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Separation Science and Technology Volume 51, 2016 - Issue 4
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Membrane Papers

Investigation of combined fouling behavior in nano-filtration process under various feed conditions

Shengji XiaState Key Laboratory of Pollution Control and Resources Reuse, Tongji University, Shanghai, P. R. ChinaCorrespondence[email protected]
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,
Yukun WanState Key Laboratory of Pollution Control and Resources Reuse, Tongji University, Shanghai, P. R. ChinaView further author information
,
Nana LiState Key Laboratory of Pollution Control and Resources Reuse, Tongji University, Shanghai, P. R. ChinaView further author information
&
Yu ZhaoState Key Laboratory of Pollution Control and Resources Reuse, Tongji University, Shanghai, P. R. ChinaView further author information
Pages 681-691 | Received 17 Mar 2015, Accepted 03 Nov 2015, Published online: 21 Feb 2016

References

  • Shannon, M. A.; Bohn, P. W.; Elimelech, M. (2008) Science and technology for water purification in the coming decades. Nature. 452 (7185): 301–310.
  • Elimelech, M. (2006) The global challenge for adequate and safe water. Journal of Water Supply: Research and Technology - AQUA. 55 (1): 3–10.
  • Gao, W.; Liang, H.; Ma, J. (2011) Membrane fouling control in ultrafiltration technology for drinking water production: A review. Desalination. 272 (1–3): 1–8.
  • Costa, A. R.; De Pinho, M. N. (2005) Effect of membrane pore size and solution chemistry on the ultrafiltration of humic substances solutions. Journal of Membrane Science. 255 (1–2): 49–56.
  • Thorsen, T. (1999) Membrane filtration of humic substances - State of the art. Water Science and Technology; 40(9): 105–112.
  • Peldszus, S.; Halle, C.; Peiris, R. H. (2011) Reversible and irreversible low-pressure membrane foulants in drinking water treatment: Identification by principal component analysis of fluorescence EEM and mitigation by biofiltration pretreatment. Water Research. 45 (16): 5161–5170.
  • Ye, Y.; Le Clech, P.; Chen, V. (2005) Fouling mechanisms of alginate solutions as model extracellular polymeric substances. Desalination. 175 (1): 7–20.
  • Kim, S.; Hoek, E. M. V. (2007) Interactions controlling biopolymer fouling of reverse osmosis membranes. Desalination. 202 (1–3): 333–342.
  • Lee, S.; Ang, W. S.; Elimelech, M. (2006) Fouling of reverse osmosis membranes by hydrophilic organic matter: Implications for water reuse. Desalination. 187 (1–3): 313–321.
  • Ang, W. S.; Tiraferri, A.; Chen, K. L. (2011) Fouling and cleaning of RO membranes fouled by mixtures of organic foulants simulating wastewater effluent. Journal of Membrane Science. 376 (1–2): 196–206.
  • Liu, Y.; Mi, B. (2012) Combined fouling of forward osmosis membranes: Synergistic foulant interaction and direct observation of fouling layer formation. Journal of Membrane Science. 407: 136–144.
  • Jermann, D.; Pronk, W.; Boller, M. (2008) Mutual influences between natural organic matter and inorganic particles and their combined effect on ultrafiltration membrane fouling. Environmental Science & Technology. 42 (24): 9129–9136.
  • Jermann, D.; Pronk, W.; Meylan, S. (2007) Interplay of different NOM fouling mechanisms during ultrafiltration for drinking water production. Water Research. 41 (8): 1713–1722.
  • Manttari, M.; Pihlajamaki, A.; Nystrom, M. (2006) Effect of pH on hydrophilicity and charge and their effect on the filtration efficiency of NF membranes at different pH. Journal of Membrane Science. 280 (1–2): 311–320.
  • Gao, W.; Liang, H.; Ma, J. (2011) Membrane fouling control in ultrafiltration technology for drinking water production: A review. Desalination. 272 (1–3): 1–8.
  • Zularisam, A.W.; Ismail, A. F.; Salim, R. (2006) Behaviours of natural organic matter in membrane filtration for surface water treatment: A review. Desalination. 194 (1–3): 211–231.
  • Lin, Y.-L. (2013) Effects of physicochemical properties of nanofiltration membranes on the rejection of small organic DBP precursors. Journal of Environmental Engineering-Asce. 139 (1): 127–136.
  • Lee, S.; Elimelech, M. (2007) Salt cleaning of organic-fouled reverse osmosis membranes. Water Research. 41 (5): 1134–1142.
  • Wang, Y. N.; Tang, C. Y. (2011) Nanofiltration membrane fouling by oppositely charged macromolecules: Investigation on flux behavior, foulant mass deposition, and solute rejection. Environmental Science & Technology. 45 (20): 8941–8947.
  • Lee, S.; Elimelech, M. (2006) Relating organic fouling of reverse osmosis membranes to intermolecular adhesion forces. Environmental Science & Technology. 40 (3): 980–987.
  • Zhu, X. H.; Elimelech, M. (1997) Colloidal fouling of reverse osmosis membranes: Measurements and fouling mechanisms. Environmental Science & Technology. 31 (12): 3654–3662.
  • Zhu, X. H.; Elimelech, M. (1995) Fouling of reverse-osmosis membranes by aluminum-oxide colloids. Journal of Environmental Engineering-Asce. 121 (12): 884–892.
  • Contreras, A. E.; Kim, A.; Li, Q. L. (2009) Combined fouling of nanofiltration membranes: Mechanisms and effect of organic matter. Journal of Membrane Science. 327 (1–2): 87–95.
  • Lee, S.; Cho, J. W.; Elimelech, M. (2005) Combined influence of natural organic matter (NOM) and colloidal particles on nanofiltration membrane fouling. Journal of Membrane Science. 262 (1–2): 27–41.
  • Li, Q.; Elimelech, M. (2006) Synergistic effects in combined fouling of a loose nanofiltration membrane by colloidal materials and natural organic matter. Journal of Membrane Science. 278 (1): 72–82.
  • Kim, Y.; Elimelech, M.; Shon, H. K. (2014) Combined organic and colloidal fouling in forward osmosis: Fouling reversibility and the role of applied pressure. Journal of Membrane Science. 460: 206–212.
  • Yang, J.-S.; Xie, Y.-J.; He, W. (2011) Research progress on chemical modification of alginate: A review. Carbohydrate Polymers. 84 (1): 33–39.
  • Xu, P.; Drewes, J. E.; Kim, T. U. (2006) Effect of membrane fouling on transport of organic contaminants in NF/RO membrane applications. Journal of Membrane Science. 279 (1–2): 165–175.
  • Simon, A.; W. Price; L. D. Nghiem (2011) Implications of membrane fouling toward the removal of the pharmaceutical sulfamethoxazole by nanofiltration processes. Journal of Zhejiang University-Science A. 12 (8): 575–582.
  • Sioutopoulos, D. C.; Yiantsios, S. G.; Karabelas, A.J. (2010) Relation between fouling characteristics of RO and UF membranes in experiments with colloidal organic and inorganic species. Journal of Membrane Science. 350 (1–2): 62–82.
  • Li, Q. L.; Elimelech, M. (2004) Organic fouling and chemical cleaning of nanofiltration membranes: Measurements and mechanisms. Environmental Science & Technology. 38 (17): 4683–4693.
  • Hong, S. K.; Elimelech, M. (1997) Chemical and physical aspects of natural organic matter (NOM) fouling of nanofiltration membranes. Journal of Membrane Science. 132 (2): 159–181.
  • Lee, S.; Cho, J.; Elimelech, M. (2004) Influence of colloidal fouling and feed water recovery on salt rejection of RO and NF membranes. Desalination. 160 (1): 1–12.
  • Katsoufidou, K.; Yiantsios, S.; Karabelas, A. (2008) An experimental study of UF membrane fouling by humic acid and sodium alginate solutions: The effect of backwashing on flux recovery. Desalination. 220 (1): 214–227.
  • Arkhangelsky, E.; Wicaksana, F.; Tang, C. (2012) Combined organic–inorganic fouling of forward osmosis hollow fiber membranes. Water Research. 46 (19): 6329–6338.
  • Crozes, G.; Jacangelo, J.; Anselme, C. (1997) Impact of ultrafiltration operating conditions on membrane irreversible fouling. Journal of Membrane Science. 124 (1): 63–76.
  • She, Q. H.; Wong, Y. K. W.; Zhao, S. F. (2013) Organic fouling in pressure retarded osmosis: Experiments, mechanisms and implications. Journal of Membrane Science. 428: 181–189.
  • Lee, S.; Boo, C.; Elimelech, M. (2010) Comparison of fouling behavior in forward osmosis (FO) and reverse osmosis (RO). Journal of Membrane Science. 365 (1): 34–39.
  • Mi, B. X.; Elimelech, M. (2010) Organic fouling of forward osmosis membranes: Fouling reversibility and cleaning without chemical reagents. Journal of Membrane Science. 348 (1–2): 337–345.

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