Understanding the oxidative cleaning of UF membranes

Inna Levitsky; Aviv Duek; Elizabeth Arkhangelsky; Diana Pinchev; Tali Kadoshian; Hila Shetrit; Ronen Naim; Vitaly Gitis

doi:10.1016/j.memsci.2011.04.046

Understanding the oxidative cleaning of UF membranes

Inna Levitsky, Aviv Duek, Elizabeth Arkhangelsky, Diana Pinchev, Tali Kadoshian, Hila Shetrit, Ronen Naim, Vitaly Gitis

Research output: Contribution to journal › Article › peer-review

Abstract

Increased protein fouling of polyether sulphone membranes after NaOCl cleaning was previously reported but not explained. Here we show that the cleaning increases the hydrophilicity, and the degree of increase linearly correlates with the amount of adsorbed protein. The high initial flux through the cleaned membrane is a result of the hydrophilization of the membrane surface and a promise for the enhanced fouling. We propose that the proper oxidative cleaning should target the restoration of the initial flux and not its increase over initial values. The previously reported pore size changes are subjective as higher hydrophilicity of the membrane surface increases water permeability and adsorption of size test solutes.

Original language	American English
Pages (from-to)	206-213
Number of pages	8
Journal	Journal of Membrane Science
Volume	377
Issue number	1-2
DOIs	https://doi.org/10.1016/j.memsci.2011.04.046
State	Published - 15 Jul 2011

Keywords

BSA
Free chlorine
PEG
PES
PVDF

All Science Journal Classification (ASJC) codes

Biochemistry
General Materials Science
Physical and Theoretical Chemistry
Filtration and Separation

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10.1016/j.memsci.2011.04.046

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title = "Understanding the oxidative cleaning of UF membranes",

abstract = "Increased protein fouling of polyether sulphone membranes after NaOCl cleaning was previously reported but not explained. Here we show that the cleaning increases the hydrophilicity, and the degree of increase linearly correlates with the amount of adsorbed protein. The high initial flux through the cleaned membrane is a result of the hydrophilization of the membrane surface and a promise for the enhanced fouling. We propose that the proper oxidative cleaning should target the restoration of the initial flux and not its increase over initial values. The previously reported pore size changes are subjective as higher hydrophilicity of the membrane surface increases water permeability and adsorption of size test solutes.",

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AU - Levitsky, Inna

AU - Duek, Aviv

AU - Arkhangelsky, Elizabeth

AU - Pinchev, Diana

AU - Kadoshian, Tali

AU - Shetrit, Hila

AU - Naim, Ronen

AU - Gitis, Vitaly

PY - 2011/7/15

Y1 - 2011/7/15

N2 - Increased protein fouling of polyether sulphone membranes after NaOCl cleaning was previously reported but not explained. Here we show that the cleaning increases the hydrophilicity, and the degree of increase linearly correlates with the amount of adsorbed protein. The high initial flux through the cleaned membrane is a result of the hydrophilization of the membrane surface and a promise for the enhanced fouling. We propose that the proper oxidative cleaning should target the restoration of the initial flux and not its increase over initial values. The previously reported pore size changes are subjective as higher hydrophilicity of the membrane surface increases water permeability and adsorption of size test solutes.

AB - Increased protein fouling of polyether sulphone membranes after NaOCl cleaning was previously reported but not explained. Here we show that the cleaning increases the hydrophilicity, and the degree of increase linearly correlates with the amount of adsorbed protein. The high initial flux through the cleaned membrane is a result of the hydrophilization of the membrane surface and a promise for the enhanced fouling. We propose that the proper oxidative cleaning should target the restoration of the initial flux and not its increase over initial values. The previously reported pore size changes are subjective as higher hydrophilicity of the membrane surface increases water permeability and adsorption of size test solutes.

KW - BSA

KW - Free chlorine

KW - PEG

KW - PES

KW - PVDF

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JO - Journal of Membrane Science

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ER -

Understanding the oxidative cleaning of UF membranes

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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