References

  1. S. Xia, J. Nan, R. Liu, G. Li, Study of drinking water treatment by UF of surface water and its application to China, Desalination, 170 (2004) 41–47.
  2. A.M. Abdel-Satar, M.H. Ali , M.E. Goher, Indices of water quality and metal pollution of Nile River, Egypt, Egypt. J. Aquat. Res., 43 (2017) 21–29.
  3. Z. Zhang, D. Liu, Y. Qian, Y. Wu, P. He, S. Liang, X. Fu, J. Li, C. Ye, Drinking water treatment using a submerged internal circulation membrane coagulation reactor coupled with permanganate oxidation, J. Environ. Sci., 56 (2016) 153–163.
  4. E.J. Bouwer, P.B. Crowe, Biological processes in drinking water treatment, J. AWWA, 80 (1988) 82–93.
  5. J.G. Jacangelo, J.M. Laîné, E.W. Cummings, S.S. Adham, UF with pretreatment for removing DBPs precursors, J. AWWA, 87 (1995) 100–112.
  6. M. Tomaszewska, S. Mozia, Removal of organic matter from water by PAC/UF system, Water Res., 36 (2002) 4137–4143.
  7. H.-S. Kim, H. Katayama, S. Takizawa, S. Ohgaki, Development of a microfilter separation system coupled with a high dose of powdered activated carbon for advanced water treatment, Desalination, 186 (2005) 215–226.
  8. G. Crozes, C. Anselme, J. Mallevialle, Effect of adsorption of organic matter on fouling of ultrafiltration membranes, J. Membr. Sci., 84 (1993) 61–77.
  9. W.Q. Betancourt, J.B. Rose, Drinking water treatment processes for removal of Cryptosporidium and Giardia, Vet. Parasitol., 126 (2004) 219–234.
  10. P. Wobma, D. Pernitsky, B. Bellamy, K. Kjartanson, K. Sears, Biological filtration for ozone and chlorine DBP removal, Ozone Sci. Eng., 22 (2000) 393–413.
  11. I. Vergili, Application of nanofiltration for the removal of carbamazepine, diclofenac and ibuprofen from drinking water sources, J. Environ. Manage., 127 (2013) 177–187.
  12. P. Atel, Preprints of X Summer School on Membranes, Processes and Applications, Valladolid, Spain, 1993, pp. 47–65.
  13. L. Joseph, J.R.V. Flora, Y. Park, M. Badawy, H. Saleh, Y. Yoon, Removal of natural organic matter from potential drinking water sources by combined coagulation and adsorption using carbon nanomaterials, Sep. Purif. Technol., 95 (2012) 64–72.
  14. S. Chowdhury, P. Champagne, P.J. McLellan, Models for predicting disinfection byproduct (DBP) formation in drinking waters: a chronological review, Sci. Total Environ., 407 (2009) 4189–4206.
  15. J. Lowe, Md.M. Hossain, Application of ultrafiltration membranes for removal of humic acid from drinking water, Desalination, 218 (2008) 343–354.
  16. H. Huang, K. Schwab, J.G. Jacangelo, Pretreatment for low pressure membranes in water treatment: a review, Environ. Sci. Technol., 43 (2009) 3011–3019.
  17. S. Xia, X. Li, R. Liu, G. Li, Study of reservoir water treatment by ultrafiltration for drinking water production, Desalination, 167 (2004) 23–26.
  18. J.M. Laîné, D. Vial, P. Moulart, Status after 10 years of operation – overview of UF technology today, Desalination, 131 (2000) 17–25.
  19. J.M. Laîné, M.M. Clark, J. Mallevialle, Ultrafiltration of lake water: effect of pretreatment on the partitioning of organics, THMFP, and flux, J. AWWA, 82 (1990) 82–87.
  20. K.-Y. Song, P.-K. Park, J.-H. Kim, C.-H. Lee, S. Lee, Coupling effect of 17[beta]-estradiol and natural organic matter on the performance of a PAC adsorption/membrane filtration hybrid system, Desalination, 237 (2009) 392–399.
  21. APHA, AWWA, WPCF, Standard Methods for the Examination of Water and Wastewater, 18th ed., American Public Health Association, American Water Works Association, Water Pollution Control Federation, Washington, D.C., USA, 1992.
  22. C. Porntip, M. Heran, A. Grasmick, Ultrafiltration enhanced by coagulation in an immersed membrane system, Desalination, 145 (2002) 265–272.
  23. C. Guigui, J.C. Rouch, L. Durand-Bourlier, V. Bonnelye, P. Aptel, Impact of coagulation conditions on the in-line coagulation/UF process for drinking water production, Desalination, 147 (2002) 95–100.
  24. H.C. Lee, J.Y. Park, D-Y. Yoon, Advanced water treatment of high turbid source by hybrid module of ceramic MF and activated carbon adsorption: effect of organic/inorganic materials, Korean J. Chem. Eng., 26 (2009) 697–701
  25. G. Best, D. Mourato, M. Singh, Application of immersed ultrafiltration in membranes for colour and TOC removal, Membr. Technol., 112 (1999) 5–12.
  26. A.W. Zularisam, A.F. Ismail, R. Salim, Behaviours of natural organic matter in membrane filtration for surface water treatment — a review, Desalination, 194 (2006) 211–231.
  27. X. Cui, K.-H. Choo, Natural organic matter removal and fouling control in low-pressure membrane filtration for water treatment, Environ. Eng. Res., 19 (2014) 1–8.
  28. E. Barbot, S. Moustier, J.Y. Bottero, P. Moulin, Coagulation and ultrafiltration: understanding of the key parameters of the hybrid process, J. Membr. Sci., 325 (2008) 520–527.
  29. B.B. Lee, K.H. Choo, D. Chang, S.J. Choi, Optimizing the coagulant dose to control membrane fouling in combined coagulation/ultrafiltration systems for textile wastewater reclamation, Chem. Eng. J., 155 (2009) 101–107.
  30. S.K. Kang, K.H. Choo, Why does a mineral oxide adsorbent control fouling better than powdered activated carbon in hybrid ultrafiltration water treatment?, J. Membr. Sci., 355 (2010) 69–77.
  31. S. Mozia, M. Tomaszewska, Treatment of surface water using hybrid processes adsorption on PAC and ultrafiltration; Desalination, 162 (2004) 23–31.
  32. W. Yu, N.J.D. Graham, G.D. Fowler, Coagulation and oxidation for controlling ultrafiltration membrane fouling in drinking water treatment: application of ozone at low dose in submerged membrane tank, Water Res., 95 (2016) 1–10.