Air heat pump Efficiency
Luftvärmepump ( Air heat pump ) are 3 or 4 periods more potent than standard furnaces and air conditioners. It is because Luftvärmepump ( Air heat pump ) will not Air heat pump(Luftvärmepump) make heat, they transfer warmth.
The performance of your Luftvärmepump ( Air heat pump ) is analyzed by its coefficient of efficiency (COP). The COP is the rate from the warmth production of the Luftvärmepump ( Air heat pump ) on the energy feedback of the Luftvärmepump ( Air heat pump ). For example, in case the COP of your Luftvärmepump ( Air heat pump ) is 3., the Luftvärmepump ( Air heat pump ) creates 3 products of heat for each 1 system of power it uses.
The COP of an air heat pump depends upon the temperature difference between the air heat pump along with the setting. The COP diminishes since the temperatures big difference boosts. As an example, the COP of an air heat pump is 3. when the temp variation is 60°F (15°C). The COP of the same air heat pump is 2. once the temperatures variation is 30°F (-1°C).
The effectiveness of atmosphere heating pumping systems also is determined by the kind of air heat pump. There are two varieties of oxygen heat pumping systems: atmosphere-source and ground-provider.
Air flow-supply atmosphere warmth pumps are the most typical type of air heat pump. They are less costly than soil-resource atmosphere heating pumps and are easier to install. Atmosphere-supply oxygen temperature pumping systems are less productive than soil-provider air heat pumps. It is because the temp from the atmosphere may differ greater than the temperature of the ground.
Terrain-resource air flow warmth pumping systems cost more than oxygen-provider atmosphere heat pumping systems and therefore are tougher to install. Soil-supply oxygen heating pumps) will be more efficient than air flow-source air heating pumps. The reason being the temperature of the floor is more steady compared to the temp from the air flow.