A cooling system for a photovoltaic panel including micro flat heat pipes (HP) integrated with thermoelectric generators (TEG) and a cooled water reservoir for cooling the working fluid in heat pipes. The cooled water in the reservoir is pumped from the condensate pan of an air conditioner. Experimental results show that cooling system reduced the average temperature of the panel by as much as 19 C. or 25%. Further, the output power of the photovoltaic panel increased by 44% when the photovoltaic panel was used in a very hot climate (30-40 C.). An additional two watts of power was generated by the TEGs.

Embodiments of the present disclosure relate to a condenser assembly for a heating, ventilation, and/or air conditioning (HVAC) system that includes a condenser coil having a plurality of tubes configured to flow a refrigerant therethrough for heat transfer between the refrigerant and a flow of air passing across the plurality of tubes, and a porous material having a plurality of fluid retaining passages, in which the plurality of fluid retaining passages is configured to receive a fluid and enable the flow of air to pass through the porous material and transfer of thermal energy to between the fluid and the flow of air. The porous material is disposed upstream of the condenser coil with respect to the flow of air such that the flow of air passes through the porous material before passing across the plurality of tubes.

In an air conditioner, an inlet pipe penetrates a location that is offset towards an outer circumferential side from an apex portion of a top portion. The suction pipe penetrates a location that is offset towards the outer circumferential side from an apex portion of a bottom portion and is inserted into the interior of the main body portion, and the suction inner pipe, which constitutes a portion of the suction pipe that lies in the interior of the main body portion, extends as far as an upper portion of the main body portion so that an inlet port is disposed in a space defined by the top portion. Then, the suction inner pipe includes a bend portion that is bent from a location lying slightly above a location where the suction pipe penetrates the bottom portion as an originating point.

In an air conditioner, an inlet pipe penetrates a location that is offset towards an outer circumferential side from an apex portion of a top portion. The suction pipe penetrates a location that is offset towards the outer circumferential side from an apex portion of a bottom portion and is inserted into the interior of the main body portion, and the suction inner pipe, which constitutes a portion of the suction pipe that lies in the interior of the main body portion, extends as far as an upper portion of the main body portion so that an inlet port is disposed in a space defined by the top portion. Then, the suction inner pipe includes a bend portion that is bent from a location lying slightly above a location where the suction pipe penetrates the bottom portion as an originating point.

An evaporative cooling device may be provided. The device may comprise a plurality of rollers, a screen looped around the plurality of rollers, a motor coupled to at least one roller and configured to drive the at least one roller, a basin configured to hold a liquid within an interior of the basin, and wherein at least one roller is at least partially within the interior of the basin. The screen may travel into the basin and capture an amount of the liquid. As the liquid is drawn into an airstream feeding a heat rejection device, the liquid may evaporate, cooling the air. The cooled air may provide a more efficient heat rejection device.

An evaporative cooling device may be provided. The device may comprise a plurality of rollers, a screen looped around the plurality of rollers, a motor coupled to at least one roller and configured to drive the at least one roller, a basin configured to hold a liquid within an interior of the basin, and wherein at least one roller is at least partially within the interior of the basin. The screen may travel into the basin and capture an amount of the liquid. As the liquid is drawn into an airstream feeding a heat rejection device, the liquid may evaporate, cooling the air. The cooled air may provide a more efficient heat rejection device.

Provided is an air conditioner comprising an outdoor unit comprising an outdoor heat exchanger; and an injection device configured to inject water to the outdoor unit, the injection device including a water tank configured to store water; a nozzle configured to inject the water to the outdoor heat exchanger; a communication interface; a memory storing at least one instruction; and at least one processor configured to: obtain state information of the outdoor unit, wherein the obtained state information includes at least one of condenser operating frequency information or fan revolution per minute information of the outdoor unit, and control a water injection operation of the nozzle to inject water to the outdoor heat exchanger, in accordance with the at least one of the condenser operating frequency information or the fan revolution per minute (RPM) information of the outdoor unit included in the obtained state information.

Provided is an air conditioner comprising an outdoor unit comprising an outdoor heat exchanger; and an injection device configured to inject water to the outdoor unit, the injection device including a water tank configured to store water; a nozzle configured to inject the water to the outdoor heat exchanger; a communication interface; a memory storing at least one instruction; and at least one processor configured to: obtain state information of the outdoor unit, wherein the obtained state information includes at least one of condenser operating frequency information or fan revolution per minute information of the outdoor unit, and control a water injection operation of the nozzle to inject water to the outdoor heat exchanger, in accordance with the at least one of the condenser operating frequency information or the fan revolution per minute (RPM) information of the outdoor unit included in the obtained state information.

The present invention relates to a heat exchanger arrangement for use with an air conditioning system of the type comprising a condenser, an expansion device, an evaporator and a compressor connected in a refrigeration circuit filled with refrigerant. The heat exchanger arrangement comprises a collector arrangement for collecting condensate fluid that has condensed on the evaporator as condensate fluid. The heat exchanger arrangement also comprises a first heat exchanger configured for facilitating the transfer of heat from an airflow flowing to the condenser, to condensate received from the evaporator.

The present invention relates to a heat exchanger arrangement for use with an air conditioning system of the type comprising a condenser, an expansion device, an evaporator and a compressor connected in a refrigeration circuit filled with refrigerant. The heat exchanger arrangement comprises a collector arrangement for collecting condensate fluid that has condensed on the evaporator as condensate fluid. The heat exchanger arrangement also comprises a first heat exchanger configured for facilitating the transfer of heat from an airflow flowing to the condenser, to condensate received from the evaporator.