The benefits of the implementation of the screw air compressor heat recovery project for corporate customers

During the long-term continuous operation of the screw air compressor, electrical energy is converted into mechanical energy, and mechanical energy is converted into wind energy. In the process of converting mechanical energy into wind energy, the air is compressed by a strong high pressure, causing its temperature to rise sharply. This is ordinary physics mechanical energy. Conversion phenomenon: the high-temperature heat generated by the high-speed rotation of the screw air compressor is mixed into oil/gas steam and discharged from the body by the addition of lubricating oil. The heat of this part of the high-temperature oil/air flow is equivalent to 3/4 of the input power of the screw air compressor. Its temperature is usually 80°C. Due to the requirements of the machine's operating temperature, the heat energy is discarded for no reason and discharged into the atmosphere, that is, the heat dissipation system of the screw air compressor completes the temperature requirements of the machine's operation.

     Through the implementation of the heat recovery project of the screw air compressor, it truly reflects the focus on customer experience, and brings significant value to customers in terms of energy saving, environmental protection, safety, reliability, and productivity. As a result of the successful implementation of the construction and application of the compressed air heat recovery system, annual cost savings of nearly 200,000 yuan, and an energy-saving ratio of 20, have achieved good energy-saving and social benefits. The heat recovery solution can effectively, safely and reliably recover the heat generated by the compressor by reasonably adding heat exchange equipment and control systems, and with the addition of external water pumps and pipelines. It is also more conducive to reducing the compressor fan The power consumption and noise of the motor. Not only can the water in the water tank be heated to close to 70°C in a short time, thereby reducing the heating capacity of the boiler, thereby reducing fuel consumption, reducing carbon dioxide emissions, and achieving the purpose of saving energy and reducing costs.