References

  1. K. Moon-Kyung, Z. Kyung-Duk, Occurrence and removals of micropollutants in water environment, Environ. Eng. Res., 21 (2016) 319–332.
  2. I. Zimoch, J. Pacie, Spatial risk assessment of drinking water contamination by nitrates from agricultural areas in the Silesia province, Desal. Water Treat., 57 (2016) 1084–1097.
  3. X. Panqi, Z. Yameng, Z. Danyang, Ch. Meina, Y. Yuanyuan, X. Yanan, W. Xia, Mutagenicity, health risk, and disease burden of exposure to organic micropollutants in water from a drinking water treatment plant in the Yangtze River Delta, China, Ecotoxicol. Environ. Saf., 221 (2021) 112415, doi: 10.1016/j.ecoenv.2021.112421.
  4. Directive 2000/60/EC of the European Parliament and of the Council of 23 October 2000 establishing a Framework for Community Action in the Field of Water Policy, OJ L 327, 22.12.2000.
  5. Directive (EU) 2020/2184 of the European Parliament and of the Council of 16 December 2020 on the Quality of Water Intended for Human Consumption, OJ L 435, 23.12.2020.
  6. I. Piri, I. Homayoonnezhad, P. Amirian, Investigation on Optimization of Conventional Drinking Water Treatment Plant, 2010 2nd International Conference on Chemical, Biological and Environmental Engineering (ICBEE), IEEE, Cairo, Egypt, 2010, pp. 304–310.
  7. H.R. Rogers, Sources, behaviour and fate of organic contaminants during sewage treatment and in sewage sludges, Sci. Total Environ., 185 (1996) 3–26.
  8. P.E. Stackelberg, J. Gibs, E.T. Furlong, M.T. Meyer, S.D. Zaugg, R.L. Lippincott, Efficiency of conventional drinking water treatment processes in removal of pharmaceuticals and other organic compounds, Sci. Total Environ., 377 (2007) 255–272.
  9. J.W. Birkett, J.N. Lester, Endocrine Disrupters in Wastewater and Sludge Treatment Processes, Lewis Publishers and IWA Publishing, Londyn, 2002.
  10. M. Bourgin, B. Beck, M. Boehler, E. Borowska, J. Fleiner, E. Salhi, R. Teichler, U. von Grunten, H. Siegrist, C.S. McArdell, Evaluation of a full-scale wastewater treatment plant upgraded with ozonation and biological post-treatments: abatement of micropollutants, formation of transformation products and oxidation by-products, Water Res., 129 (2018) 486–498.
  11. Y. Luo, W. Guo, H.H. Ngo, L.D. Nghiem, F.I. Hai, J. Zhang, S. Liang, X.C. Wang, A review on the occurrence of micropollutants in the aquatic environment and their fate and removal during wastewater treatment, Sci. Total Environ., 473–474 (2014) 619–641.
  12. M.K. Shahid, A. Kashif, A. Fuwad, Y. Choi, Current advances in treatment technologies for removal of emerging contaminants from water – a critical review, Coord. Chem. Rev., 442 (2021) 213993, doi: 10.1016/j.ccr.2021.213993.
  13. D. Mroczko, I. Zimoch, Effectiveness of coagulation, sorption, and ion exchange processes in reduction of selected priority substances from surface waters, Desal. Water Treat., 199 (2020) 212–219.
  14. V.F. Rowsell, Estimating the Removal of Micropollutants and Emerging Contaminants from Sewage Treatment Processes in Preparation for the Implementation of the Water Framework Directive, Ph.D. Dissertation, Imperial College of Science, Londyn, 2009.
  15. N. García-Vaquero, E. Lee, R.J. Castaneda, J. Cho, J.A. Lopez- Ramirez, Comparison of drinking water pollutant removal using a nanofiltration pilot plant powered by renewable energy and a conventional treatment facility, Desalination, 347 (2014) 94–102.
  16. M. Petrovic, Analysis and removal of emerging contaminants in wastewater and drinking water, TrAC, Trends Anal. Chem., 22 (2003) 685–696.
  17. Directive 2013/39/EU of the European Parliament and of the Council of 12 August 2013 Amending Directives 2000/60/EC and 2008/105/EC as Regards Priority Substances in the Field of Water Policy Text with EEA Relevance, OJ L 226, 24.8.2013.
  18. J.K. Edzwald, J.E. Tobiason, Enhanced coagulation: US requirements and a broader view, Water Sci. Technol., 40 (1999) 63–70.
  19. C.-W. Li, Y.-S.Chen, Fouling of UF membrane by humic substance: effects of molecular weight and powder-activated carbon (PAC) pre-treatment, Desalination, 170 (2004) 59–67.
  20. M.L. Antonelli, N. Calace, D. Centrioli, B.M. Petronio, M. Pietroletti, Complexing capacity of different molecular weight fractions of sedimentary humic substances, Anal. Lett., 34 (2001) 989–1002.
  21. O. Ojajuni, D. Saroj, G. Cavalli, Removal of organic micropollutants using membrane-assisted processes: a review of recent progress, Environ. Technol. Rev., 4 (2015) 17–37.
  22. L. Zhang, S. Shen, Y. Zhang, X. Zhou, R. Bai, Modification of polyvinylidene fluoride membrane by blending with cationic polyionic liquid, Desal. Water Treat., 189 (2020) 119–125.
  23. D. Mroczko, I. Zimoch, Ozone assisted photolysis process in reduction of selected micropollutants from nanofiltration retentate, Desal. Water Treat., 244 (2021) 194–200.
  24. A.D. Shah, C.-H. Huang, J.-H. Kim, Mechanisms of antibiotic removal by nanofiltration membranes: model development and application, J. Membr. Sci., 389 (2012) 234–244.
  25. D.C.C. Yao, W.R. Haag, Rate constants for direct reactions of ozone with several drinking water contaminants, Water Res., 25 (1991) 761–773.
  26. M. Maldonado, S. Malato, L.A. Perez-Estrada, W. Gernjak, I. Oller, X. Domenech, J. Peral, Partial degradation of five pesticides and an industrial pollutant by ozonation in a pilotplant scale reactor, J. Hazard. Mater., 138 (2006) 363–369.
  27. C. Turchi, Photocatalytic degradation of organic water contaminants: mechanisms involving hydroxyl radical attack, J. Catal., 122 (1990) 178–192.
  28. P. Vanraes, N. Wardenier, P. Surmont, F. Lynen, A. Nikiforov, W.W.H. van Hulle, C. Leys, A. Bogaerts, Removal of alachlor, diuron and isoproturon in water in a falling film dielectric barrier discharge (DBD) reactor combined with adsorption on activated carbon textile: reaction mechanisms and oxidation by-products, J. Hazard. Mater., 354 (2018) 180–190.