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Portable Chiller Systems Glossary: C

Capillary Tube

A capillary tube is a very small tube or multiple tubes through which refrigerant is forced in order to reduce the pressure of the liquid in a controlled manner and maintain a desired temperature. The amount by which the pressure is reduced is determined by the length and diameter of the capillary tube.

Cascade

Cascade Chiller Systems combine two separate refrigeration cycles that share one Heat Exchanger. One side of the heat exchanger is used for Evaporating the refrigerant of the First Cycle (High Stage) and the other side to Condense the refrigerant of the Second Cycle (Low Stage). Cascade systems are used in applications in which there is a wide temperature range between the low amd high side, and use two different type of refrigerants which are ideal for their stage and complement each other in the refrigeration process. Essentially, the first stage brings the system's temperature down to a point at which the second stage can rapidly bring the temperature of the Heat Transfer Fluid (and thereby the process) down to Set Point.

Chiller

A Chiller is a machine, piece of equipment or device that circulates liquid (Heat Transfer Fluid) to a process or process stream in order to remove heat from that system, protect the process and facilitate the result. Cooling usually is achieved via a vapor-compression refrigeration cycle in which Heat Transfer Fluid is circulated through a Heat Exchanger in which the refrigerant stream removes the heat from the heat transfer fluid and thereby the process. There are two primary trypes of Chillers: Water Cooled Chillers, in which the heat is rejected via water flow (see Water Cooled Chillers) and Air cooled Chillers, in which a CDA (Clean Dry Air) stream rejects the heat to ambience (see Air Cooled Chillers). Cryogenic Chillers are also now available, in which the removal of Heat from the Heat Transfer Fluid is accomplished via an N2 supplied/filled chamber from which the rejected heat is expelled to ambience via fan systems.

Cold Trap

The cold trap is a device that condenses all vapors in a gaseous stream, with the exception the desired gas(es), into a liquid or solid in order to prevent the contamination of the next step of a process, or to protect a system component (typically Pumps) from contamination and/or damage. Chillers are employed as dedicated Cold Traps in specialized processes such as De-Vulcanization.

Compressor

The Compressor is the central component of a refrigeration system, pumping Refrigerant at the required pressure and in sufficient quantities in order to meet the cooling requirements of the system. The compressor compresses the saturated vapor coming from the evaporator to a high pressure state, resulting in a superheated vapor which is then condensed (rejecting heat from the system) then evaporated, cooling the load.

Condenser

In heat transfer technology, a condenser is a device used to condense a substance from a gaseous state into a liquid one, by cooling it. In Chiller Technology, circulating refrigerant leaves the compressor as saturated vapor in a high pressure state and enters the Condenser Coils where it is cooled, usually by air (or water in water-cooled systems) flowing across the coils, thereby rejecting the heat, which is then transferred to, or beyond, the surrounding environment.

Controller

In Chiller Technology, Controllers (small computer devices usually physically installed as part of the Chiller Unit) are used to control the Chiller's tasks, from simple ramping to and holding a chilled state in a process, to sophisticated programming such as Cycling and Looping with provisions for Multiple Set Points, Ramp, Soak and Window.

Cycle

In Programmed Temperature Control, a Cycle is one set of programmed tasks or events, called Segments. Typical Segments may be devoted to Running to (a) Set Point, Ramp (the amount of time the system takes to reach Set Point), Soak (the amount of time a setpoint is maintained) and Window (the amount of leeway allowed, or degree of accuracy required, above/below the Set Point, in determining whether the system is 'At Temperature). Any Cycle may, additionally, be programmed to 'Loop' or repeat a designated number of times (see 'Loop').