on the initial application.