Introducing Faraday Adsorption Principle

Technology Refined Over Two Generations

We are thrilled to present our innovative heat pump products—a groundbreaking invention that elegantly redefines the field of building energy management. Utilizing state-of-the-art vacuum adsorption heat exchanger technology, our heat pumps are poised to revolutionize the way buildings are heated and cooled. With cutting-edge materials and ingenious component design, they provide users with unparalleled efficiency and sumptuous comfort.

Conventional electric-driven air conditioning employs a vapor compression cycle to exchange heat energy using refrigerant gas. An electric motor propels a mechanical compressor, compressing the gas while elevating its temperature and pressure. This high-temperature, high-pressure gas is then gracefully cooled and liquefied in a condenser through an external fan. The refrigerant, once cooled, expands and returns to a low-temperature, low-pressure state. The refrigerant reverts to a gaseous state, absorbing heat from an evaporator linked to the room, as a discreet fan disperses the refreshing cool air. Ultimately, the gas returns to the compressor to complete the sophisticated cycle.

Our distinguished adsorption heat pumps are heat-driven air conditioning systems featuring evaporators and condensers, yet replacing the conventional compressor with refined adsorption exchangers. These exchangers consist of solid or liquid hydrophilic materials, meticulously designed with adsorption potential to attract refrigerant gas vapors.

By 2030, heat-driven technology possesses the extraordinary potential to make a momentous contribution to global decarbonization endeavors. Our heat pumps boast a plethora of advantages over traditional heating and cooling technologies. Heat is a more cost-effective and manageable energy form in comparison to electricity. Our heat-driven heat pumps excel at recovering and storing low-temperature waste heat from industrial and civil processes. The technology employs water as a refrigerant, eschewing the chlorofluorocarbons/hydrofluorocarbons, thereby eliminating any adverse atmospheric impacts. Moreover, the investment and operational costs of heat storage are typically over ten times lower than battery storage, without any fire hazards, showcasing the practicality of our solution.