초록 ▼

A condenser and evaporator system includes (i) a condenser system positioned to receive a gaseous refrigerant from a compressor system and configured to condense the gaseous refrigerant into a liquid refrigerant, (ii) a controlled pressure receiver (CPR) positioned to receive and store the liquid re

A condenser and evaporator system includes (i) a condenser system positioned to receive a gaseous refrigerant from a compressor system and configured to condense the gaseous refrigerant into a liquid refrigerant, (ii) a controlled pressure receiver (CPR) positioned to receive and store the liquid refrigerant, (iii) an evaporator system including a conduit, an expansion valve, and a fan, and (iv) a controller. The conduit is positioned to receive the liquid refrigerant from the CPR. The expansion valve is positioned between the CPR and the conduit, and configured to facilitate modulating an amount of the liquid refrigerant that flows into the conduit from the CPR. The fan is positioned to facilitate providing a cooling operation to an area associated with the evaporator system through evaporation of the liquid refrigerant flowing through the conduit. The controller is configured to control a stage of the condenser system and/or the evaporator system.

대표청구항 ▼

1. A condenser and evaporator system of a refrigeration system configured to fluidly couple to a compressor system separate from the condenser and evaporator system, the condenser and evaporator system comprising: a condenser and evaporator module including: a condenser system positioned to receive

1. A condenser and evaporator system of a refrigeration system configured to fluidly couple to a compressor system separate from the condenser and evaporator system, the condenser and evaporator system comprising: a condenser and evaporator module including: a condenser system positioned to receive a compressed gaseous refrigerant from the compressor system, the condenser system configured to condense the compressed gaseous refrigerant into a liquid refrigerant;a controlled pressure receiver positioned to receive and store the liquid refrigerant condensed by the condenser system;a compressor conduit extending directly between the controlled pressure receiver and the compressor system, the compressor conduit positioned to direct gaseous refrigerant within the controlled pressure receiver to the compressor system; andan evaporator system including: an evaporator conduit positioned to receive the liquid refrigerant from an outlet conduit of the controlled pressure receiver;an evaporator expansion valve positioned between the outlet conduit of the controlled pressure receiver and the evaporator conduit, the evaporator expansion valve selectively controllable to regulate the amount of the liquid refrigerant that flows into the evaporator conduit from the controlled pressure receiver; andan evaporator fan positioned to cool an area associated with the evaporator system through evaporation of the liquid refrigerant flowing through the evaporator conduit into an evaporated gaseous refrigerant while the evaporator system is being operated in a cooling mode; anda controller configured to (i) control a stage of at least one of the condenser system and the evaporator system to maintain a desired level of the liquid refrigerant within the controlled pressure receiver of the condenser and evaporator module and (ii) maintain a system condensing pressure of the refrigeration system at a target system condensing pressure. 2. The condenser and evaporator system of claim 1, wherein the evaporator system includes a plurality of evaporator systems arranged in parallel with one another. 3. The condenser and evaporator system of claim 2, wherein the plurality of evaporator systems include a first evaporator system and a second evaporator system, wherein the first evaporator system and the second evaporator system are independently controllable such that the first evaporator system and the second evaporator system are operable in a same mode or a different mode at the same time. 4. The condenser and evaporator system of claim 1, wherein the evaporator system is operable in one of the cooling mode, a standby mode, and a defrost mode. 5. The condenser and evaporator system of claim 4, wherein at least a portion of the compressed gaseous refrigerant is provided directly to the evaporator system while the evaporator system is being operated in the defrost mode. 6. The condenser and evaporator system of claim 5, wherein the evaporator system further includes: a liquid trap positioned along the evaporator conduit that is configured to gather defrost condensate refrigerant created during operation of the evaporator system in the defrost mode from the compressed gaseous refrigerant flowing through the evaporator conduit; andan evaporator return line extending directly between the liquid trap and the controlled pressure receiver, the evaporator return line configured to direct the defrost condensate refrigerant to the controlled pressure receiver from the liquid trap. 7. The condenser and evaporator system of claim 1, wherein the condenser system includes: a condenser conduit positioned to receive the compressed gaseous refrigerant from the compressor system; anda condenser fan positioned to facilitate condensing at least a portion of the compressed gaseous refrigerant flowing through the condenser conduit provided by the compressor system into the liquid refrigerant. 8. The condenser and evaporator system of claim 7, wherein the controller is configured to control a speed setpoint of the condenser fan to selectively adjust the stage of the condenser system, and thereby a capacity of the condenser system. 9. The condenser and evaporator system of claim 1, wherein the condenser system is configured to fluidly couple to a fluid cooler separate from the condenser and evaporator system, the fluid cooler configured to provide a cooled working fluid directly to the condenser system to condense the compressed gaseous refrigerant. 10. The condenser and evaporator system of claim 9, wherein the controller is configured to control a flow rate of the cooled working fluid provided by the fluid cooler to selectively adjust the stage of the condenser system, and thereby a capacity of the condenser system. 11. The condenser and evaporator system of claim 1, wherein the controller is configured to control a setpoint of at least one of (i) the evaporator expansion valve and (ii) the evaporator fan to selectively adjust the stage of the evaporator system, and thereby a capacity of the evaporator system to aid in at least one of (i) maintaining the desired level of the liquid refrigerant within the controlled pressure receiver and (ii) providing a desired amount of cooling to a cooling zone associated therewith. 12. The condenser and evaporator system of claim 1, further comprising an evaporator return line extending directly between the evaporator system and the controlled pressure receiver, the evaporator return line positioned to direct defrost condensate refrigerant to the controlled pressure receiver from the evaporator system. 13. The condenser and evaporator system of claim 1, wherein the condenser and evaporator system includes a plurality of condenser and evaporator modules, wherein each of the plurality of condenser and evaporator modules includes a respective condenser system, a respective controlled pressure receiver, and a respective evaporator system. 14. The condenser and evaporator system of claim 13, wherein the controller is configured to control the stage of at least one of the respective condenser system and the respective evaporator system of each of the plurality of condenser and evaporator modules to (i) maintain the desired level of the liquid refrigerant within the respective controlled pressure receiver of each of the plurality of condenser and evaporator modules, (ii) provide a desired amount of cooling to a respective cooling zone associated with the respective evaporator system of each of the plurality of condenser and evaporator modules, and (iii) maintain the system condensing pressure of the refrigeration system at the target condensing pressure. 15. A condenser and evaporator system of a refrigeration system configured to fluidly couple to a compressor system separate from the condenser and evaporator system, the condenser and evaporator system comprising: a plurality of condenser and evaporator modules, wherein each of the plurality of condenser and evaporator modules includes: a condenser system positioned to receive a compressed gaseous refrigerant from the compressor system, the condenser system configured to condense the compressed gaseous refrigerant into a liquid refrigerant;a controlled pressure receiver positioned to receive and store the liquid refrigerant condensed by the condenser system; andan evaporator system including: an evaporator conduit positioned to receive the liquid refrigerant from an outlet conduit of the controlled pressure receiver;an evaporator expansion valve positioned between the outlet conduit of the controlled pressure receiver and the evaporator conduit, the evaporator expansion valve selectively controllable to regulate the amount of the liquid refrigerant that flows into the evaporator conduit from the controlled pressure receiver; andan evaporator fan positioned to cool an area associated with the evaporator system through evaporation of the liquid refrigerant flowing through the evaporator conduit into an evaporated gaseous refrigerant while the evaporator system is being operated in a cooling mode; anda controller configured to (i) control a stage of at least one of the condenser system and the evaporator system of each of the plurality of condenser and evaporator modules to maintain a desired level of the liquid refrigerant within the controlled pressure receiver of each of the plurality of condenser and evaporator modules and (ii) maintain a system condensing pressure of the refrigeration system at a target system condensing pressure.