References

1. J.I. Price, M.T. Heberling, The effects of source water quality on drinking water treatment costs: a review and synthesis of empirical literature, Ecol. Econ., 151 (2018) 195–209.
2. M. Sillanpää, M.C. Ncibi, A. Matilainen, Advanced oxidation processes for the removal of natural organic matter from drinking water sources: a comprehensive review, J. Environ. Manage., 208 (2018) 56–76.
3. C. Wang, Y.J. Feng, S.S. Zhao, B.-L. Li, A dynamic contaminant fate model of organic compound: a case study of nitrobenzene pollution in Songhua River, China, Chemosphere, 88 (2012) 69–76.
4. D.L. Cheng, H.H. Ngo, W.S. Guo, S.W. Chang, D.D. Nguyen, Y.W. Liu, Q. Wei, D. Wei, A critical review on antibiotics and hormones in swine wastewater: water pollution problems and control approaches, J. Hazard. Mater., 387 (2020) 121682–121693.
5. J.H. Redmon, K.E. Levine, A.M. Aceituno, K. Litzenberger, J.M. Gibson, Lead in drinking water at North Carolina childcare centers: piloting a citizen science-based testing strategy, Environ. Res., 183 (2020) 109126–109134.
6. X.W. Ding, Q. Zhu, A.F. Zhai, L. Liu, Water quality safety prediction model for drinking water source areas in Three Gorges Reservoir and its application, Ecol. Indic., 101 (2019) 734–741.
7. A. Ikem, S. Odueyungbo, N.O. Egiebor, K. Nyavor, Chemical quality of bottled waters from three cities in eastern Alabama, Sci. Total Environ., 285 (2002) 165–175.
8. F.J. Rivas, F. Beltrán, O. Gimeno, B. Acedo, F. Carvalho, Stabilized leachates: ozone-activated carbon treatment and kinetics, Water Res., 37 (2003) 4823–4834.
9. T.F. de Oliveira, B. Cagnon, O. Chedeville, H. Fauduet, Removal of a mix of endocrine disrupters from different natural matrices by ozone/activated carbon coupling process, Desal. Water Treat., 52 (2014) 4395–4403.
10. J. Zheng, T. Lin, W. Chen, H. Tao, Y.W. Tan, B.W. Ma, Removal of precursors of typical nitrogenous disinfection by-products in ozonation integrated with biological activated carbon (O3/BAC), Chemosphere, 209 (2018) 68–77.
11. G. Li, W.W. Ben, H. Ye, D. Zhang, Z.M. Qiang, Performance of ozonation and biological activated carbon in eliminating sulfonamides and sulfonamide-resistant bacteria: a pilot-scale study, Chem. Eng. J., 341 (2018) 327–334.
12. M. Östman, B. Björlenius, J. Fick, M. Tysklind, Effect of fullscale ozonation and pilot-scale granular activated carbon on the removal of biocides, antimycotics and antibiotics in a sewage treatment plant, Sci. Total Environ., 649 (2019) 1117–1123.
13. H. Vatankhah, S.M. Riley, C. Murray, O. Quiñones, K.X. Steirer, E.R.V. Dickenson, C. Bellona, Simultaneous ozone and granular activated carbon for advanced treatment of micropollutants in municipal wastewater effluent, Chemosphere, 234 (2019) 845–854.
14. B. Liu, L. Gu, X. Yu, G.Z. Yu, C.M. Zhao, Q.F. Li, H. Zhai, Profile of dissolved organic nitrogen (DON) in full-scale ozone and biological activated carbon filter, Desal. Water Treat., 55 (2015) 2069–2078.
15. W. Hou, S.H. Sun, M.Q. Wang, X. Li, N. Zhang, X.D. Xin, L. Sun, W. Li, R.B. Jia, Assessing water quality of five typical reservoirs in lower reaches of Yellow River, China: using a water quality index method, Ecol. Indic., 61 (2016) 309–316.
16. J. Zhang, S.Y. Li, C.S. Jiang, Effects of land use on water quality in a River Basin (Daning) of the Three Gorges Reservoir Area, China: watershed versus riparian zone, Ecol. Indic., 113 (2020) 106226–106236.
17. M. Varol, Spatio-temporal changes in surface water quality and sediment phosphorus content of a large reservoir in Turkey, Environ. Pollut., 259 (2020) 113860–113868.
18. W.Q. Ding, W.B. Jin, S. Cao, X. Zhou, C.P. Wang, Q.J. Jiang, H. Huang, R.J. Tu, S.-F. Han, Q.L. Wang, Ozone disinfection of chlorine-resistant bacteria in drinking water, Water Res., 160 (2019) 339–349.
19. D. Li, R.-H. Cao, H. Yang, Y.-J. Wang, S.-S. Lu, J. Zhang, Start-up and operation of biofilter coupled nitrification and canon for the removal of iron, manganese and ammonia nitrogen, Environ. Sci., 39 (2018) 1264–1271.
20. F.Y. Li, J.Y. Wang, T.T. Cao, C.W. Cui, Spatial and seasonal variability of water quality in the Mopanshan Reservoir (Harbin, Northern China), Water Sci. Technol. Water Supply, 17 (2017) 389–398.
21. G.B. Ren, M.H. Zhou, Q.Z. Zhang, X. Xu, Y.C. Li, P. Su, A novel stacked flow-through electro-Fenton reactor as decentralized system for the simultaneous removal of pollutants (COD, NH₃–N and TP) and disinfection from domestic sewage containing chloride ions, Chem. Eng. J., 387 (2020) 124037–124047.
22. S.Q. Zhou, Y.T. Wu, S.M. Zhu, J.L. Sun, L.J. Bu, D.D. Dionysiou, Nitrogen conversion from ammonia to trichloronitromethane: potential risk during UV/chlorine process, Water Res., 172 (2020) 115508–115516.
23. J. Xu, Y.X. Zhao, B.Y. Gao, S.L. Han, Q. Zhao, X.L. Liu, The influence of algal organic matter produced by Microcystis aeruginosa on coagulation-ultrafiltration treatment of natural organic matter, Chemosphere, 196 (2018) 418–428.
24. K. Zhang, Z.-h. Zhang, H. Wang, X.-m. Wang, X.-h. Zhang, Y.F. Xie, Synergistic effects of combining ozonation, ceramic membrane filtration and biologically active carbon filtration for wastewater reclamation, J. Hazard. Mater., 382 (2020) 121091–121100.
25. M. Sadrnourmohamadi, B. Gorczyca, Effects of ozone as a stand-alone and coagulation-aid treatment on the reduction of trihalomethanes precursors from water with high DOC and low calcium hardness, Desal. Water Treat., 78 (2017) 117–126.
26. B. Liu, L. Gu, Q.F. Li, G.Z. Yu, C.M. Zhao, H.M. Zhai, Effect of pre-ozonation-enhanced coagulation on dissolved organic nitrogen in municipal wastewater treatment plant effluent, Environ. Technol., 40 (2019) 2684–2694.
27. M. Ma, M. Wang, X.K. Cao, Y.X. Li, J.N. Gu, Yield of trihalomethane, haloacetic acid and chloral upon chlorinating algae after coagulation-filtration: is pre-oxidation necessarily negative for disinfection by-product control?, J. Hazard. Mater., 364 (2019) 762–769.
28. W.L. Zhang, R. Fu, L. Wang, J.W. Zhu, J.T. Feng, W. Yan, Rapid removal of ammonia nitrogen in low-concentration from wastewater by amorphous sodium titanate nano-particles, Sci. Total Environ., 668 (2019) 815–824.
29. S.M.A. Masoudi, A.H. Moghaddam, J. Sargolzaei, A. Darroudi, V. Zeynali, Investigation and optimization of the SND–SBR system for organic matter and ammonium nitrogen removal using the central composite design, Environ. Prog. Sustainable Energy, 37 (2018) 1638–1646.
30. D. Stefán, N. Erdélyi, B. Izsák, G. Zaráy, M. Vargha, Formation of chlorination by-products in drinking water treatment plants using breakpoint chlorination, Microchem. J., 149 (2019) 104008–104015.
31. A. Matilainen, M. Sillanpää, Removal of natural organic matter from drinking water by advanced oxidation processes, Chemosphere, 80 (2010) 351–365.
32. N. Beauchamp, C. Bouchard, C. Dorea, M. Rodriguez, Ultraviolet absorbance monitoring for removal of DBP-precursor in waters with variable quality: enhanced coagulation revisited, Sci. Total Environ., 717 (2020) 137225–137235.
33. M. Li, Z.Q. Chen, Z.Z. Wang, Q.X. Wen, Investigation on degradation behavior of dissolved effluent organic matter, organic micro-pollutants and bio-toxicity reduction from secondary effluent treated by ozonation, Chemosphere, 217 (2019) 223–231.
34. M. Diana, M. Felipe-Sotelo, T. Bond, Disinfection by-products potentially responsible for the association between chlorinated drinking water and bladder cancer: a review, Water Res., 162 (2019) 492–504.
35. S.K. Golfinopoulos, A.D. Nikolaou, The screening of disinfection by-products in large and small water systems in Greece, Desal. Water Treat., 58 (2017) 80–85.
36. M.U. Akcay, Z.Y. Avdan, H. Inan, Effect of biofiltration process on the control of THMs and HAAs in drinking water, Desal. Water Treat., 57 (2016) 2546–2554.
37. A. Abdel-Karim, T. Gad-Allah, M.I. Badawy, A.S.G. Khalil, Removal of humic acid and chloroform from drinking water by using commercial nanofiltration and reverse osmosis membranes, Desal. Water Treat., 59 (2017) 48–54.
38. J.-C. Lou, H.-Y. Chan, J.-Y. Han, C.-Y. Yang, High removal of haloacetic acids from treated drinking water using bio-activated carbon method, Desal. Water Treat., 57 (2016) 25627–25638.