Open Access
E3S Web Conf.
Volume 233, 2021
2020 2nd International Academic Exchange Conference on Science and Technology Innovation (IAECST 2020)
Article Number 01049
Number of page(s) 6
Section NESEE2020-New Energy Science and Environmental Engineering
Published online 27 January 2021
  1. Y.-R. Chang, Y.-J. Lee and D.-J. Lee, Journal of the Taiwan Institute of Chemical Engineers, Membrane fouling during water or wastewater treatments: Current research updated, 94, 88-96, (2019) [Google Scholar]
  2. W. Guo, H. H. Ngo and J. Li, Bioresour Technol, A mini-review on membrane fouling, 122, 27-34, (2012) [Google Scholar]
  3. W. Yuan and A. L. Zydney, Environmental ence & Technology, Humic Acid Fouling during Ultrafiltration, 34, 1-12, (2000) [Google Scholar]
  4. P. Xiao, W. Zhang, F. Xiao, Z. Bi and D. Wang, Water ence & technology, A novel approach using a fouling index to evaluate NOM fouling behavior in a low pressure ultrafiltration process, 14, 196-204, (2014) [Google Scholar]
  5. M. A. Zazouli, S. Nasseri and M. Ulbricht, Desalination, Fouling effects of humic and alginic acids in nanofiltration and influence of solution composition, 250, 688-692, (2010) [Google Scholar]
  6. I. Sutzkover-Gutman, D. Hasson and R. Semiat, Desalination, Humic substances fouling in ultrafiltration processes, 261, 218-231, (2010) [Google Scholar]
  7. M. Chen, J. Zheng, R. Dai, Z. Wu and Z. Wang, Chemical Engineering Journal, Preferential removal of 2,4-dichlorophenoxyacetic acid from contaminated waters using an electrocatalytic ceramic membrane filtration system: Mechanisms and implications, 387, 124132, (2020) [Google Scholar]
  8. H. Yang, S. Xu, D. E. Chitwood and Y. Wang, Frontiers of Environmental Science & Engineering, Ceramic water filter for point-of-use water treatment in developing countries: Principles, challenges and opportunities, 14, (2020) [Google Scholar]
  9. K. Gao, T. Li, J. Liu, B. Dong and H. Chu, Environmental Science: Water Research & Technology, Ultrafiltration membrane fouling performance by mixtures with micromolecular and macromolecular organics, 5, 277-286, (2019) [Google Scholar]
  10. J. Hermia, Transactions of the Institution of Chemical Engineers, Constant pressure blocking filtration laws-application to power-lawnon-newtonian fluids, 60, 187-193, (1982) [Google Scholar]
  11. A. Rushton, Mathematical Models and Design Methods in Solid-Liquid Separation, (1985) [Google Scholar]
  12. J. Peng, H. X. Zhu, L. W. Guo, L. I. Bo, X. J. Mao and G. M. University, Chinese Traditional & Herbal Drugs, Fouling mechanisms of ultrafiltration membranes fouled with traditional Chinese medicine pectin based on Hermia model, (2019) [Google Scholar]
  13. S. Heidari, M. Amirinejad and H. Jahangirian, Chemical Engineering & Technology, Investigation of Fouling Mechanisms Using Surface Morphology and Physicochemical Membrane Features, (2019) [Google Scholar]
  14. J. Jacob, P. Prádanos, J. I. Calvo, A. Hernández and G. E. Jonsson, Colloids and Surfaces A: Physicochemical and Engineering Aspects, Fouling kinetics and associated dynamics of structural modifications, 138, 173-183, (1998) [Google Scholar]
  15. W. Jin and W. Xiao-Chang, Journal of Environmental ences, Ultrafiltration with in-line coagulation for the removal of natural humic acid and membrane fouling mechanism, 18, 880-884, (2006) [Google Scholar]
  16. Y. H. Li, J. Wang, W. Zhang, X. J. Zhang and C. Chen, Chinese Science Bulletin, Effects of coagulation on submerged ultrafiltration membrane fouling caused by particles and natural organic matter (NOM), (2011) [Google Scholar]
  17. Y. Teow, B. Ooi and A. Ahmad, Journal of Water Process Engineering, Fouling behaviours of PVDF-TiO2 mixed-matrix membrane applied to humic acid treatment, 15, 89-98, (2017) [Google Scholar]
  18. F. Xiao, P. Xiao, W. J. Zhang and D. S. Wang, Journal of Membrane ence, Identification of key factors affecting the organic fouling on low-pressure ultrafiltration membranes, 447, 144-152, (2013) [Google Scholar]
  19. D. Jermann, W. Pronk, S. Meylan and M. Boller, Water Res, Interplay of different NOM fouling mechanisms during ultrafiltration for drinking water production, 41, 1713-22, (2007) [Google Scholar]
  20. D. Jermann, W. Pronk, R. K?Gi, M. Halbeisenand M. Boller, Water Research, Influence of interactions between NOM and particles on UF fouling mechanisms, 42, 3870-3878, (2008) [Google Scholar]

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