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● Innovative structural design: Adopts a unique "S"-shaped corrugated structure, which increases the contact area and contact time between water and air, enabling more sufficient heat exchange.
● Large hydrophilic area: Effectively expands the contact area between the water film and air, allowing water to form a uniform water film on the packing surface and improving the heat and mass transfer efficiency between water and air.
● Excellent cooling effect: Makes full use of the rational design principles of trapezoidal inclined waves to increase the number of water film interceptions, enabling the water film to be redistributed multiple times and tend to be uniform. At the same time, vertical convex retention waves are added to enhance the lateral diffusion capacity of the water film, slow down the downward flow speed of the water film, and extend the heat and mass transfer time, thereby significantly improving the cooling effect.
Large sheet spacing, not easy to clog: The packing has a large sheet spacing and light weight per unit volume, which can effectively prevent pollutant clogging, ensure long-term stable operation of the packing, and reduce maintenance costs.
● Low ventilation resistance: The unique structural design results in low resistance when air flows through the packing layer, which can reduce the energy consumption of the fan and save operating costs.
Strong load-bearing capacity: Despite its light weight per unit volume, it has high load strength, able to withstand a certain water pressure and water flow impact, ensuring the stability and service life of the packing.
● Industrial counter-flow cooling towers: Widely used in counter-flow cooling towers in various industrial production processes, such as iron and steel plants, chemical plants, refineries, etc. It is used to cool circulating water, reduce the operating temperature of industrial equipment, and ensure the normal operation of industrial production.
● Power plant hyperbolic concrete cooling towers: Also plays an important role in hyperbolic concrete cooling towers of power plants, efficiently dissipating the heat generated by generator sets, improving power generation efficiency, and ensuring the stable operation of power plants.
● Sheet thickness: Generally between 0.32mm-0.45mm. This thickness ensures the strength of the packing while maintaining good flexibility.
● Corrugation height: The common corrugation height is 19mm. This height design is conducive to forming an appropriate water film thickness and air flow channel, improving heat exchange efficiency.
● Common sizes: There are various specifications such as 1000×750mm and 500×1000mm, which can be selected according to the actual size and design requirements of the cooling tower.
