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BULEJKO, P. ONDRÁČEK, J. DOHNAL, M.
Original Title
Air Filtration Using Hollow-Fiber Membranes: A Comparison of Theoretical Models for the Most Penetrating Particle Size and Dimensionless Permeability with Experimental Data
Type
article in a collection out of WoS and Scopus
Language
English
Original Abstract
Hollow-fiber membranes (HFMs) have been widely applied to many liquid treatment applications such as wastewater treatment, membrane distillation and membrane contactor/bioreactor applications. However, they have rarely been used for aerosol filtration thus far. In this work, we compared mathematical models developed for predicting the most penetrating particle size (MPPS) and dimensionless permeability, applying them on the structural parameters of polypropylene HFMs. MPPS were compared with experimentally measured value using a monodisperse (20, 35, 50, 70, 100, 140, 280 and 400 nm) and a polydisperse aerosol (15–594 nm). Dimensionless permeability was predicted using models based solely on solid volume fraction (SVF), assuming isotropic 3D pore structure. The results were then compared with air permeability, which was measured using a Quantachrome 3Gzh capillary flow porometer. In the experiments with the monodisperse aerosol, no penetration was observed regardless of particle size. Therefore, face velocity was increased and high concentrations of the polydisperse aerosol were used to increase the penetration. The MPPS was then found to be 333 and 250 nm at a flowrate of 10 and 40 L/min respectively. The MPPS model derived for a diffusion and interception dominant regime by Lee and Liu (1986) was closest to these results. Dimensionless permeability varied depending on the conditions for which the individual models were derived. For example, the RUC (representative unit cell) model underestimates the results while the results predicted using the empirical formula of Davies (1953) differ significantly from the measured values. The model of Davies was, however, derived for filter SVF strictly in the range of 0.01 to 0.3 while the HFMs considered in this study have SVF as high as 0.48.
Keywords
Hollow-fiber membrane; air filtration; MPPS; aerosol
Authors
BULEJKO, P.; ONDRÁČEK, J.; DOHNAL, M.
Released
1. 4. 2019
Publisher
AFS Filtcon, April 1-3 2019, Philadelphia-Cherry Hill, USA
Pages from
1
Pages to
11
Pages count
URL
https://afsspring.societyconference.com/v2/
BibTex
@inproceedings{BUT156768, author="BULEJKO, P. and ONDRÁČEK, J. and DOHNAL, M.", title="Air Filtration Using Hollow-Fiber Membranes: A Comparison of Theoretical Models for the Most Penetrating Particle Size and Dimensionless Permeability with Experimental Data", year="2019", pages="1--11", publisher="AFS Filtcon, April 1-3 2019, Philadelphia-Cherry Hill, USA", url="https://afsspring.societyconference.com/v2/" }