Final answer:
The heat transfer from the refrigerated space, resulting in vaporization of the refrigerant, is associated with a Vapor-Compression Heat Pump. This process involves the absorption of heat by the refrigerant as it vaporizes, then releasing the heat outside the refrigerated space when it condenses.
Step-by-step explanation:
The term defined as "The heat transfer from the refrigerated space resulting in the evaporation vaporization of the refrigerant" is Vapor-Compression Heat Pump. This process involves using heat from the environment to vaporize the refrigerant, which absorbs heat energy from the refrigerated space. The refrigerant is then compressed and condensed back into a liquid, releasing the absorbed heat outside the refrigerated environment. This cycle is used in refrigeration systems to lower the temperature of the air within the space being cooled.
Heat Transfer in Refrigeration
In refrigeration, work is done to remove heat energy from air within a space to lower its temperature. Refrigerators and air conditioners operate by absorbing heat to vaporize a refrigerant. After the vaporization, the vapor is transported, compressed, and then condensed, which releases heat to the surroundings. This heat transfer and the conversion from liquid to vapor and back is central to the function of a Vapor-Compression Heat Pump.