Wastewater Heat Recovery Air-source Heat Pumps, the superiority of this technology lies in its extremely low heat recovery, energy conservation, reduced emissions, and lower energy costs. Suitable for enterprises with waste heat wastewater emissions.

During operation, a high-temperature hot water of 85~95℃ is required; all production lines are located within the workshop, and the high-temperature water production line continuously emits heat into the workshop.

So, with air temperatures consistently above 35℃ throughout the year, the working environment for plant workers is not particularly ideal. The system is roughly divided into three parts: 1. Waste water waste heat recovery; 2. Air energy cold air supply for workstations in the workshop to cool down; 3. High-temperature hot water heating from 85~95℃. The waste water waste heat recovery system includes an absorption chiller, filter equipment, storage tank, pump, booster pump, and plate heat exchanger. After the waste hot water is filtered to remove impurities, it is connected to the plate heat exchanger, turning into low-temperature waste water. Tap water is circulated through the evaporator, pump, and plate heat exchanger by the absorption chiller, forming recirculating water. The low-temperature clear water is then pressurized and passes through the absorber section of the absorption chiller, absorbing heat before being output through the condenser section. The high-temperature clear water output is supplied to the user to meet the required process specifications.

Heat Recovery Heat Pump Unit Cleaning

Physical mechanical high-pressure water jet cleaning