As with all air activity systems, the principle remains the same whereby the heat is removed from one area and replaced with asleep dry air and the hot air is expelled, typically to the outside atmosphere. As you can see from this typical illustration of an air exercise system, the ambient air is drawn over the condenser that can best be described as a radiator’s seen on motor vehicles but rather of water running through the system it contains a refrigerant gas.
On its trip around the system, it has three main stages; the evaporator contains the sub-cooled refrigerant and air blows through its modes to release the asleep dry air into the room, the condenser contains the high-temperature gas that formerly again the air is blown through the modes collecting the heat as it passes through and this is also expelled outdoors.
An air conditioner is suitable to cool a structure because it removes heat from the inner air and transfers it outside. A chemical refrigerant in the system absorbs the unwanted heat and pumps it through a system of pipelines to the outside coil. The addict, located in the outside unit, blows outside air over the hot coil, transferring heat from the refrigerant to the out-of-door air
• a compressor
• a condensor
• an evaporator coil
• a chemical refrigerant
Utmost central air exertion units operate by means of a split system. That is, they correspond to a‘ hot’ side, or the condensing unit — including the condensing coil, the compressor and the addict — which is positioned outside your home, and a‘ cold’ side that’s located inside your home.
The cold side consists of an expansion stopcock and a cold coil, and it’s generally part of your furnace or some type of air tutor. The furnace blows air through an evaporator coil, which cools the air. Also, this cool air is routed throughout your home by means of a series of air tubes. A window unit operates on the same star, the only difference being that both the hot side and the cold side are located within the same casing unit.
The compressor (which is controlled by the thermostat) is the‘ heart of the system. The compressor acts as the pump, causing the refrigerant to flow through the system. Its job is to draw in a low-pressure, low-temperature, refrigerant in a windy state and by compressing this gas, raise the pressure and temperature of the refrigerant. This high-pressure, high-temperature gas also flows to the condenser coil.
The condenser coil is a series of piping with an addict that draws outside air across the coil. As the refrigerant passes through the condenser coil and the cooler outside air passes across the coil, the air absorbs heat from the refrigerant which causes the refrigerant to condense from a gas to a liquid state. The high-pressure, high-temperature liquid also reaches the expansion tap.
The evaporator coil is a series of piping connected to a furnace or air tutor that blows inner air across it, causing the coil to absorb heat from the air. The cooled air is also delivered to the house through ducting. The refrigerant also flows back to the compressor where the cycle starts over again.