Saturday, June 8, 2019
Thrmodynamecs Coursework Example | Topics and Well Written Essays - 500 words - 1
Thrmodynamecs - Coursework ExampleThe coolant that is in liquid form gets into the expansion valve is shown by 1. on that point is a sudden decline in pressure that causes the liquid to expand cool and vaporize into gas as it advances to the inner compartment of the fridge. There is a labialize pipe buried at the sanction wall of the fridge through which the liquid passes, and this chiller cabinet serves an important role of absorbing heat from the nutrition inside the compartments. This is true according Kelvin-Planck law that states that heat transfer occurs from a region of high temperature to the region of low temperature. This law accounts for limitations of the first law of thermodynamics for helplessness to give the direction of heat flow. The part labeled 3 represents the compressor whose purpose is to convert the coolant into a hot high-pressure gas. This compressor squeezes the coolant raising its temperature and pressure (Serway, Faughn, & Vuille, 2009). The coolant p asses through quash radiator pipes at the back of the fridge represented by the part labeled 4. In this radiators, most of the heat in the fluid is given out and cools back into a liquid as it advances to the next level. It is equally important to notice that Kelvin-Planck law requires that heat transfer should occur from a warmer to a tank car environment. The liquid then passes through an insulated cabinet to the expansion valve back to the reservoir, and the whole process repeats over and again. Eventually, all the heat in the compartments containing food or beverages is all extracted resulting to temperatures that are too low for invasion of bacteria that causes decomposition of food (Serway, Faughn, & Vuille, 2009).The objective of a refrigerator is to remove heat from a cold medium. On the other hand, the objective of the heat pumps is to take energy from a cold source. Then transfer it to a hot source for purposes of raising the temperature of the part or
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