The present invention related to cooling systems. More specifically, the present invention relates to a system for cooling one or more parts of a building and or processes comprising a compressor, a condenser having an inlet and an outlet and a plurality of condenser cooling fans, a receiver, a liqu
The present invention related to cooling systems. More specifically, the present invention relates to a system for cooling one or more parts of a building and or processes comprising a compressor, a condenser having an inlet and an outlet and a plurality of condenser cooling fans, a receiver, a liquid refrigerant pump, an expansion device, an evaporator, the evaporator being surrounded by a chiller barrel having a cooled water return and a chilled water supply line, and refrigerant line means interconnecting the compressor, condenser, expansion device and evaporator in series, in a closed loop for circulating refrigerant therethrough; means for switching the cooling system between free cooling and mechanical cooling and means for actively floating the head pressure in both mechanical and free cooling modes.
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What is claimed is: 1. A system for cooling one or more parts of a building or processes comprising: a compressor, a condenser having an inlet and an outlet and a plurality of condenser cooling fans, a receiver, a liquid refrigerant pump, an expansion device, an evaporator, the evaporator being sur
What is claimed is: 1. A system for cooling one or more parts of a building or processes comprising: a compressor, a condenser having an inlet and an outlet and a plurality of condenser cooling fans, a receiver, a liquid refrigerant pump, an expansion device, an evaporator, the evaporator being surrounded by a chiller barrel having a cooled water return and a chilled water supply line, and refrigerant line means interconnecting the compressor, condenser, expansion device and evaporator in series, in a closed loop for circulating refrigerant therethrough; a compressor input line ball valve and a compressor discharge line ball valve; a compressor bypass line for the refrigerant to bypass the compressor input line ball valve, the compressor and the compressor discharge line ball valve, the compressor bypass line having a compressor bypass line ball valve; an expansion device ball valve preceding the expansion device; a expansion device bypass line for the refrigerant to bypass the expansion device and the expansion device ball valve, the expansion device bypass line having an expansion device bypass ball valve; a compressor crank case heater; a controller in electronic communication with the ball valves, the controller being capable of switching between free cooling and mechanical cooling modes when desired and floating the head pressure during mechanical cooling modes, the controller also being capable of varying the flow of liquid refrigerant in the free cooling mode; wherein the controller is capable of switching to mechanical cooling, when required, via electronic communication to turn on the compressor crankcase heater, close the expansion device bypass ball valve; open the expansion device line ball valve; start the condenser fans; wait an adjustable predetermined time for refrigerant in the evaporator to boil off; open the compressor input ball valve and the compressor discharge ball valve; close the compressor bypass ball valve; start the compressor; wait an adjustable predetermined time; and soft start the liquid refrigerant pump. 2. The cooling system of claim 1 further comprising a condenser inlet refrigerant temperature sensor at the condenser inlet and a condenser outlet temperature sensor at the condenser outlet in electronic communication with the controller. 3. The cooling system of claim 2 wherein the controller monitors the condenser inlet temperature and the condenser outlet temperature and is capable of varying the speed of the condenser fans to maintain a specific condenser output temperature. 4. The cooling system of claim 3 further comprising a compressor discharge pressure measuring device for measuring head pressure the pressure measuring device being in electronic communication with the controller. 5. The cooling system of claim 4 wherein when the controller switches to free cooling mode, the controller sends a signal to turn off the compressor crank case heater, close the compressor input line ball valve, close the compressor discharge line ball valve, open the compressor bypass line ball valve, open the expansion device bypass ball valve, close the expansion device line ball valve and soft start the liquid refrigerant pump. 6. The cooling system of claim 4 wherein the controller is capable of monitoring the compressor discharge pressure measuring device to maintain the desired head pressure by adjusting the speed of the condenser fans. 7. The cooling system of claim 1 wherein the controller is capable of deactivating the liquid refrigerant pump and the condensing fans when the chilled water supply temperature reaches a predetermined set point. 8. A system for cooling one or more parts of a building or processes comprising: a compressor, a condenser having an inlet and an outlet and a plurality of condenser cooling fans, a receiver, a liquid refrigerant pump, an expansion device, an evaporator, and refrigerant line means interconnecting the compressor, condenser, expansion device and evaporator in series, in a closed loop for circulating refrigerant therethrough; a compressor input line ball valve and a compressor discharge line ball valve; a compressor bypass line for the refrigerant to bypass the compressor input line ball valve, the compressor and the compressor discharge line ball valve, the compressor bypass line having a compressor bypass line ball valve; an expansion device ball valve preceding the expansion device; a expansion device bypass line for the refrigerant to bypass the expansion device and the expansion device ball valve, the expansion device bypass line having an expansion device bypass ball valve; a compressor crank case heater; a controller in electronic communication with the ball valves, the controller being capable of switching between free cooling and mechanical cooling modes when desired and floating the head pressure during mechanical cooling modes, the controller also being capable of varying the flow of liquid refrigerant in the free cooling mode; wherein the controller is capable of switching to mechanical cooling, when required, via electronic communication to turn on the compressor crankcase heater, close the expansion device bypass ball valve; open the expansion device line ball valve; start the condenser fans; wait an adjustable predetermined time for refrigerant in the evaporator to boil off; open the compressor input ball valve and the compressor discharge ball valve; close the compressor bypass ball valve; start the compressor; wait an adjustable predetermined time; and soft start the liquid refrigerant pump.
Noll, Roger; Helmink, Gary A.; Barbato, Pierpaolo; Mana, Giuseppe Dalla; Monnier, Lou, Cooling system with tandem compressors and electronic expansion valve control.
Lu, Zongtao; Haggy, Greg; Schrader, Timothy J.; Sillato, Stephen; Judge, John F., Load estimator for control of vapor compression cooling system with pumped refrigerant economization.
Lin, Zhiyong; Noll, Roger; Judge, John F.; Helmink, Gary A.; Dolcich, Benedict J.; Schutte, Daniel J.; Schrader, Timothy J., Multi-stage cooling system with tandem compressors and optimized control of sensible cooling and dehumidification.
Jandal, Daoud Ali; Sullivan, Brian Thomas; Berry, Reginald Loyd; Boldt, Ronald Allen; Witt, Matthew Aron; Plymesser, Damion Scott, Refrigerant cooling and lubrication system with refrigerant source access from an evaporator.
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