A refrigeration cycle apparatus includes a refrigerant circuit, a controller, a bypass pipe, a refrigerant cooler, a second expansion device, and a controller temperature sensor. In a case where a temperature measured by the controller temperature sensor is lower than or equal to a set temperature in a state where an opening degree of the second expansion device is controlled to an instruction opening degree that is lower than or equal to a set opening degree, the controller is configured to perform foreign substance release control where the controller is configured to increase the opening degree of the second expansion device and then is configured to return the opening degree of the second expansion device to the instruction opening degree.

A household refrigeration appliance has a thermally-insulated body with an interior container that delimits a coolable interior space, a refrigeration circuit for cooling the coolable interior space and at least one fan. During the proper operation of the household refrigeration appliance, the fan is operated in a closed loop speed-controlled manner according to an at least indirectly specified desired rotational speed of the fan. During an inspection mode, the fan is operated without closed loop speed control, the actual rotational speed of the fan is ascertained and the actual rotational speed is evaluated in order to detect an abnormal operating state of the fan.

A lubricant additive for introduction into a AC/R system to improve lubricant miscibility and performance in the AC/R system.

A lubricant additive for introduction into a AC/R system to improve lubricant miscibility and performance in the AC/R system.

Apparatus for cooling an object, space, or tissues of a patient. A vacuum chamber is designed to be placed in thermal contact with the object or space to be cooled, or against a patient to be treated. A water sprayer is configured to spray water into the vacuum chamber or against a cooling wall of the chamber. A vacuum pump and control are designed to maintain vacuum below ambient pressure in the vacuum chamber sufficient to cause accelerated evaporation of the water and cooling to a temperature desired for cooling of the object, space, or patient.

In an embodiment, a method of preventing evaporator coil freeze in a heating, ventilation and air conditioning (HVAC) system includes determining a reference saturated suction temperate (SST) via a sensor disposed in relation to an evaporator coil in the HVAC system, where the HVAC system is operating in reheat dehumidification mode. The method also includes determining whether the reference SST is below a minimum SST threshold. The method also includes, responsive to a determination that the reference SST is below the minimum SST threshold, determining a decreased compressor speed. The method also includes modulating a variable-speed compressor in the HVAC system in correspondence to the decreased compressor speed.

A refrigeration cycle device with a main circuit, a bypass circuit and a supercooling heat exchanger further includes: a controller to control an opening degree of the bypass expansion valve; a first sensor to detect a temperature at the refrigerant inflow side of the evaporator; and a second sensor to detect a pressure of the non-azeotropic mixed refrigerant flowing from the evaporator, wherein the controller controls the opening degree of the bypass expansion valve using temperatures of the evaporator, that is, the temperature at the refrigerant inflow side and a saturated gas temperature of the non-azeotropic mixed refrigerant calculated from the pressure so as to adjust a flow rate of the non-azeotropic mixed refrigerant flowing into the evaporator, to eliminate the temperature difference in the evaporator for suppressing uneven frost formation on the evaporator, and thus to prevent heat exchange performance from degrading.

An injector for servicing a refrigerant system employs a reconfigurable container that is selectively configurable in a plurality of different container configurations. In each container configuration, an outlet of the reconfigurable container can be fluidly connected to the refrigerant system such that the injector can discharge treatment fluid through the outlet into the refrigerant system. The plurality of different container configurations can include a plurality of different fillable container configurations or one or more fillable container configurations and a pass-through configuration. In a fillable container configuration, the reconfigurable container defines a fillable space for receiving treatment fluid. In a pass-through container configuration, the reconfigurable container passes fluid from a disposable container through the outlet. In use, the desired container configuration is selected and fluid is injected from the injector into a refrigerant system.

An injector for servicing a refrigerant system employs a reconfigurable container that is selectively configurable in a plurality of different container configurations. In each container configuration, an outlet of the reconfigurable container can be fluidly connected to the refrigerant system such that the injector can discharge treatment fluid through the outlet into the refrigerant system. The plurality of different container configurations can include a plurality of different fillable container configurations or one or more fillable container configurations and a pass-through configuration. In a fillable container configuration, the reconfigurable container defines a fillable space for receiving treatment fluid. In a pass-through container configuration, the reconfigurable container passes fluid from a disposable container through the outlet. In use, the desired container configuration is selected and fluid is injected from the injector into a refrigerant system.

A planar sealing panel member for cleaning the condenser coils of a cooling appliance. This member has at least one hole in its surface to accommodate a hose supplying compressed air. It also has affixation means on its surface so as to hold the sealing panel against the cooling appliance adjacent the opening(s) holding the condenser coils to form a substantially sealed enclosure along with the appliance structure within which the coils reside when cleaned using compressed air.