References

  1. I. Delpla, T. Benmarhnia, A. Lebel, P. Levallois, M.J. Rodríguez, Investigating social inequalities in exposure to drinking water contaminants in rural areas, Environ. Pollut., 207 (2015) 88–96.
  2. H. Chen-Yan, Z. He-Zhen, L. Yi-Li, Z. Tian-Yang, Z. Fan, X. Bin, Dissolved organic matter fractions and disinfection by-product formation potential from major raw waters in the water-receiving areas of south-to-north water diversion project, China, Desal. Wat. Treat., 56 (2015) 1689–1697.
  3. J. Lu, T. Zhang, J. Ma, Z. Chen, Evaluation of disinfection by-products formation during chlorination and chloramination of dissolved natural organic matter fractions isolated from a filtered river water, J. Hazard. Mater., 162 (2009) 140–145.
  4. W.D. King, L. Dodds, A.C. Allen, B.A. Armson, D. Fell, C. Nimrod, Haloacetic acids in drinking water and risk for stillbirth, Occup. Environ. Med., 62 (2005) 124–127.
  5. U.S. Environmental Protection Agency, Integrated Risk Information System, EPA 635/R-03/007, 2003, Washington, DC.
  6. M.K. Smith, J.L. Randall, E.J. Read, J.A. Stober, Teratogenic activity of trichloroacetic acid in the rat, Teratology, 40 (1989) 445–451.
  7. A. Tubić, J. Agbaba, B. Dalmacija, J. Molnar, S. Maletić, M. Watson, S. Ugarčina Perović, Insight into changes during coagulation in NOM reactivity for trihalomethanes and haloacetic acids formation, J. Environ. Manage., 118 (2013) 153–160.
  8. Q. Wang, Y. Ma, A. Li, J. Wang, R. Ma, Study on the removal of dissolved organic matters in the raw water by a new magnetic anion-exchange resin, Desal. Wat. Treat., 57 (2016) 572–581.
  9. E. Sperczyńska, L. Dąbrowska, E. Wiśniowska, Removal of turbidity, colour and organic matter from surface water by coagulation with polyaluminium chlorides and with activated carbon as coagulant aid, Desal. Wat. Treat., 57 (2016) 1139–1144.
  10. Y. Yoon, G. Amy, J. Cho, N. Her, Effects of retained natural organic matter (NOM) on NOM rejection and membrane flux decline with nanofiltration and ultrafiltration, Desalination, 173 (2005) 209–221.
  11. M.N. Abu Seman, D. Johnson, S. Al-Malek, N. Hilal, Surface modification of nanofiltration membrane for reduction of membrane fouling, Desal. Wat. Treat., 10 (2009) 298–305.
  12. W. Xu, Q. Yue, B. Gao, B. Du, Impacts of organic coagulant aid on purification performance and membrane fouling of coagulation/ultrafiltration hybrid process with different Al-based coagulants, Desalination, 363 (2015) 126–133.
  13. L. Feng, W. Wang, R. Feng, S. Zhao, H. Dong, S. Sun, B. Gao, Q. Yue, Coagulation performance and membrane fouling of different aluminum species during coagulation/ultrafiltration combined process, Chem. Eng. J., 262 (2015) 1161–1167.
  14. Y. Wang, Q. Wang, B.Y. Gao, Q. Yue, Y. Zhao, The disinfection by-products precursors removal efficiency and the subsequent effects on chlorine decay for humic acid synthetic water treated by coagulation process and coagulation-ultrafiltration process, Chem. Eng. J., 193–194 (2012) 59–67.
  15. R. Bergamasco, L.C. Konradt-Moraes, M. Fernandes Vieira, M.R. Fagundes-Klen, A. Marquetotti Salcedo Vieira, Performance of a coagulation-ultrafiltration hybrid process for water supply treatment, Chem. Eng. J., 166 (2011) 483–489.
  16. M.R. Teixeira, M.J. Rosa, pH adjustment for seasonal control of UF fouling by natural waters, Desalination, 151 (2002) 165–175.
  17. K. Majewska-Nowak, I. Kowalska, M. Kabsch-Korbutowicz, Ultrafiltration of SDS solutions using polymeric membranes, Desalination, 184 (2005) 415–422.
  18. A. de la Rubia, M. Rodríguez, V.M. León, D. Prats, Removal of natural organic matter and THM formation potential by ultraand nanofiltration of surface water, Water Res., 42 (2008) 714–722.
  19. V.F.J. Rodríguez, Procesos de potabilizacion del agua e influencia del tratamiento de ozonización, Díaz de Santos, S.A., Madrid, Spain, 2003.
  20. M. Kabsch-Korbutowicz, Effect of Al coagulant type on natural organic matter removal efficiency in coagulation/ultrafiltration process, Desalination, 185 (2005) 327–333.
  21. Z. Yang, B. Gao, Q. Yue, Coagulation performance and residual aluminum speciation of Al2(SO4)3 and polyaluminum chloride (PAC) in Yellow River water treatment, Chem. Eng. J., 165 (2010) 122–132.
  22. D. Zheng, R.C. Andrews, S.A. Andrews, L. Taylor-Edmonds, Effects of coagulation on the removal of natural organic matter, genotoxicity, and precursors to halogenated furanones, Water Res., 70 (2015) 118–129.
  23. A. Matilainen, M. Vepsäläinen, M. Sillanpää, Natural organic matter removal by coagulation during drinking water treatment: a review, Adv. Colloid Interface Sci., 159 (2010) 189–197.
  24. Y. Wang, R. Mao, Q. Wang, Z. Yang, B. Gao, Y. Zhao, Fulvic acid removal performance and control of disinfection by-product formation potential in coagulation-ultrafiltration process, Desalination, 302 (2012) 55–64.
  25. Q. Xiangli, Z. Zhenjia, W. Nongcun, V. Wee, M. Low, C.S. Loh, Ng T. Hing, Coagulation pretreatment for a largescale ultrafiltration process treating water from the Taihu River, Desalination, 230 (2008) 305–313.
  26. D. Gang, T.E. Clevenger, S.K. Banerji, Effects of alum coagulation on speciation and distribution of trihalomethanes (THMs) and haloacetic acids (HAAs), J. Environ. Sci. Health, Part A, 40 (2005) 521–534.
  27. Y. Zhao, F. Xiao, D. Wang, M. Yan, Z. Bi, Disinfection byproduct precursor removal by enhanced coagulation and their distribution in chemical fractions, J. Environ. Sci., 25 (2013) 2207–2213.
  28. P.C. Singer, K. Bilyk, Enhanced coagulation using a magnetic ion exchange resin, Water Res., 36 (2002) 4009–4022.
  29. P. Rakruam, S. Wattanachira, Reduction of DOM fractions and their trihalomethane formation potential in surface river water by in-line coagulation with ceramic membrane filtration, J. Environ. Sci., 26 (2014) 529–536.
  30. S. Zhao, B. Gao, S. Sun, Q. Yue, H. Dong, W. Song, Coagulation efficiency, floc properties and membrane fouling of polyaluminum chloride in coagulation-ultrafiltration system: the role of magnesium, Colloids Surf. A, 469 (2015) 235–241.