If a recovery cylinder were filled with liquid refrigerant and allowed to warm up, the liquid refrigerant would begin to vaporize as it absorbs heat energy from the surroundings. As the temperature of the refrigerant increases, its pressure would also rise due to the temperature-pressure relationship defined by the refrigerant's specific properties. Eventually, the refrigerant would reach a point where it transitions completely into a vapor state, filling the recovery cylinder with refrigerant vapor.
An overcharge of refrigerant in the system would typically result in less subcooling in the condenser. This is because the excess refrigerant can lead to higher pressures in the system, causing the refrigerant to be more volatile and reducing the amount of subcooling that occurs in the condenser.
Trying to stop escaping liquid refrigerant with your hands can result in severe frostbite or skin damage due to the extremely low temperatures of the refrigerant. Additionally, it can lead to respiratory issues if inhaled, as refrigerants can displace oxygen or be harmful when vaporized. It's crucial to use appropriate safety equipment and procedures when handling refrigerants to avoid personal injury and ensure safety.
Refrigerant compaticilty is about suiting the refrigerant to your refrigerant system. Every cooling system has refrigerant in it which depends on the type of system you use. If the refrigerant not matches with your system, it wont work. This is refrigerant compatibility.
The critical pressure of a refrigerant is the pressure at which the liquid and vapor phases of the refrigerant become indistinguishable at the critical point. Beyond this pressure, any increase in pressure will not result in liquefaction of the vapor. The critical pressure is an important parameter used in refrigeration systems to determine conditions for efficient operation.
Accumulated condensation from the heat transfer processes. Highly pressurized and heated refrigerant is very rapidly transfering that heat to the ambient air, and water forms as a result of the sudden cooling down of the refrigerant.
Refrigerant compatibility refers to different types of refrigerant being compatible. Not all air conditioners use the same type of refrigerant and not all refrigerants are compatible in every air conditioner.
Disposable refrigerant containers are only used for virgin refrigerant.
The result of filling a recovery cylinder with iquid refrigerant and allowing it to warm up is that the heat of the container would warm the refrigerant inside of it. The refrigerant would, as a result expand.