关键词: 褶式滤芯, 微观结构, 拟态化模型, 过滤性能, 数值模拟

Abstract: In order to achieve optimal control of randomly arranged fibers, an algorithm that generates the stochastic multilayer fibrous medium was presented based on Poisson stochastic linear process. A 3-D mimicry model of the pleated filter was established. The gas-solid two-phase flow characteristics of the pleated filter were simulated using CFD, and its pressure drop and filtration efficiency under different operating conditions were calculated. And the simulated results were compared with those in the literature. The results show that the simulated values of pressure drop agree with those in the literature, and the pressure drop increases linearly with the filtration velocity, moreover, it decreases firstly and then increases with the pleated corner angle. The filtration efficiency first decreases and then increases with the particle size at the same filtration velocity, and the most penetration particle size (MPPS) exists in the given particle size range. When the particle size is less than 0.5 mm, the filtration efficiency decreases with the filtration velocity. But, when it is over 0.5 mm, the efficiency increases with the velocity. The results also show that MPPS decreases with the filtration velocity. The simulated values of filtration efficiency are consistent with those in the literature. And the filtration efficiency decreases with the filtration velocity when the particle size is less than 1 mm. However, when it is over 1 mm, the efficiency increases with the velocity.

Key words: pleated filter, microscopic structure, mimicry model, filtration characteristics, numerical simulation