Home Depot Heat Pump – Two units work Together.

A split system air conditioner consists of indoor and outdoor units that work together. The indoor part is a furnace, while the outdoor unit is the air conditioner that circulates cool air within the home. The air conditioner cooperates with the furnace to produce efficient temperature control. The system takes the hot air inside the house and removes it to the outdoors, leaving cool air in its place. This air conditioning system is powered by electricity.

Window Air Conditioner Heat Pump – What parts include?

The parts of a split system air conditioner include a compressor, fan, condenser coil, evaporator coil and refrigerant. The condenser coil is installed outside and connects to the evaporator coil or coils inside different rooms in the house. The evaporator coils are individually controlled, allowing the home owners to set each room to a different temperature. Both condenser and evaporator coils are connected to the refrigerant lines.

Air Conditioner Heat Pump – What are its Functions?

In addition to controlling central air circulation, a split system air conditioner controls temperature, humidity, moisture and cleanliness. In order to regulate a constant temperature, the air conditioner filters out as much moisture as possible. Additionally, the system filters out pollutants and other particles that make the air dirty. Efficient air conditioning systems contribute to a cleaner home environment by allowing the occupants to keep windows and doors closed, forcing bugs, insects and other outdoor annoyances to stay outside.

Central Air Conditioner Heat Pump – How do efficiency is measured?

The efficiency of a split system air conditioner is measured by a Seasonal Energy Efficiency Ratio (SEER). The higher this ratio, the more energy efficient the system. The SEER averages a system’s efficiency over the course of one year. It is measured by multiplying 10,200 by the number of tons, or the cooling effect by melting one ton of ice in 24 hours. This number is then divided by the Energy Efficiency Ratio (EER), the amount of heat necessary for raising the temperature of a pound of water by one degree divided by the watts input.