Role of hydrophobic natural organic matter flocs on the fouling in coagulation-membrane processes

Role of hydrophobic natural organic matter flocs on the fouling in coagulation-membrane processes

Effects of the properties of flocs consisting of natural organic matter (NOM) contained in surface waters on membrane fouling in the coagulation-microfiltration (MF) treatment were examined in this study. Two types of waters containing different quantities of dissolved NOM primarily composed of humi...

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Bibliographic Details
Published in:Separation and purification technology Vol. 62; no. 3; pp. 529 - 534
Main Authors: Choi, Yang Hun, Kim, Han S., Kweon, Ji Hyang
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 22-09-2008
Elsevier Science
Subjects:
Applied sciences
Chemical engineering
Coagulation
Continental surface waters
Exact sciences and technology
Floc property
Hydrophobic
Membrane separation (reverse osmosis, dialysis...)
Microfiltration membrane fouling
Natural organic matter
Natural water pollution
Pollution
Water treatment and pollution
Floc property
Microfiltration membrane fouling
Natural organic matter
Coagulation
Hydrophobic
Organic matter
Compressibility
Fouling
Physical properties
Membrane separation
Microfiltration
Fractal dimension
Flocculation
Morphology
Surface water
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Summary:Effects of the properties of flocs consisting of natural organic matter (NOM) contained in surface waters on membrane fouling in the coagulation-microfiltration (MF) treatment were examined in this study. Two types of waters containing different quantities of dissolved NOM primarily composed of humic substances were employed, low humic natural water and high humic lab-prepared water. Physical properties of the flocs formed in the coagulation process were analyzed by flocculation index (FI), fractal dimension, and microscopic observations. Flocs of high humic water were small and regular in shape, represented by the low FI and high fractal dimension, indicating that these flocs can be more easily compressible than those of low humic natural water. This was confirmed by direct microscopic observation and increased compressibility of the cakes formed with the high humic water flocs on the membrane surface. As a result, membrane fouling became pronounced, supported by increase of specific cake resistance and substantial decrease of water flux through the membrane. It is our expectation that these results provide useful information for the control of membrane fouling caused by flocs in the coagulation-MF membrane treatment.
ISSN:1383-5866
1873-3794
DOI:10.1016/j.seppur.2008.03.001