Dc Inverter Heat Pump
Guangteng R32 DC inverter air to water heat pump is a solution which uses DC inverter technology to heat, cool and to produce domestic hot water. It does not only satisfy house heating requirements, but also supplies domestic hot water. The outlet water temperature is up to 60 °C for radiator and domestic hot water applications, making hot water readily available. Besides, it can provide you a cooler environment in a hot summer. You will enjoy a comfortable life at your home all year round with one R32 DC Inverter Heat Pump device.
R32 DC inverter air source heat pump heating
R32 DC inverter air source heat pump is an important innovation in modern heating and cooling technology. The heat pump heating and cooling function works very well. Compared with traditional heating systems, heat pump heating has the advantages of high efficiency and energy saving. By utilizing the heat energy in the air, this system can not only provide a warm indoor environment in winter, but also provide cool air in summer, realizing the dual functions of heating and cooling.
The heat pump heating heating system using heat pump r32 refrigerant has low GWP (global warming potential) and is more environmentally friendly. As a new type of environmentally friendly refrigerant, heat pump r32 has excellent thermodynamic properties that enable heat pumps to operate efficiently under various climatic conditions, ensuring stable and long-lasting heating effects.
The air to water heat pump system provides efficient hot water supply by transferring heat from the air to water. This air to water heat pump system is widely used in residential, commercial and industrial places to meet diverse needs. At the same time, the application of dc inverter heat pump technology enables the heat pump system to automatically adjust the operating power according to changes in indoor and outdoor temperatures, further improving energy efficiency and comfort and reducing operating costs.
In general, the R32 DC variable frequency air source heat pump heating system combines high efficiency, environmental protection and energy saving, and is an ideal choice for future heating and cooling.
R32 gas has an ODP value (Ozone Removal Potential) equal to zero: this means that if it is released into the atmosphere it does not damage the ozone layer in any way. And R32 gas has a much lower GWP index than R410A (675 for R32A versus 2088 for R410A), lower environmental impact.
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
The R32 DC inverter heat pumps are tested by TUV, achieving the ERP A+++ energy class, the highest energy efficiency.
With smart WiFi APP control, you can check or control your heat pump anytime, anywhere easily.
There's pre-set selection of the appropriate climate curve for stable output capacity to match the heat load. The climate curve is the relationship between the heating system supply temperature and the outdoor air temperature. In the case of a climate curve, it is done automatically thanks to the weather-based control, which adjusts the supply temperature based on the outdoor temperature.