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Temporal resistance fluctuations during the initial filtration period of colloidal matter filtration

Stüwe, Lucas ; Lüken, Arne ; Stockmeier, Felix ; Griesberg, Lukas ; Kratzenberg, Timon ; Linkhorst, John ; Richtering, Walter ; Wessling, Matthias (2024)
Temporal resistance fluctuations during the initial filtration period of colloidal matter filtration.
In: Journal of Membrane Science, 708
doi: 10.1016/j.memsci.2024.122988
Article, Bibliographie

Abstract

Membrane filtration processes with flux reversal for backwashing are employed to manage fouling during colloidal fluid treatment. This flux reversal accompanies filtration cycles where the total resistance increases over time. However, little is known about the initial phase of filtration. We focus on early filtration phase and present a microfluidic filtration system that allows precise observation of filtration resistances under constant flux or constant pressure operation for soft matter dead-end filtration with subsequent percolation of pure solvent. We identified temporal hydraulic resistance fluctuations during the start-up phase, which significantly differed from the steady-state condition. We focus on the experimental filtration of soft core--shell poly(N-isopropylacrylamide)-co-acrylic-acid microgels and observed a distinct peak in filter cake resistance with a subsequent reduction down to 50% of the initial peak resistance. To comprehend the phenomenon, we complement the experiments with temporal and spatial confocal microscopy studies linking cake compression and cake density gradients to its resistance. By comparing filtration, dialysis, and centrifugation as different microgel purification methods, we discover microgel shell degradation leading to detached polymer chains permeating in the downstream which causes the observed resistance reduction. This result demonstrates the permeation-induced degradation of macromolecular colloids during membrane filtration.

Item Type: Article
Erschienen: 2024
Creators: Stüwe, Lucas ; Lüken, Arne ; Stockmeier, Felix ; Griesberg, Lukas ; Kratzenberg, Timon ; Linkhorst, John ; Richtering, Walter ; Wessling, Matthias
Type of entry: Bibliographie
Title: Temporal resistance fluctuations during the initial filtration period of colloidal matter filtration
Language: English
Date: August 2024
Publisher: Elsevier
Journal or Publication Title: Journal of Membrane Science
Volume of the journal: 708
DOI: 10.1016/j.memsci.2024.122988
Abstract:

Membrane filtration processes with flux reversal for backwashing are employed to manage fouling during colloidal fluid treatment. This flux reversal accompanies filtration cycles where the total resistance increases over time. However, little is known about the initial phase of filtration. We focus on early filtration phase and present a microfluidic filtration system that allows precise observation of filtration resistances under constant flux or constant pressure operation for soft matter dead-end filtration with subsequent percolation of pure solvent. We identified temporal hydraulic resistance fluctuations during the start-up phase, which significantly differed from the steady-state condition. We focus on the experimental filtration of soft core--shell poly(N-isopropylacrylamide)-co-acrylic-acid microgels and observed a distinct peak in filter cake resistance with a subsequent reduction down to 50% of the initial peak resistance. To comprehend the phenomenon, we complement the experiments with temporal and spatial confocal microscopy studies linking cake compression and cake density gradients to its resistance. By comparing filtration, dialysis, and centrifugation as different microgel purification methods, we discover microgel shell degradation leading to detached polymer chains permeating in the downstream which causes the observed resistance reduction. This result demonstrates the permeation-induced degradation of macromolecular colloids during membrane filtration.

Uncontrolled Keywords: fouling, microgels, resistance fluctuations, soft matter filtration, ultrafiltration
Identification Number: Artikel-ID: 122988
Divisions: 16 Department of Mechanical Engineering
16 Department of Mechanical Engineering > Chair for Process Engineering of Electrochemical Systems
Date Deposited: 24 Jul 2024 08:20
Last Modified: 24 Jul 2024 12:06
PPN: 520116410
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