1.The design of this system is ideal for regions with tropical or subtropical climates such as Southeast Asia, South Africa, South Europe, and other similar areas.
2.This system can produce hot water up to 60ºC, making it well-suited for underfloor or radiator heating.
3.The intelligent EE valve of this system is highly efficient across various ambient temperatures.
4.With a plug-and-play motherboard, this system is easy to service.
5.The unique construction of the fan motor ensures that it operates with exceptional efficiency and quietness.
6.The R410a system is available for this product.
7.This system can provide cooling, heating, and sanitary hot water.
8.This product features a full inverter and provides high performance.
Air souce heat pump:
Air source heat pumps extract thermal energy (heat) from the outside air and convert this into heating and hotwater for your home. Air source heat pumps are designed to work in cold temperatures and are suitable for arange of homes, from a small apartment to a large detached home. Air source heat pumps do require electricity to operate, but 75% of the energy required is generated from the outside air, with only 25% being required fromelectricity. This means that 75% of the energy you use will be from a renewable source, which will reduce youremissions and CO2 impact.
What is the difference between the two heat pumps?
The difference between a fixed output and an inverter heat pump lies in how they deliver the energy needed from the heat pump to meet the heating demands of a property.
A fixed output heat pump works by continuously either being turned on or off. When turned on, the fixed output heat pump works at 100% capacity to meet the heating demand of the property. It will continue to do this until the heat demand is met and will then cycle between on and off heating a large buffer in a balancing act to maintain the requested temperature.
An inverter heat pump, however, uses a variable speed compressor which modulates its output increasing or decreasing its speed to match exactly the heat demand requirements of the building as the outdoor air temperature changes.
When the demand is low the heat pump will reduces its output, limiting the electricity usage and the exertion placed on the heat pump’s components, limiting the start cycles.
1.The design of this system is ideal for regions with tropical or subtropical climates such as Southeast Asia, South Africa, South Europe, and other similar areas.
2.This system can produce hot water up to 60ºC, making it well-suited for underfloor or radiator heating.
3.The intelligent EE valve of this system is highly efficient across various ambient temperatures.
4.With a plug-and-play motherboard, this system is easy to service.
5.The unique construction of the fan motor ensures that it operates with exceptional efficiency and quietness.
6.The R410a system is available for this product.
7.This system can provide cooling, heating, and sanitary hot water.
8.This product features a full inverter and provides high performance.
Air souce heat pump:
Air source heat pumps extract thermal energy (heat) from the outside air and convert this into heating and hotwater for your home. Air source heat pumps are designed to work in cold temperatures and are suitable for arange of homes, from a small apartment to a large detached home. Air source heat pumps do require electricity to operate, but 75% of the energy required is generated from the outside air, with only 25% being required fromelectricity. This means that 75% of the energy you use will be from a renewable source, which will reduce youremissions and CO2 impact.
What is the difference between the two heat pumps?
The difference between a fixed output and an inverter heat pump lies in how they deliver the energy needed from the heat pump to meet the heating demands of a property.
A fixed output heat pump works by continuously either being turned on or off. When turned on, the fixed output heat pump works at 100% capacity to meet the heating demand of the property. It will continue to do this until the heat demand is met and will then cycle between on and off heating a large buffer in a balancing act to maintain the requested temperature.
An inverter heat pump, however, uses a variable speed compressor which modulates its output increasing or decreasing its speed to match exactly the heat demand requirements of the building as the outdoor air temperature changes.
When the demand is low the heat pump will reduces its output, limiting the electricity usage and the exertion placed on the heat pump’s components, limiting the start cycles.
English
