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Air Source Heat Pump: An Innovative Solution Redefining Efficient Heating
July 2, 2025
Air Source Heat Pump: An Innovative Solution Redefining Efficient Heating
The breakthrough in air source heat pump technology is fundamentally changing heating solutions in commercial, industrial, and residential sectors. This efficient device powered by air has successfully overcome the limitations of traditional heating methods and become a key green force in the global carbon neutrality movement.
Equipped with low-temperature and high-temperature dual-cycle systems, energy is efficiently transferred via an intermediate heat exchanger. Even in extreme cold as low as -35°C, the unit operates stably without overloading core components, solving the frequent shutdown issue of single-stage heat pumps in frigid regions.
Ultra-High Temperature Output Capability:
Breaking through the temperature bottleneck of conventional heat pumps, it stably produces 75°C high-temperature hot water, 90°C ultra-high temperature hot water, and 120°C industrial steam. This covers needs from civilian heating to industrial high-temperature applications such as electroplating, textile dyeing, and cement precast component curing.
Intelligent Control System & Modular Design:
Fitted with a self-developed microcomputer control board, it supports remote monitoring via a 485 interface. Users can check real-time device status, adjust water temperature, and receive fault alerts through a dedicated app. Modular units require no distinction between master and slave modules—if one unit fails, others automatically compensate to ensure continuous operation, facilitating phased expansion.
Adopting bionic toothed blades, fully enclosed sound-absorbing covers, and pipeline shock absorption design, the operating noise is as low as 56dB(A). The stainless steel sheet metal body, paired with internally threaded copper tube heat exchangers, resists corrosion and high temperatures, boasting a service life of up to 15 years.
Key Advantages: A Triple Breakthrough in Energy Efficiency, Eco-Friendliness, and Economy
Leading Energy Efficiency Ratio: With a COP (Coefficient of Performance) of 4.5 under standard conditions, it generates 4.5kWh of heat for every 1kWh consumed—75% more efficient than electric boilers and 40% cheaper to operate than gas boilers.
All-Climate Adaptability: Operates efficiently from -35°C (extreme cold) to 43°C (high temperature), with capacity attenuation of no more than 10% in low-temperature conditions, making it suitable for frigid regions like Northeast China and Inner Mongolia.
Zero-Emission Environmental Protection: Replacing coal and gas boilers, it emits no sulfur dioxide or nitrogen oxides. A single unit reduces CO₂ emissions by approximately 30 tons annually, helping enterprises meet carbon reduction targets.
Low Investment & High Returns: Initial investment is only 1.2 times that of traditional boilers, but electricity costs are reduced by 60%. The average payback period is 3–5 years, and total lifetime 收益 exceed those of gas boilers by 2x.
Application Scenarios: Full Coverage from Civil Heating to Industrial Processes
Residential & Commercial Sectors: Northern China’s "coal-to-electricity" projects, centralized hotel heating, hospital hot water supply, etc. 75°C water temperature directly connects to radiator systems, meeting winter needs in -35°C areas.
Industrial Production:
Electroplating: 85°C water maintains bath temperature, increasing product qualification rates by 12%.
Textile Dyeing: 60–80°C water fulfills dyeing and setting processes, cutting energy costs by 40%.
