R290 geothermal heating DC variable frequency heat pump
The R290 geothermal heating DC variable frequency heat pump is one of the most advanced geothermal heating systems currently on the market. Geothermal heating is an efficient and environmentally friendly heating method that uses the stable temperature of the earth's interior to provide heat energy for buildings. Through geothermal heating and cooling technology, this system not only provides warmth during the cold winter months, but also provides cooling during the hot summer months, ensuring year-round comfort.
Geothermal systems usually consist of geothermal wells, geothermal pumps, DC variable frequency compressors and heat exchangers. R290geothermal heating heat pump uses environmentally friendly R290 refrigerant, which not only has excellent heat conduction performance, but also has less impact on the environment. Compared with traditional geothermal heating systems, geothermal heating heat pump systems have a higher energy efficiency ratio (COP), which can significantly reduce energy consumption and operating costs.
Although the initial investment in the installation of a geothermal heat pump system is relatively large, its operating costs are low, its service life is long, and its maintenance costs are low, so it has good economic and environmental benefits. Whether it is a family home or a commercial building, geothermal heating heat pumps are ideal for sustainable development. In short, the R290 geothermal heating DC variable frequency heat pump has become the preferred solution for heating and cooling in modern buildings with its advantages of high efficiency, environmental protection and economy.
R290 REFRIGERANT
R290 refrigerant is a naturally occurring refrigerant, making it environmentally friendly, it has zero Ozone Depletion Potential (ODP=0), meaning it doesn't contribute to the depletion of the ozone layer; And it has a low Global Warming Potential (GWP=3), meaning it doesn't contribute significantly to global warming. It is the perfect solution for renovations, where a high water outlet temperature is required.
Full dc inverter technology
Variable-capacity heat pumps with dc inerter technology allow for higher compressor heating speeds at lower outdoor air temperatures, without putting extra strain on the unit or potentially causing long-term damage to the compressor. These are true cold-climate heat pumps designed to deliver 100% of heating capacity. This innovation means homeowners in all climates can experience the benefits of INVERTER-driven, variable-capacity heat pumps listed below:
•Consistent Temperature: No Ups and Downs, conventional on/off heat pumps experience uncomfortable and extreme temperature fluctuations, while inverter-driven heat pumps self-adjust providing consistent temperature no matter how the outdoor temperature changes.
•Consume Only The Energy You Need: INVERTER-driven deliver only the amount of heat needed to achieve the desired temperature – no more, no less.
•Heats Up Quickly: It takes traditional systems a very long time to reach the desired temperature, while the high rotation speeds of INVERTER-driven systems allow for quick and efficient heating and cooling.
•Energy Use is Even and Steady: Every time the compressor turns on in a traditional unit, energy consumption surges. On startup, variable-capacity heat pumps use less current, avoiding spikes in energy usage.
HEAT PUMP ADANTAGES:
The sun gives many energy to the earth, most of the energy are stored in the air, water and ground. Air source heat pump moves free energy from the air and uses it to heat and cool the building, or prepare domestic hot water. It is a cheap, ecological and reliable heat source, which can be used by anyone.
Air source heat pump draws heat from outdoor to your home, this is different with a gas or oil furnace, because they don't actually produce any heat by burning fuel , electricity is not be used to produce heat but drive a heat pump, so it can save much energy consumption and reduce your energy bills.
Data from Europe shows that all the heat pumps connected by the end of 2022 avoided over 54 million tons of CO2, as more and more countries are scrapping fossil fuel heaters, heat pumps, powered with energy from clean and renewable sources, have the potential to reduce total Co2 emissions by at least 500 million tons by 2030.