Impact of organic fractions identified by SEC and fluorescence EEM on the hydraulic reversibility of ultrafiltration membrane fouling by secondary effluents

Loss of membrane filtration performance due to organic fouling is still a significant drawback for the application of low-pressure membranes in tertiary wastewater treatment. The present study investigates the relevance of different organic fractions present in secondary effluents in terms of hydrau...

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Bibliographic Details
Published in:Desalination and water treatment 2011-05, Vol.29 (1-3), p.73-86
Main Authors: Haberkamp, Jens, Ernst, Mathias, Paar, Hendrik, Pallischeck, Daniela, Amy, Gary, Jekel, Martin
Format: Article
Language:English
Subjects:
Applied sciences
Backwash
Biofiltration
Biological effects
Biopolymers
Chemical coagulation
Chromatography
Coagulation
EEM
Effluents
Emission analysis
Exact sciences and technology
Filtration
Fluorescence
Fluorescence analysis
Fouling
General purification processes
LC-OCD
Membrane filtration
Membrane processes
Membranes
Molecular weight
Organic fouling
Pollution
Polysaccharides
Proteins
Removal
Saccharides
Sand
Sensitivity analysis
Size exclusion chromatography
Tertiary
Tertiary sewage treatment
Tertiary wastewater treatment
Ultrafiltration
Wastewater
Wastewater treatment
Wastewaters
Water treatment and pollution
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Summary:Loss of membrane filtration performance due to organic fouling is still a significant drawback for the application of low-pressure membranes in tertiary wastewater treatment. The present study investigates the relevance of different organic fractions present in secondary effluents in terms of hydraulically reversible and irreversible fouling of hollow-fibre ultrafiltration membranes. A good correlation between the hydraulically reversible filtration resistance and the total organic biopolymer concentration according to size exclusion chromatography (SEC) was observed. Qualitatively biopolymers consist mainly of polysaccharides as well as proteins with high molecular weight. Polysaccharides are retained by the membrane pores, but can be removed by simple UF backwashing. On the other hand, fluorescence excitation–emission matrix (EEM) analysis indicates that the extent of the hydraulically irreversible fouling correlates with the presence of protein-like substances. Removal of protein-like substances by biological slow sand filtration or chemical coagulation results in the significant reduction of the hydraulically irreversible fouling, which is presumably due to proteins in the molecular range of biopolymers. In contrast to the comparatively low sensitivity of colori metric methods for the analysis of proteins and polysaccharides, the combined application of size exclusion chromatography and fluorescence EEM analysis is a promising tool for the determination of the organic fouling propensity of secondary effluents.
ISSN:1944-3986
1944-3994
1944-3986
DOI:10.5004/dwt.2011.1975