A heating, ventilation, and air conditioning (HVAC) system having a condenser, an evaporator, a heater, a compressor, and a heat exchanger. The heat exchanger is in an auxiliary case that is spaced apart from the heater and the evaporator. The heat exchanger is in fluid communication with the condenser and the compressor. In a heating mode, refrigerant warmed by the compressor circulates through the heat exchanger to warm airflow moving across the heat exchanger. In a cooling mode, refrigerant cooled by the condenser circulates through the heat exchanger to cool airflow moving across the heat exchanger.

Disclosed are a refrigerator and a control method thereof. The refrigerator according to one aspect includes a main body having a storage chamber; a compressor configured to compress a refrigerant; a condenser configured to condense the refrigerant compressed by the compressor; an evaporation expander configured to depressurize the refrigerant condensed by the condenser; a first evaporator configured to evaporate the refrigerant depressurized by the evaporation expander and thus to cool the storage chamber; a condensing expander installed between the condenser and the evaporation expander and configured to depressurize the refrigerant condensed by the condenser; and a subsidiary condenser installed between the condensing expander and the evaporation expander and configured to condense the refrigerant depressurized by the condensing expander.

The invention relates to a system that is added to a standard vehicle installed air-conditioning system that allows the standard vehicle installed air-conditioning system to cool and condition the air inside the vehicle without operating the engine of the vehicle. This allows the vehicle to be air-conditioned without polluting the air via continuous operation of the vehicle's (usually) diesel engine. Also, a thermal heating tank is included to warm the electrical components of the system and to ensure improved morning starting of the vehicle's engine.

The invention relates to a system that is added to a standard vehicle installed air-conditioning system that allows the standard vehicle installed air-conditioning system to cool and condition the air inside the vehicle without operating the engine of the vehicle. This allows the vehicle to be air-conditioned without polluting the air via continuous operation of the vehicle's (usually) diesel engine. Also, a thermal heating tank is included to warm the electrical components of the system and to ensure improved morning starting of the vehicle's engine.

A heat pump system includes a first air-conditioning apparatus, a ventilator, and a refrigerant circuit. The first air-conditioning apparatus includes a compressor, an outdoor-side heat exchanger, an expansion device, and an indoor-side heat exchanger, and air-conditions a first space. The ventilator includes a first auxiliary heat exchanger, and ventilates and air-conditions a second space different from the first space. In the refrigerant circuit, the compressor, the outdoor-side heat exchanger, the first auxiliary heat exchanger, the expansion device, and the indoor-side heat exchanger are sequentially connected by a refrigerant pipe to allow refrigerant to circulate. The first auxiliary heat exchanger is provided in a supply air passage in the ventilator.

A heat pump system includes a first air-conditioning apparatus, a ventilator, and a refrigerant circuit. The first air-conditioning apparatus includes a compressor, an outdoor-side heat exchanger, an expansion device, and an indoor-side heat exchanger, and air-conditions a first space. The ventilator includes a first auxiliary heat exchanger, and ventilates and air-conditions a second space different from the first space. In the refrigerant circuit, the compressor, the outdoor-side heat exchanger, the first auxiliary heat exchanger, the expansion device, and the indoor-side heat exchanger are sequentially connected by a refrigerant pipe to allow refrigerant to circulate. The first auxiliary heat exchanger is provided in a supply air passage in the ventilator.

The present disclosure relates to a heating, ventilating, and air conditioning (HVAC) unit including a first refrigeration circuit having a first compressor and a first condenser, a second refrigeration circuit having a second compressor and a second condenser, a first fan configured to generate airflow over the first condenser, a second fan configured to generate airflow over the second condenser, an evaporator common to the first refrigeration circuit and the second refrigeration circuit, and a controller configured to control operation of the HVAC unit according to an active staging operation of a plurality of staging operations, wherein the plurality of staging operations comprises at least three stages of operation in which each of the first and second compressors individually operates in a selection of at least two compression settings and each of the first and second fans individually operates in a selection of at least two speed settings.

The present disclosure relates to a heating, ventilating, and air conditioning (HVAC) unit including a first refrigeration circuit having a first compressor and a first condenser, a second refrigeration circuit having a second compressor and a second condenser, a first fan configured to generate airflow over the first condenser, a second fan configured to generate airflow over the second condenser, an evaporator common to the first refrigeration circuit and the second refrigeration circuit, and a controller configured to control operation of the HVAC unit according to an active staging operation of a plurality of staging operations, wherein the plurality of staging operations comprises at least three stages of operation in which each of the first and second compressors individually operates in a selection of at least two compression settings and each of the first and second fans individually operates in a selection of at least two speed settings.

A refrigeration system includes a compressor configured to compress a refrigerant, a condenser configured to condense the compressed refrigerant introduced from the compressor, a main flow passage configured to deliver the refrigerant compressed in the compressor to the condenser, a heat storage tank configured to partially store the heat of the refrigerant discharged from the compressor, an auxiliary flow passage configured to deliver the refrigerant compressed in the compressor to the heat storage tank, an expansion valve configured to expand the refrigerant condensed in the condenser, and an evaporation-side composite heat exchanger configured to evaporate the expanded refrigerant.

A refrigeration system includes a compressor configured to compress a refrigerant, a condenser configured to condense the compressed refrigerant introduced from the compressor, a main flow passage configured to deliver the refrigerant compressed in the compressor to the condenser, a heat storage tank configured to partially store the heat of the refrigerant discharged from the compressor, an auxiliary flow passage configured to deliver the refrigerant compressed in the compressor to the heat storage tank, an expansion valve configured to expand the refrigerant condensed in the condenser, and an evaporation-side composite heat exchanger configured to evaporate the expanded refrigerant.