1.Design Suitable for tropical or subtropical region as Southeast Asia,South Africa South Europe and etc.
2.Hot water up to 60ºC,suitable for under floor/radiator heating.
3.Intelligent EE valve,excellent efficiency at different ambient temperature.
4.Plug & play mother board,easy service.
5.Unique fan motor construction,super quiet and efficient.
6.R32 System available
7.Cooling, Heating and Sanitary Hot Water
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.
1. Enhanced environmental performance due to the R32 heat pump's GWP being only one-third that of R410A refrigerant.
2. High energy efficiency, reaching A+++ energy level according to EU regulation. By utilizing heat from the outside air, the system minimizes energy consumption while maintaining a comfortable environment. The system requires minimal maintenance, ensuring low running costs. Additionally, with inverter technology, energy savings are further maximized.
The heat pump draws free energy from the air and uses it to heat and cool the building or prepare domestic hot water.
Since air source heat pumps use outside air to heat the inside of a house, their effectiveness is influenced by the changing temperatures throughout the year. To account for this, the performance of heat pumps is measured using a Seasonal Performance Factor (SPF). The SPF indicates the average efficiency of a heat pump over an entire heating season.
To put it simply, the SPF measures the efficiency of a heat pump by calculating the amount of useful heat it generates compared to the electricity it consumes. This electricity consumption includes all the other heating methods used in the overall system, such as underfloor heating.
Since heat pumps are a renewable heating solution, they produce more heat energy than they consume. For example, if the SPF is 3, the system is expected to generate 3 units of heat energy for every unit of electricity used.
According to EU laws, a minimum SPF of 2.5 is required for a heat pump to be eligible for the Renewable Heat Incentive (RHI).
1.Design Suitable for tropical or subtropical region as Southeast Asia,South Africa South Europe and etc.
2.Hot water up to 60ºC,suitable for under floor/radiator heating.
3.Intelligent EE valve,excellent efficiency at different ambient temperature.
4.Plug & play mother board,easy service.
5.Unique fan motor construction,super quiet and efficient.
6.R32 System available
7.Cooling, Heating and Sanitary Hot Water
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.
1. Enhanced environmental performance due to the R32 heat pump's GWP being only one-third that of R410A refrigerant.
2. High energy efficiency, reaching A+++ energy level according to EU regulation. By utilizing heat from the outside air, the system minimizes energy consumption while maintaining a comfortable environment. The system requires minimal maintenance, ensuring low running costs. Additionally, with inverter technology, energy savings are further maximized.
The heat pump draws free energy from the air and uses it to heat and cool the building or prepare domestic hot water.
Since air source heat pumps use outside air to heat the inside of a house, their effectiveness is influenced by the changing temperatures throughout the year. To account for this, the performance of heat pumps is measured using a Seasonal Performance Factor (SPF). The SPF indicates the average efficiency of a heat pump over an entire heating season.
To put it simply, the SPF measures the efficiency of a heat pump by calculating the amount of useful heat it generates compared to the electricity it consumes. This electricity consumption includes all the other heating methods used in the overall system, such as underfloor heating.
Since heat pumps are a renewable heating solution, they produce more heat energy than they consume. For example, if the SPF is 3, the system is expected to generate 3 units of heat energy for every unit of electricity used.
According to EU laws, a minimum SPF of 2.5 is required for a heat pump to be eligible for the Renewable Heat Incentive (RHI).
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