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R290 18kW A+++ Aluminum Air Source Heating And Cooling Heat Pump Green Energy-Saving IPX4
|Nominal Heating (Max) (A7/6℃,W30/35℃)||Heating Capacity||kW||7.24~22.1|
|Nominal Heating (Max) (A7/6℃,W47/55℃)||Heating Capacity||kW||6.36~19.45|
|Nominal Cooling (Max) (A35/24℃,W12/7℃)||Cooling Capacity||kW||4.55~17.20|
|ERP Level(Outlet water temp. at 35℃)||/||A+++|
|Max. input power||kW||7.50|
|Max. input current||A||35.00|
|Rated water flow||m³/h||3.1|
|Fan motor type||/||DC inverter|
|Circulating pump||/||Inverter type / Built-in|
|Sound pressure at 1m distance||dB(A)||50|
|Max outlet water temperature||°C||75|
|Water piping connections||/||DN 32 (1-1/4")|
|Pressure drop at rating water flow||kPa||55|
|Operating temperature range (Heating mode)||°C||-25~45|
|Operating temperature range (Cooing mode)||°C||16~45|
|Unpacked Dimensions ( L×D×H )||mm||1187*488*1456|
|Packed Dimensions ( L×D×H )||mm||1217*538*1570|
About some scientific knowledge about heat pump:
A mechanical or thermodynamic device that moves heat from one place to another is called a heat pump. In both residential and commercial buildings, it is widely utilized for heating and cooling. In order to heat or cool a space, heat pumps transport heat from the air or ground to a heat sink or thermal reservoir.
One of the most important scientific principles relating to heat pumps is the Second Law of Thermodynamics, which states that heat energy flows from high-temperature portions to low-temperature areas. By using mechanical energy, heat pumps reverse this process by transferring heat from a low-temperature environment to a high-temperature one.Energy must be used in this process to power the compressor and other heat pump components, frequently in the form of electricity.
The coefficient of performance (COP), a measurement of a heat pump's efficiency, is another crucial scientific word related to heat pumps. The coefficient of performance (COP), which is the ratio of energy input to heat output, can be used to assess how well various heat pump systems work. Since the heat pump can generate more heat with the same amount of energy input, a higher COP indicates that it is more efficient.
The temperature of the heat source is a crucial issue when employing a heat pump. Heat pumps perform better when the temperature differential between the heat source and the heat sink is less.
Since the outside air temperature is lower and the temperature difference between the heat source and the heat sink is greater in colder climates, the efficiency of the heat pump may be lower in those areas.
Last but not least, heat pumps are a crucial technology for heating and cooling structures that rely on a range of scientific principles. Examples of these include the temperature difference between the heat source and the heat sink, the coefficient of performance, and the Second Law of Thermodynamics. By comprehending these concepts, engineers and scientists may construct heat pump systems that are more effective and efficient, helping to lower energy consumption and greenhouse gas emissions.
About one of the selling aspects for SolarEast's products:
1.One of the most energy-efficient heating solutions on the market, the SolarEast R290 has an A+++ energy grade.
2. The SolarEast R290 contains a fan motor and a complete DC inverter, which minimizes energy consumption and increases efficiency.
3. EVI inverter for -30°C: The system features an EVI inverter that enables it to function at low temperatures, allowing it to be used in extremely cold situations.
4. Intelligent WiFi control: The SolarEast R290 offers intelligent WiFi control, allowing users to operate and monitor the system remotely using a smartphone or other device.
5. R290 is a refrigerant: The SolarEast R290 uses R290, an environmentally benign refrigerant with a very low global warming potential.
6. The SolarEast R290 is appropriate for use in a range of heating applications because it can produce water temperatures of up to 75°C at the outlet.
Your home might benefit from efficient heating and cooling provided by an air-source heat pump. An air-source heat pump can produce up to three times as much heat energy as it consumes when installed properly. Unlike combustion-based heating systems, heat pumps move heat rather than converting it from a fuel.The world's largest supplier of solar water heaters was established in 1999 and is called Solareast Heat Pump Ltd.The objective of the technical company Solareast Heat Pump Ltd. is to "Make the world cleaner, make life better." It has 20 years of experience in the clean hot water and thermal energy sector, 10 of which were spent using solar thermal technology, 7 using air source heat pumps, and 2 using photovoltaics.
The objective of the publicly traded technical enterprise Solareast Heat Pump Ltd. is to "Make the world cleaner, make life better." It has more than 20 years of experience in solar thermal energy, 10 years with air source heat pumps, and 7 years with a photovoltaic company. It provides clean hot water and thermal energy solutions to 25 million people and 20,000+ engineering clients in more than 100 nations.
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