Application scenarios: A hunan power plant company's own steam boiler, boiler exhaust temperature is about 100℃. The flue gas at this temperature is directly discharged into the atmosphere, and higher exhaust temperature causes heat loss. The heat of flue gas at the end of the boiler is recycled through the superconducting heat exchanger, and then the air is heated to reduce the heat loss of the boiler.
Treatment scale: The flue gas volume is 170000Nm³/h and the flue gas temperature is 100℃.
Transformation technology: "Superconducting" technology is used to heat the primary air
Construction scope: Including system design, equipment supply, on-site installation and debugging of the whole Waste Heat Recovery system EPC project (excluding civil construction)
Using effect: The primary air temperature can be raised by about 30℃, and the boiler gas consumption can be saved by about 3%. Operation for one year can recover the investment cost

Application scenarios: A shaoxing textile printing and dyeing company's existing printing and dyeing wastewater is 80℃. Direct treatment of hot water at this temperature results in loss of thermal energy. The heat of printing and dyeing wastewater is recycled through waste heat recovery device to heat domestic water and reduce the loss of steam for self-use.
Treatment scale: The amount of wastewater treated by the system is 80m³/h, and the temperature is 80℃.
Transformation technology: Waste heat recovery unit is used to heat domestic water
Construction scope: Including system design, equipment supply, on-site installation and debugging of the whole Waste Heat Recovery system EPC project (excluding civil construction)
Using effect: Raise the domestic hot water temperature to 50℃, save about 5t/h of steam consumption, and recover the investment cost after running for half a year

Application scenarios: A Qingdao energy company's current exhaust temperature is 120℃. The waste gas at this temperature is directly treated resulting in heat loss. High temperature Waste gas is recycled through Waste heat recovery device to heat and remove salt water to reduce the loss of self-use steam.
Treatment scale: 80t/h steam boiler, system treatment waste gas volume of 90000m³/h, temperature 120℃.
Transformation technology: The waste heat recovery unit was used to heat and remove brine
Construction scope: Including system design, equipment supply, on-site installation and debugging of the whole Waste Heat Recovery system EPC project (excluding civil construction)
Using effect: Raise the brine temperature to 45 ° C. The consumption of self-used steam can save about 2.8t/h, and the investment cost can be recovered after running for one and a half years.

Application scenarios: The current exhaust gas temperature of a Lithium battery production line of a Guangdong company is 80℃. The waste gas at this temperature is directly treated resulting in heat loss. High temperature Waste gas is recycled through Waste heat recovery device to heat fresh air and reduce energy consumption.
Treatment scale: The exhaust gas volume of the system is 30000m³/h, and the temperature is 80℃.
Transformation technology: Waste heat recovery unit was used to heat the fresh air.
Construction scope: Including system design, equipment supply, on-site installation and debugging of the whole Waste Heat Recovery system EPC project (excluding civil construction)
Using effect: Raise the new temperature to 60℃, save 300KW of energy consumption, run for a year can recover the investment cost.