Industry Qualification

Supported by fluid energy-saving technology and heat pumps, the company has entered the fields of urban heating, petrochemicals, steel metallurgy, titanium metallurgy, and tobacco drying, conducting research and development of complete sets of technologies and equipment for waste heat recovery and utilization. It promotes the research and development of new technologies and products for waste heat recovery and low-quality heat energy utilization, and explores new markets. Its main high-efficiency energy-saving equipment products include two categories: absorption heat pumps and air source heat pumps, specifically direct-fired absorption heat pumps, large temperature difference absorption heat pumps, high-temperature heat pumps, type II absorption heat pumps, and energy-saving air source heat pumps.

Direct-fired absorption heat pumps, large temperature difference absorption heat pumps, and high-temperature heat pumps are all used in urban heating. Direct-fired absorption heat pumps, applied to thermal boilers, can achieve flue gas whitening, waste heat recovery, and improve boiler efficiency. This solves the problem of high exhaust gas temperature and inefficient utilization of waste heat in conventional coal/gas-fired boiler rooms, making it a key device for recovering waste heat from gas-fired boilers. Large temperature difference absorption heat pumps are applied to heating stations, solving the problems of high primary network return water temperature and limited heating capacity in heating systems. They significantly reduce the primary network return water temperature, increasing heating capacity by over 50% with the same primary network water flow rate. High-temperature heat pumps are applied to long-distance heating pressure-reducing stations, enabling the utilization of waste heat from the zero-level network return water in heating systems, improving system efficiency. This solves the problem of conventional technologies being unable to fully utilize large amounts of waste heat from power plants and resulting in low system heating efficiency due to the inability to achieve large temperature difference heating in zero-level networks. While meeting the 115℃ high-temperature requirement of the primary network, the zero-level network return water temperature in pressure-reducing stations can be lowered to below 28℃, significantly improving the energy utilization rate at the power plant end of long-distance heating systems.

The second type of absorption heat pump is applied in energy-intensive industries such as petrochemicals and metallurgy, enabling the production of saturated steam from ineffective low-temperature waste heat, giving low-grade waste heat recovery value. Primarily used in energy-intensive industrial sectors, it solves the problem of unusable low-temperature waste heat in petrochemical, metallurgical, and power industries.

Energy-saving air source heat pumps are mainly used in the field of tobacco curing. They can replace coal-fired and biomass curing barns, solving the problems of large heat loss and low heat utilization rate in traditional curing methods. At the same time, they can precisely control the dehumidification rate during the curing process, which can significantly improve the quality of tobacco curing and reduce curing energy consumption. They have the value of being environmentally friendly and energy-saving, precise control, ensuring curing quality, and unattended operation.

Manufacturing capability


High-Efficiency systems