Removal of Fine Particles on Fibrous Filters: A Review

Boskovic, Lucija; Agranovski, Igor E

doi:10.1016/B978-0-08-054820-3.00013-7

Author(s)

Boskovic, Lucija

Agranovski, Igor E

Griffith University Author(s)

Agranovski, Igor E.

Year published

2010

Metadata

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Abstract

Modern societies have become more complex, and now require industrial processes that generate finer aerosols. Fibrous filters have long been recognized as an efficient means of removing aerosol particles from the carrier gas, or air stream. There are various mechanisms by which the aerosol particles are captured on a filter material, and these include interception, inertia, diffusion, electrostatic attraction, and gravity. The aerosol particle size, as well as filter properties, determines the removal mechanisms that dominate for a particular filtration application.Modern societies have become more complex, and now require industrial processes that generate finer aerosols. Fibrous filters have long been recognized as an efficient means of removing aerosol particles from the carrier gas, or air stream. There are various mechanisms by which the aerosol particles are captured on a filter material, and these include interception, inertia, diffusion, electrostatic attraction, and gravity. The aerosol particle size, as well as filter properties, determines the removal mechanisms that dominate for a particular filtration application.
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Book Title

Environanotechnology

Volume

Publisher URI

http://www.elsevier.com

DOI

https://doi.org/10.1016/B978-0-08-054820-3.00013-7

Copyright Statement

Self-archiving is not yet supported by this publisher. Please refer to the publisher website or contact the author(s) for more information.

Subject

Environmental Engineering Design

Publication URI

http://hdl.handle.net/10072/37355

Collection

Book chapters