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ru 
Mar 14, 2025
In industrial filtration processes, the choice of filter cloth directly affects equipment operating efficiency and product quality. As well as factors such as filtration precision, mechanical strength and chemical resistance, regeneration efficiency is also very important.
The regeneration efficiency refers to the ability to restore the performance of filter cloths after they have been regenerated through cleaning, back-blowing, and chemical treatment. Over time, the surface and pores of the filter cloth become gradually blocked by particles, resulting in increased filtration resistance and a reduced filtration rate, which affects production efficiency. Therefore, filter cloths with good regeneration performance can extend the service life, reduce replacement frequency and lower operating costs.
The regeneration performance of filter cloths is affected by several factors, including the material, the fiber form and the weaving method. For instance, monofilament fabric has the best regeneration performance from a fiber perspective because it has a smooth surface and is less likely to trap fine particles. In contrast, staple fiber fabric has the worst regeneration efficiency due to may fine pores, which tend to trap particles. In terms of weaving structure, twill or satin structures are more open and allow for more thorough cleaning and better regeneration performance than plain or canvas filter cloths.
In summary, when selecting industrial filter cloth, it is important to consider not only the filtration accuracy required by the production process, but also the regeneration efficiency of the filter cloth, as this is important for determining its economy and sustainability. Selecting a filter cloth with excellent regeneration performance can improve the operating efficiency of the equipment and effectively reduce enterprise operating costs.
