| CPC F25B 40/04 (2013.01) [F25B 5/02 (2013.01); F25B 9/008 (2013.01); F25B 41/22 (2021.01); F25B 49/027 (2013.01); F25B 2309/06 (2013.01); F25B 2400/22 (2013.01); F25B 2600/2503 (2013.01)] | 6 Claims |
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1. A method of dual heat reclamation from a refrigeration system, the method comprising:
providing a condenser, an expansion valve; an evaporator and a compressor;
providing a refrigerant conduit defining a cyclic flow path for a refrigerant from the condenser to the expansion valve to the evaporator to the compressor and back to condenser;
providing a compressor valve located in the refrigerant conduit at a position between the compressor and the condenser;
providing a condenser outlet valve located in the refrigerant conduit at a position between the condenser and the expansion valve;
providing a reclaim coil being a condenser located in a heating, ventilation, and air conditioning (HVAC) unit, the reclaim coil being located adjacent to a cooling coil for cooling and dehumidifying an air stream passing over said cooling coil,
providing a first reclaim coil conduit defining a flow path for the refrigerant from the compressor valve through the reclaim coil and then to the refrigerant conduit at a position between the compressor valve and the condenser whereby the refrigerant flows from the first reclaim coil conduit into the refrigerant conduit and then to the condenser through the refrigerant conduit;
providing a second reclaim coil conduit defining a flow path for the refrigerant from the condenser outlet valve through the reclaim coil to the refrigerant conduit at a position between the condenser outlet valve and the expansion valve whereby the refrigerant flows from the second reclaim coil conduit into the refrigerant conduit and then to the expansion valve through the refrigerant conduit;
providing at least one of a flash gas flow sensor for measuring a mass flow of gas exiting the flash tank, the flash gas flow sensor being in fluid communication with the bypass conduit, a refrigerant temperature sensor located in the refrigerant conduit at the exit of the condenser outlet valve for measuring a temperature of the refrigerant in the refrigerant conduit at the exit of the condenser outlet valve and an ambient air temperature sensor located outside of a space in which the refrigeration system is located for measuring an ambient outdoor temperature;
providing a controller operatively connected to the refrigerant temperature sensor and/or the ambient air temperature sensor for receiving data from said sensors, the controller being operatively connected to the condenser outlet valve and to the compressor valve;
circulating a refrigerant having a critical temperature of less than 95° F. through the refrigerant conduit;
determining that the temperature of the interior space is above a user defined intermediate high temperature threshold as detected by a temperature sensor in the interior space
operating the HVAC unit in a non-dehumidification mode and a non-cooling mode;
determining by means of the controller that the refrigeration system would benefit from subcooling in response to data received from at least one of the flash gas flow sensor, the refrigerant temperature sensor and the ambient air sensor;
selectively operating by means of the controller, the compressor valve and the condenser outlet valve between first and second positions in response data received from at least one of the flash gas flow sensor, the refrigerant temperature sensor and the ambient air sensor, whereby said compressor valve directs a flow of the refrigerant through the first reclaim coil conduit when in the first position, said compressor valve directs a flow of the refrigerant through the refrigerant conduit to the condenser when said compressor valve is in the second position, and whereby said condenser outlet valve directs a flow of the refrigerant through the refrigerant conduit from the compressor to the expansion valve when said condenser outlet valve is in the first position, said condenser outlet valve directs a flow of the refrigerant through the second reclaim coil conduit when said condenser outlet valve is in the second position, said selective operation being made to operate the refrigeration system in subcooling mode with the compressor valve and the condenser outlet valve being in the second positions upon said determination that the refrigeration system would benefit from subcooling in response to data received from the at least one of the flash gas flow sensor, the refrigerant temperature sensor and the ambient air sensor;
determining after a period of time of operation in the subcooling mode whether the temperature of the interior space has risen above a user defined high temperature threshold as detected by a temperature sensor in the interior space;
operating by means of the controller, the compressor valve and the condenser valve to closed positions thereby terminating a reheat operation in response to a determination that the temperature of the interior space has risen above the high temperature threshold;
in response to a determination made after the period of time of operation in the subcooling mode that the temperature of the interior space has not risen above the high temperature threshold of as detected by a temperature sensor in the interior space then conducting an estimation of the efficiency of the refrigeration system measured as a ratio of useful heating or cooling provided to work energy required (COP) after subcooling compared to a COP of the system before artificial subcooling;
in response to a determination that the system still benefits from subcooling, operating by means of the controller, the compressor valve and the condenser valve to the second positions; and
in response to a determination that the system no longer benefits from subcooling, operating by means of the controller, the compressor valve and the condenser valve to the closed positions.
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