Numerical simulation on trapping efficiency of steady filtration process in diesel particulate filter and its experimental verification

Taking wall-flow diesel particulate filter (DPF) as the research objective and separately assuming its filtering wall to be composed of numerous spherical or cylindrical elements, two different mathematical models of steady filtration for wall-flow diesel particulate filter were developed and verifi...

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Published inJournal of Central South University Vol. 22; no. 11; pp. 4456 - 4466
Main Authors Zhang, Gui-ju, E, Jia-qiang, Zuo, Qing-song, Gong, Jin-ke, Zuo, Wei, Yuan, Wen-hua
Format Journal Article
LanguageEnglish
Published Changsha Central South University 01.11.2015
Subjects
Engineering
Metallic Materials
fiber filtration theory
packed-bed filtration theory
steady filtration
trapping efficiency
wall-flow diesel particulate filter
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ISSN2095-2899
2227-5223
DOI10.1007/s11771-015-2993-9

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Abstract Taking wall-flow diesel particulate filter (DPF) as the research objective and separately assuming its filtering wall to be composed of numerous spherical or cylindrical elements, two different mathematical models of steady filtration for wall-flow diesel particulate filter were developed and verified by experiments as well as numerically solved. Furthermore, the effects of the macroand micro-structural parameters of filtering wall and exhaust-flow characteristic parameters on trapping efficiency were also analyzed and researched. The results show that: 1) The two developed mathematical models are consistent with the prediction of variation of particulate size; the influence of various factors on the steady trapping efficiency is exactly the same. Compared to model 2, model 1 is more suitable for describing the steady filtration process of wall-flow diesel particulate filter; 2)The major influencing factors on steady trapping efficiency of wall-flow diesel particulate filter are the macro-and micro-structural parameters of filtering wall; and the secondary influencing factors are the exhaust-flow characteristic parameters and macro-structural parameters of filter; 3)The steady trapping efficiency will be improved by increasing filter body volume, pore density as well as wall thickness and by decreasing exhaust-flow, but effects will be weakened when particulate size exceeds a certain critical value; 4) The steady trapping efficiency will be significantly improved by increasing exhaust-flow temperature and filtering wall thickness, but effects will be also weakened when particulate size exceeds a certain critical value; 5) The steady trapping efficiency will approximately linearly increase with reducing porosity, micropore aperture and pore width.
AbstractList Taking wall-flow diesel particulate filter (DPF) as the research objective and separately assuming its filtering wall to be composed of numerous spherical or cylindrical elements, two different mathematical models of steady filtration for wall-flow diesel particulate filter were developed and verified by experiments as well as numerically solved. Furthermore, the effects of the macroand micro-structural parameters of filtering wall and exhaust-flow characteristic parameters on trapping efficiency were also analyzed and researched. The results show that: 1) The two developed mathematical models are consistent with the prediction of variation of particulate size; the influence of various factors on the steady trapping efficiency is exactly the same. Compared to model 2, model 1 is more suitable for describing the steady filtration process of wall-flow diesel particulate filter; 2)The major influencing factors on steady trapping efficiency of wall-flow diesel particulate filter are the macro-and micro-structural parameters of filtering wall; and the secondary influencing factors are the exhaust-flow characteristic parameters and macro-structural parameters of filter; 3)The steady trapping efficiency will be improved by increasing filter body volume, pore density as well as wall thickness and by decreasing exhaust-flow, but effects will be weakened when particulate size exceeds a certain critical value; 4) The steady trapping efficiency will be significantly improved by increasing exhaust-flow temperature and filtering wall thickness, but effects will be also weakened when particulate size exceeds a certain critical value; 5) The steady trapping efficiency will approximately linearly increase with reducing porosity, micropore aperture and pore width.
Author Zuo, Qing-song
Yuan, Wen-hua
Zhang, Gui-ju
Zuo, Wei
E, Jia-qiang
Gong, Jin-ke
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CitedBy_id crossref_primary_10_1007_s11771_021_4759_x
crossref_primary_10_1016_j_cej_2025_159982
crossref_primary_10_1016_j_jece_2023_110771
crossref_primary_10_1007_s11042_018_5898_4
Cites_doi 10.1007/s11771-014-2466-6
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10.1016/j.camwa.2007.08.012
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Issue 11
Keywords fiber filtration theory
packed-bed filtration theory
steady filtration
trapping efficiency
wall-flow diesel particulate filter
Language English
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Metallic Materials
Title Numerical simulation on trapping efficiency of steady filtration process in diesel particulate filter and its experimental verification
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