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Cho, Jaeweon
OWIELAB(Organic-Water Interface Engineering Laboratory)
Research Interests
  • Convergence of Science and Arts, Feces Standard Money (FSM), Water & Energy

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Identification of natural organic matter (NOM) transport behavior near the membrane surface using flow field-flow-fractionation (fl-FFF) micro channel

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Title
Identification of natural organic matter (NOM) transport behavior near the membrane surface using flow field-flow-fractionation (fl-FFF) micro channel
Author
Kim, Do HeeMoon, JiheeCho, Jaeweon
Keywords
Flow field-flow-fractionation (fl-FFF);  Membrane fouling;  NOM
Issue Date
2005-06
Publisher
IWA PUBLISHING
Citation
JOURNAL OF WATER SUPPLY RESEARCH AND TECHNOLOGY-AQUA, v.54, no.4, pp.249 - 259
Abstract
Membrane fouling due to natural organic matter (NOM) is a major obstacle in the membrane filtration process for water treatment and water reuse facilities. Flow field-flow-fractionation (fl-FFF) is capable to evaluate interactions between NOM and the membrane surface in terms of size exclusion, electrostatic interaction and reversible/irreversible adsorption, as well as NOM characterisations. The effects of the membrane surface charge and ionic strength on the behavior of polystyrene sulfonates (PSS) and NOM in membranes were demonstrated using fl-FFF. membrane fouling due to NOM adsorption on the membrane surface was investigated by, and correlated to, fl-FFF. Ionic strength had an effect on both the structure of PSS or NOM and the membrane matrix so that different retention peaks were observed. it also affected the interaction between membrane and solute, and resulted in solute aggregation and adsorption on the membrane surface, Through static and dynamic adsorption tests, the adsorption of the solute was tried to correlate with fl-FFF. AS various membranes were used for the accumulation wall of the fl-FFF tested, this could simulate solute behavior in membrane filtration under similar chemical and hydrodynamic operating conditions. Thus, the fI-FFF system can be used to simulate actual membrane filtration with various solutes such as NOM in order to predict membrane performance for solutes (an earlier elution time for a certain solute with a membrane implies less fouling propensity and greater removal capability for the system)
URI
https://scholarworks.unist.ac.kr/handle/201301/11894
ISSN
0003-7214
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