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The refrigerant which was in the form of gas before entering the condenser, condenses (converts to liquid refrigerant) as a result of the gas being compressed. This condensation will release heat which is partly taken away by the function of the fan (the rotating blades) in order to prevent the compressor from overheating.
The refrigerant which was in the form of gas before entering the condenser, condenses (converts to liquid refrigerant) as a result of the gas being compressed. This condensation will release heat which is partly taken away by the function of the fan (the rotating blades) in order to prevent the compressor from overheating.
It's transferred to the air which passes through the condenser fins.
The condenser receives hot high pressure gas refrigerant from the air conditioning compressor.
The condenser coil, sometimes coils depending on the model, rests outside of the refrigerator compartment. Refrigerant, in a gas form and very warm, travels to the condenser coil where it cools and condenses into a liquid form as it moves through each pass of the coil. Once in a liquid state, the refrigerant is stored in a reservoir until needed for the refrigeration cycle to begin again.
In Liquid state
Refrigerant enters the condenser as a high pressure vapor. In the condenser, the heated refrigerant is cooled by transferring its heat to the air which passes through the condenser fins, and it changes state to a liquid during this time.
Vapor turning to liquid
The refrigerant which was in the form of gas before entering the condenser, condenses (converts to liquid refrigerant) as a result of the gas being compressed. This condensation will release heat which is partly taken away by the function of the fan (the rotating blades) in order to prevent the compressor from overheating.
The refrigerant which was in the form of gas before entering the condenser, condenses (converts to liquid refrigerant) as a result of the gas being compressed. This condensation will release heat which is partly taken away by the function of the fan (the rotating blades) in order to prevent the compressor from overheating.
According to state of the outlet refrigerant from compressor, it's better we use refrigerant temperature.
Refrigerant enters the condenser as a high pressure vapor. In the condenser, the heated refrigerant is cooled by transferring its heat to the air which passes through the condenser fins, and it changes state to a liquid during this time.
Refrigerant should be removed from the condenser outlet when:
what happens when refrigerant enters the condenser
The Refrigerant enters the condenser as a high pressured gas, the condenser then condenses that gas and changes it to a liquid form.
Low pressure vapor
Refrigerant is pumped out of the compressor as a high pressure vapor, and it goes into the condenser inlet as such. The condenser acts as a heat exchanger, transferring heat from the refrigerant to the air which passes over the condenser fins. While in the condenser, the refrigerant will change state from a high pressure vapor to a high pressure liquid, then it moves on to the receiver-drier (on a thermal expansion valve system) or the orifice tube (on a fixed orifice tube system).