The Brapu combined dry and wet cooling tower combines the heat exchange advantages of air cooling and evaporative cooling, and can achieve dry and wet combined operation. It is an intelligent closed cooling tower that combines multiple practical technologies such as efficient cooling, energy-saving and water-saving, eliminating white fog, and preventing scaling. This product has the advantages of compact structure, high heat transfer efficiency, low operating costs, and convenient installation and maintenance. Especially in soft water closed loop cooling systems, it has good application prospects. At present, the Brapu dry wet combined cooling tower has been widely used in closed cooling systems for industrial circulating water, especially in arid and water scarce areas;
When the temperature is high in summer, the cooling water inside the coil is cooled by spraying water evaporation, which is a water cooling method and operates under wet conditions; If the outdoor temperature drops to a certain temperature, turn off the spray water and use air cooling to directly cool it, operating under dry conditions. By combining the heat exchange advantages of air cooling and evaporative cooling, dry and wet combined operation can be achieved. Above the designed water cut-off temperature, evaporative cooling is the main body of heat exchange, air cooling is the auxiliary, and most of the heat load is borne by evaporative cooling; Below the designed water cut-off temperature, air cooling is the main heat exchanger, and evaporative cooling is the auxiliary. Most of the heat load is borne by air cooling, and evaporative cooling can stop water dry operation. To achieve the goal of saving water and operating costs during the cooling process of circulating water.
Brapu dry wet combined cooling tower has successfully served numerous industries worldwide, including metallurgy, steel, electricity, chemical industry, coal chemical industry, textile, chemical fiber, printing and dyeing, pharmaceuticals, papermaking, air separation oxygen production, polycrystalline silicon, etc.
