A support system includes a display and a server. Upon acquiring first information on arrangement of a first refrigerant shut-off unit, second information on each of utilization-side units in a first utilization-side unit group, and third information on one of or both a length and an internal volume of the first connection pipe group, the server determines, based on an allowable leakage amount of the refrigerant into a space where a corresponding one or more utilization-side units is installed, whether the first, second, and third information are suitable for the design, and causes the display to display a result of the determination; or the server calculates a first refrigerant amount as a sum of an amount of the refrigerant in the first refrigerant circuit and an amount of the refrigerant, and causes the display to display the first refrigerant amount.

A cryocooler includes a motion conversion mechanism that converts rotating motion output by a motor into linear reciprocating motion of a displacer and includes a first component and a second component slidably connected to each other, a measuring instrument that is connected to the motor to output time-series data indicating power consumption of the motor or a current flowing through the motor, and a processing unit that detects abrasion of a sliding surface between a first component and a second component of the motion conversion mechanism on the basis of section data including an intake start timing or an exhaust start timing in the time-series data.

A water-based refrigerant for a thermal working machine. The refrigerant for a thermal working machine (150) having an evaporator (A), a condenser (B), a compressor (C.sub.GL), and a throttle element (D). The refrigerant is based on water and comprises a refrigerant component with a hydroxyl group, for example in the form of ethanol. The use of such a mixture as a refrigerant for a thermal working machine and for a thermal working machine having such a refrigerant, and to a method for operating a thermal working machine having such a refrigerant is also disclosed.

A method of controlling a transport climate control system includes detecting for leaking of working fluid from a climate control circuit. The method also includes isolating a high-pressure side of the climate control circuit when leaking of the working fluid is detected. A method of controlling a transport climate control circuit includes detecting for overcharge and/or an undercharge of the climate control circuit. A transport climate control system includes a climate control circuit and a climate controller that is configured to detect for working fluid leaking from the climate control circuit. The climate controller configured to isolate a high-pressure side of the climate control circuit when leaking of the working fluid is detected.

A method of controlling a transport climate control system includes detecting for leaking of working fluid from a climate control circuit. The method also includes isolating a high-pressure side of the climate control circuit when leaking of the working fluid is detected. A method of controlling a transport climate control circuit includes detecting for overcharge and/or an undercharge of the climate control circuit. A transport climate control system includes a climate control circuit and a climate controller that is configured to detect for working fluid leaking from the climate control circuit. The climate controller configured to isolate a high-pressure side of the climate control circuit when leaking of the working fluid is detected.

Technologies described herein are directed to isolating or insulating at least portions of an evaporator coil within a climate control unit (CCU) of a TCCS so as to reduce or even eliminate adverse effects caused by a leaked working fluid. Such adverse effects may include a threat of ignition, asphyxiation of occupants, damage to cargo, and other harmful effects caused by emission of a noxious gas. A leak isolation structure is provided to isolate evaporator tubes of an evaporator coil from at least one of a plurality of turns of the evaporator coil.

Method for testing the functional stability of a controller of a refrigerating machine where the controller performs control cycles. The testing method comprises a step (100) of recording a set of current values of input variables, status variables and output variables of the controller, and a subsequent execution step (200), in which the values of the status variables and input variables recorded in the recording step are forced in the controller as inputs and values of the output variables are recorded in order to compare them with the values of the output variables recorded in the recording step (100).

Compact device for conditioning of foods allowing it to be always visible and using little physical space. The device may feature both heating and cooling functions, but is preferably used for cooling fruits, vegetables, accessory fruits, roots and others. The device was developed to be compact, having a translucent cover, and allowing the device to be in the field of vision of people, thus offering better visibility and increasing food consumption. Developed preferably with polymeric material, the body has the function of protecting all the internal constituents of the device, the base of the device is responsible for thermal stability, keeping low or high temperature in the compartment for longer periods, the bowl of the device is responsible for holding food within the cooled or heated area and the food conditioning cover is made of a translucent material, with the function of keeping thermal stability.

Compact device for conditioning of foods allowing it to be always visible and using little physical space. The device may feature both heating and cooling functions, but is preferably used for cooling fruits, vegetables, accessory fruits, roots and others. The device was developed to be compact, having a translucent cover, and allowing the device to be in the field of vision of people, thus offering better visibility and increasing food consumption. Developed preferably with polymeric material, the body has the function of protecting all the internal constituents of the device, the base of the device is responsible for thermal stability, keeping low or high temperature in the compartment for longer periods, the bowl of the device is responsible for holding food within the cooled or heated area and the food conditioning cover is made of a translucent material, with the function of keeping thermal stability.

An HVAC system includes an evaporator coil and a compressor fluidly coupled to the evaporator coil. A condenser coil is fluidly coupled to the compressor. The condenser coil includes at least one condenser circuit fluidly coupled between a discharge line and an exit manifold. A sub-cool circuit is fluidly coupled between the exit manifold and a liquid line. A first temperature sensor is disposed at an entrance to the sub-cool circuit. A second temperature sensor is disposed at an exit to the sub-cool circuit. An HVAC controller is operatively coupled to the first temperature sensor and the second temperature sensor. The HVAC controller is configured to determine a temperature difference across the sub-cool circuit.