Advanced search
Publication Cover
Aerosol Science and Technology Volume 34, 2001 - Issue 2
Submit an article Journal homepage
417
Views
29
CrossRef citations to date
0
Altmetric
Original Articles

Theoretical Modeling of Filtration by Nonuniform Fibrous Filters

Suresh Dhaniyala
&
Benjamin Y. H. Liu
Pages 170-178 | Published online: 30 Nov 2010

Citations (29)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (6)

Meilu He, Terence A. Ghee & Suresh Dhaniyala. (2021) Aerosol penetration through fabrics: Experiments and theory. Aerosol Science and Technology 55:3, pages 289-301.
Read now
Pooya Abdolghader, Clothilde Brochot, Fariborz Haghighat & Ali Bahloul. (2018) Airborne nanoparticles filtration performance of fibrous media: A review. Science and Technology for the Built Environment 24:6, pages 648-672.
Read now
Meilu He, Suresh Dhaniyala & Matthew Wagner. (2016) Characterization of filter performance under low-pressure operation. Aerosol Science and Technology 50:5, pages 417-428.
Read now
Dahua Shou, Jintu Fan, Heng Zhang, Xiaoming Qian & Lin Ye. (2015) Filtration Efficiency of Non-Uniform Fibrous Filters. Aerosol Science and Technology 49:10, pages 912-919.
Read now
Benjamin Hunt, Thaseem Thajudeen & Christopher J. Hogan$suffix/text()$suffix/text(). (2014) The Single-Fiber Collision Rate and Filtration Efficiency for Nanoparticles I: The First-Passage Time Calculation Approach. Aerosol Science and Technology 48:8, pages 875-885.
Read now
N. Pan & W. Zhong. (2006) Fluid Transport Phenomena in Fibrous Materials. Textile Progress 38:2, pages 1-93.
Read now

Articles from other publishers (23)

Gentry Berry, Ivan Beckman & Heejin Cho. (2023) A comprehensive review of particle loading models of fibrous air filters. Journal of Aerosol Science 167, pages 106078.
Crossref
Daniel E. Rosner & Manuel Arias-Zugasti. (2022) Multi-mechanism theory of aerosol capture by fibrous filters, including fiber diameter/orientation dispersity and particle morphology effects. Preliminary tests vs. data for mobility-selected submicron particles. Journal of Aerosol Science 164, pages 106000.
Crossref
Dunja Sokolović, Thomas Laminger, Gerd Mauschitz & Wilhelm Höflinger. (2021) Novel coalescer design with bed of waste polymer fibers for liquid aerosol separation. Separation and Purification Technology 263, pages 118187.
Crossref
Tomonori Fukasawa, Chikao Kanaoka, Isao Kimura, Li Bao, Toru Ishigami & Kunihiro Fukui. (2021) Distributions of Fiber Mass, Air Permeability, and Filter Efficiency in Nonwoven Fabric Bag Filters. Chemical Engineering & Technology 44:3, pages 535-541.
Crossref
He Bai, Xiaoming Qian, Jintu Fan, Yunlong Shi, Yongchao Duo, Changsheng Guo & Xiaobo Wang. (2020) Theoretical Model of Single Fiber Efficiency and the Effect of Microstructure on Fibrous Filtration Performance: A Review. Industrial & Engineering Chemistry Research 60:1, pages 3-36.
Crossref
Rafał Przekop & Anna Jackiewicz-Zagórska. (2020) Effect of mesoscale inhomogeneity and fibers size distribution on the initial stage of deep-bed filtration process. Journal of Aerosol Science 142, pages 105522.
Crossref
Chikao Kanaoka. (2019) Fine Particle Filtration Technology Using Fiber as Dust Collection Medium. KONA Powder and Particle Journal 36:0, pages 88-113.
Crossref
Norbert Riefler, Martina Ulrich, Marko Morshäuser & Udo Fritsching. (2018) Particle penetration in fiber filters. Particuology 40, pages 70-79.
Crossref
S. Akbarnezhad, A. Amini, A. Soltani Goharrizi, T. Rainey & L. Morawska. (2017) Capacity of quartz fibers with high filtration efficiency for capturing soot aerosol particles. International Journal of Environmental Science and Technology 15:5, pages 1039-1048.
Crossref
Rafał Przekop. (2017) Estimation of Filtration Efficiency – from Simple Correlations to Digital Fluid Dynamics. Chemical and Process Engineering 38:1, pages 31-50.
Crossref
Nathalie Bardin-Monnier & Dominique Thomas. 2017. Aerosol Filtration. Aerosol Filtration 49 78 .
Michael Koch & Gernot Krammer. (2016) Filter performance with non-uniformly distributed concentration of dust-evidence from experiments and models. Powder Technology 292, pages 149-157.
Crossref
Dahua Shou, Jintu Fan, Lin Ye, Heng Zhang, Xiaoming Qian & Zhong Zhang. (2015) Inverse Problem of Air Filtration of Nanoparticles: Optimal Quality Factors of Fibrous Filters. Journal of Nanomaterials 2015, pages 1-11.
Crossref
S Cheberiachko, O Yavorska & Yu Cheberiachko. (2014) Investigation of construction influence of half mask design on their ergonomic properties. Mining of Mineral Deposits 8:4, pages 437-445.
Crossref
Dipayan Das, S. M. Ishtiaque, S. V. Ajab Rao & Behnam Pourdeyhimi. (2013) Modelling and experimental studies of air permeability of nonuniform nonwoven fibrous porous media. Fibers and Polymers 14:3, pages 494-499.
Crossref
Eva F. Gudgin Dickson. 2012. Personal Protective Equipment for Chemical, Biological, and Radiological Hazards. Personal Protective Equipment for Chemical, Biological, and Radiological Hazards 291 319 .
W. Zhong & N. Pan. 2011. Functional Textiles for Improved Performance, Protection and Health. Functional Textiles for Improved Performance, Protection and Health 269 290 .
Albert Podgórski. (2008) Estimation of the upper limit of aerosol nanoparticles penetration through inhomogeneous fibrous filters. Journal of Nanoparticle Research 11:1, pages 197-207.
Crossref
Ki Myoung Yun, Christopher J. HoganJr.Jr., Yasuko Matsubayashi, Masaaki Kawabe, Ferry Iskandar & Kikuo Okuyama. (2007) Nanoparticle filtration by electrospun polymer fibers. Chemical Engineering Science 62:17, pages 4751-4759.
Crossref
Wen ZhongNing Pan. (2016) Aerosol Filtration by Fibrous Filters: A Statistical Mechanics Approach. Textile Research Journal 77:5, pages 284-289.
Crossref
Albert Podgórski, Anna Bałazy & Leon Gradoń. (2006) Application of nanofibers to improve the filtration efficiency of the most penetrating aerosol particles in fibrous filters. Chemical Engineering Science 61:20, pages 6804-6815.
Crossref
A.F Miguel. (2003) Effect of air humidity on the evolution of permeability and performance of a fibrous filter during loading with hygroscopic and non-hygroscopic particles. Journal of Aerosol Science 34:6, pages 783-799.
Crossref
Daniel E. Rosner & Manuel Arias-Zugasti. (2022) Predicting the Aerosol Capture Characteristics of Fibrous Filters Exploiting a Multi-Mechanism Single-Fiber Capture Fraction—II. Preliminary Tests of Generalizations to Include Fiber Dispersity (Wrt Diam., Orientation and Meso-Scale Non-Uniformity) in Fiber Solid Fraction Using Experimental Data for Size-Selected Particle Capture. SSRN Electronic Journal.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.