Influence of the Precoat Layer on the Filtration Properties and Regeneration Quality of Backwashing Filters

Influence of the Precoat Layer on the Filtration Properties and Regeneration Quality of Backwashing Filters

For solid–liquid separation, filter meshes are still used across large areas today, as they offer a cost-effective alternative, for example, compared to membranes. However, particle interaction leads to a continuous blocking of the pores, which lowers the flow rate of the mesh and reduces its lifeti...

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Bibliographic Details
Main Authors: Volker Bächle, Patrick Morsch, Marco Gleiß, Hermann Nirschl
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Eng
Subjects:
precoat layer
precoat filtration
cellulose fibres
filter aids
backwash filtration
filter regeneration
Online Access:https://www.mdpi.com/2673-4117/2/2/12
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spelling doaj-0cc6e048e8e1479e84efeb14fa0e374c2021-06-01T00:45:17ZengMDPI AGEng2673-41172021-05-0121218119610.3390/eng2020012Influence of the Precoat Layer on the Filtration Properties and Regeneration Quality of Backwashing FiltersVolker Bächle0Patrick Morsch1Marco Gleiß2Hermann Nirschl3Karlsruhe Institute of Technology (KIT), Strasse am Forum 8, 76131 Karlsruhe, GermanyKarlsruhe Institute of Technology (KIT), Strasse am Forum 8, 76131 Karlsruhe, GermanyKarlsruhe Institute of Technology (KIT), Strasse am Forum 8, 76131 Karlsruhe, GermanyKarlsruhe Institute of Technology (KIT), Strasse am Forum 8, 76131 Karlsruhe, GermanyFor solid–liquid separation, filter meshes are still used across large areas today, as they offer a cost-effective alternative, for example, compared to membranes. However, particle interaction leads to a continuous blocking of the pores, which lowers the flow rate of the mesh and reduces its lifetime. This can be remedied by filter aids. In precoat filtration, these provide an already fully formed filter cake on the fabric, which acts as a surface and depth filter. This prevents interaction of the particles to be separated with the mesh and thus increases the service life of the mesh. In this work, the influence of a precoat layer with different fibre lengths of cellulose on the filtration behavior is investigated. A satin with a pore size of 11 µm is used as the filter medium. The effects of the precoat layer on the filter media resistance, the filter cake resistance, the turbidity impact, and the regenerability of the fabrics are investigated. This study shows an overview of the suitability of various cellulose fibres based on different aspects as filter aids for particles in ultrafine filtration.https://www.mdpi.com/2673-4117/2/2/12precoat layerprecoat filtrationcellulose fibresfilter aidsbackwash filtrationfilter regeneration
collection DOAJ
language English
format Article
sources DOAJ
author Volker Bächle
Patrick Morsch
Marco Gleiß
Hermann Nirschl
spellingShingle Volker Bächle
Patrick Morsch
Marco Gleiß
Hermann Nirschl
Influence of the Precoat Layer on the Filtration Properties and Regeneration Quality of Backwashing Filters
Eng
precoat layer
precoat filtration
cellulose fibres
filter aids
backwash filtration
filter regeneration
author_facet Volker Bächle
Patrick Morsch
Marco Gleiß
Hermann Nirschl
author_sort Volker Bächle
title Influence of the Precoat Layer on the Filtration Properties and Regeneration Quality of Backwashing Filters
title_short Influence of the Precoat Layer on the Filtration Properties and Regeneration Quality of Backwashing Filters
title_full Influence of the Precoat Layer on the Filtration Properties and Regeneration Quality of Backwashing Filters
title_fullStr Influence of the Precoat Layer on the Filtration Properties and Regeneration Quality of Backwashing Filters
title_full_unstemmed Influence of the Precoat Layer on the Filtration Properties and Regeneration Quality of Backwashing Filters
title_sort influence of the precoat layer on the filtration properties and regeneration quality of backwashing filters
publisher MDPI AG
series Eng
issn 2673-4117
publishDate 2021-05-01
description For solid–liquid separation, filter meshes are still used across large areas today, as they offer a cost-effective alternative, for example, compared to membranes. However, particle interaction leads to a continuous blocking of the pores, which lowers the flow rate of the mesh and reduces its lifetime. This can be remedied by filter aids. In precoat filtration, these provide an already fully formed filter cake on the fabric, which acts as a surface and depth filter. This prevents interaction of the particles to be separated with the mesh and thus increases the service life of the mesh. In this work, the influence of a precoat layer with different fibre lengths of cellulose on the filtration behavior is investigated. A satin with a pore size of 11 µm is used as the filter medium. The effects of the precoat layer on the filter media resistance, the filter cake resistance, the turbidity impact, and the regenerability of the fabrics are investigated. This study shows an overview of the suitability of various cellulose fibres based on different aspects as filter aids for particles in ultrafine filtration.
topic precoat layer
precoat filtration
cellulose fibres
filter aids
backwash filtration
filter regeneration
url https://www.mdpi.com/2673-4117/2/2/12
work_keys_str_mv AT volkerbachle influenceoftheprecoatlayeronthefiltrationpropertiesandregenerationqualityofbackwashingfilters
AT patrickmorsch influenceoftheprecoatlayeronthefiltrationpropertiesandregenerationqualityofbackwashingfilters
AT marcogleiß influenceoftheprecoatlayeronthefiltrationpropertiesandregenerationqualityofbackwashingfilters
AT hermannnirschl influenceoftheprecoatlayeronthefiltrationpropertiesandregenerationqualityofbackwashingfilters
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