How Do The Basics of Compressor-Based
Refrigeration Work?
This study has shown that
how the compressors based refrigeration have worked and its fundamental
principles.
That the compressor-based
refrigeration is used has large capacity lines of recirculating chillers. The
basics of compressor-based refrigeration are clarified below;
Fundamental Physical Principles
While endeavouring to
understand how a compressor based cooling system works, you must be keeping
three physical phenomena in mind:
-The gas’ temperature
increases even as It is compressed. On the contrary, Its temperature is going
down when it is expanded. This is one of the ramifications of the First Law of
Thermodynamics.
-That it boils or
condenses makes the temperature of a pure liquid remain stable . We have all
witnessed this phenomenon in our kitchens. The temperature remains constant at
212°F or 100°C degrees when water is liquid, supposing
that you measure the temperature of water just as it boils. On the other hand, when
gases are condensed, the system temperature remains irremovable until all the
gas turns into a liquid.
-Consequently, a fluid is
in need of a remarkable amount of energy to undergo phase change. As an
illustration, To completely boil a given amount of water requires more energy
than to take that same quantity of water from 32°F(0°C) to 211°F(99°C), which
means that a significant amount of energy can be stored and then released only
during a phase change.
The Refrigeration Cycle
As the name states, the
refrigeration cycle is a continuous(ongoing,steady) process which refrigerant
moves to the condenser from the compressor, through a metering device, to an
evaporator, and then this cycle repeats at the same way (see figure 1).
The compressor has definitely
works as its name has been referred to : which compresses the refrigerant. The
compressor receives low pressure gas from the evaporator and transforms the low
pressure gas to high pressure gas. As is mentioned before, the temperature
rises in the process of the gas is compressed.
The hot refrigerant gas
then flows to the condenser. The condenser is a heat exchanger that uses a
colder fluid, typically ambient air, to cool the refrigerant. As refrigerant
flows through this heat exchanger, it condenses to a hot liquid. Liquid
refrigerant exits the condenser and flows to the system's metering device.
The metering device can
be an expansion valve or a capillary tube and is used to create a pressure
drop. As mentioned earlier, the temperature and boiling point of liquids
decrease as the pressure decreases. Some refrigerant liquid vaporizes and the
temperature of the liquid-gas mixture drops. The cool refrigerant then flows to
the evaporator.
The evaporator is another
heat exchanger that allows heat to move between the medium we wish to keep
cool, called the heat source, and the refrigerant. In a chiller, the heat
source is the cooling fluid, which flows into your equipment. The refrigerant
enters the evaporator as a low temperature gas-liquid mixture. By design, the
temperature of the heat source is always higher than the refrigerant's boiling
point. In the evaporator, the refrigerant vaporizes as it absorbs heat from the
heat source. The refrigerant's temperature remains constant as it vaporizes.
The refrigerant then exits the evaporator as a gas, enters the compressor and
the cycle starts again.
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