1. Ahmed, A.E., Majewska-Nowak, K. & Grzegorzek, M. (2021). Removal of reactive dyes from aqueous solutions using ultrafiltration membranes, Environment Protection Engineering 47, 3, pp. 109-120. DOI:10.37190/epe210309.
2. Alhussaini, M.A., Binger, Z., M. Souza-Chaves, B. M., Amusat, O.O., Park, J., Bartholomew, T.V., Gunter, D. & Achilli, A. (2023). Analysis of backwash settings to maximize net water production in an engineering-scale ultrafiltration system for water reuse, Journal of Water Process Engineering 53, 103761. DOI:10.1016/j.jwpe.2023.103761.
3. Chen, M., Shen, S., Zhang, F., Zhang, C. & Xiong, J. (2022). Biodegradable dissolved organic carbon (BDOC) removal from micro-polluted water source using ultrafiltration: comparison with conventional processes, operation conditions and membrane fouling control, Polymers. 14, 21, 4689. DOI:10.3390/polym14214689.
4. Clostridium perfringens- An overview. https://microbenotes.com/clostridium-perfringens/ Accessed January 19, 2024.
5. Collivignarelli, M.C., Abbà, A., Benigna, I., Sorlini, S. & Torretta, V. (2017) Overview of the main disinfection processes for wastewater and drinking water treatment plants. Sustainability, 10, 86.
6. Cordier, C., Stavrakakis, C., Morga, B., Degrémont, L., Voulgaris, A., Bacchi, A., Sauvade, P., Coelho, F. & Moulin, P. (2020). Removal of pathogens by ultrafiltration from sea water, Environment international, 142, 105809. DOI:10.1016/j.envint.2020.105809.
7. Ćurko, J., Mijatović, I., Rumora, D., Crnek, V., Matošić, M. & Nežić, M. (2013). Treatment of spent filter backwash water from drinking water treatment with immersed ultrafiltration membranes, Desalination and Water Treatment, 51, 25-27, pp. 4901-4906. DOI:10.1080/19443994.2013.774142.
8. de Souza, F.H., Pizzolatti, B.S. & Sens, M.L. (2021). Backwash as a simple operational alternative for small-scale slow sand filters: From conception to the current state of the art, Journal of Water Process Engineering 40, 101864. DOI:10.1016/j.jwpe.2020.101864.
9. Ebrahimi, M.M., Amin, H., Pourzamani, Y., Hajizadeh, A.H., Mahvi, M.M. & Rad, M.H.R. (2017). Hybrid coagulation-UF processes for spent filter backwash water treatment: a comparison studies for PAFCl and FeCl 3 as a pre-treatment, Environmental monitoring and assessment, 189, pp. 1-15.DOI:10.1007/s10661-017-6091-3. [Online]. Available: link.springer.com/article/10.1007/s10661-017-6091-3. Accessed 26 March 2024
10. EPA United States Environmental Protection Agency. Drinking Water Treatment Plant Residuals Management Technical Report, Summary of Residuals Generation, Treatment, and Disposal at Large Community Water Systems. 2011.
11. Gottfried, A., Shepard, A.D., Hardiman, K. & Walsh, M.E. (2008). Impact of recycling filter backwash water on organic removal in coagulation–sedimentation processes, Water Research, 42, 18, pp. 4683–4691. DOI:10.1016/j.watres.2008.08.011.
12. Guidelines for drinking-water quality. 4th edition. 2017. Accessed January 19, 2024. https://www.who.int/publications/i/item/9789241549950.
13. Guidelines to support the application of Regulation 2020/741 on minimum requirements for water reuse (including Annexes). (2022/C 298/01). 2020. Accessed January 19, 2024. https://environment.ec.europa.eu/publications/minimum-requirements-water-reuse-guidelines_en.
14. Howe, K.J. & Clark, K. (2002). Fouling of microfiltration and ultrafiltration membranes by natural waters, Environ. Sci. Technol. 36, 16, pp. 3571-3576. DOI:10.1021/es025587r
15. Li, W., Liang, X., Duan, J., Beechamb, S. & Mulcahy, D. (2018). Influence of spent filter backwash water recycling on pesticide removal in a conventional drinking water treatment process, Environmental Science Water Research & Technology, 4, pp. 1057-1067. DOI:10.1039/C7EW00530J.
16. Lin, T., Zhang, J. & Chen, W. (2017). Recycling of activated carbon filter backwash water using ultrafiltration: membrane fouling caused by different dominant interfacial forces, Journal of Membrane Science, 544, pp. 174-185. DOI:10.1016/j.memsci.2017.09.028.
17. Liu, P.Y., Chin, L.K., Ser, W., Ayi, T.C., Yap, P.H., Bourouina, T. & Leprince-Wang, Y. (2014). Real-time measurement of single bacterium’s refractive index using optofluidic immersion refractometry, Procedia Engineering, 87, pp. 356-359. DOI:10.1016/j.proeng.2014.11.743.
18. Mahdavi, M., Ebrahimi, A., Azarpira, H., Tashauoei, H.R. & Mahvi, A.H. (2017). Dataset on the spent filter backwash water treatment by sedimentation, coagulation and ultrafiltration, Data in Brief, 15, pp. 916-921. DOI:10.1016/j.dib.2017.10.062.
19. Mahmud, M., Elma, M., Rampun, E.L.A., Rahma, A., Pratiwi, A.E., Abdi, C. & Rossadi, R. (2020). Effect of two stages adsorption as pre-treatment of natural organic matter removal in ultrafiltration process for peat water treatment, Materials Science Forum, 988, pp. 114–121. DOI:10.4028/www.scientific.net/msf.988.114.
20. Masotti, L. (2011). Depurazione Della Acque—Tecniche ed Impianti per il Trattamento Delle Acque di Rifiuto; Ed. Calderini: Milano, Italy.
21. Mazuki Mohamad, N.I., Teow, Y.H., Ho, K.C. & Mohammad, A.W. (2020). Techno-economic analysis of single disinfection units and integrated disinfection systems for sewage effluent reclamation, J. Water Proc. Eng. 36, 101398. DOI:10.1016/j.jwpe.2020.101398.
22. Microbentos. https://microbenotes.com/clostridium-perfringens/ Accessed 20.12.2023.
23. Peters, C.D., Rantissi, T., Gitis, V. & Hankins, N.P. (2021). Retention of natural organic matter by ultrafiltration and the mitigation of membrane fouling through pre-treatment, membrane enhancement, and cleaning -A review, Journal of Water Process Engineering, 44, 102374. DOI:10.1016/j.jwpe.2021.102374.
24. Qian, Y., Shi, Y., Guo, J., Chen, Y., Hanigan, D. & Dong, A.(2023) Molecular characterization of disinfection byproduct precursors in filter backwash water from 10 drinking water treatment plants. Science of The Total Environment, 856, 159027. DOI:10.1016/j.scitotenv.2022.159027
25. Radzymińska-Lenarcik, E., Urbaniak, W. & Totczyk, G. (2019). Sludge management after water treatment processes, Water Supply and Water Quality: pp. 995-1004. (in Polish). https://www.researchgate.net/publication/331967930_ZAGOSPODAROWANIE_OSADOW_POKOAGULACYJNYCH_POWSTALYCH_W_PROCESIE_UZDA_TNIANIA_WODY. Accessed January 19, 2024.
26. Reissmann, F. G. & Uhl, W. (2006). Ultrafiltration for the reuse of spent filter backwash water from drinking water treatment, Desalination 198, 1–3, pp. 225-235. DOI:10.1016/j.desal.2006.03.517
27. Shafiquzzaman, M., AlSaleem, S.S., Haider, H., Alresheedi, M.T. & Thabit H. (2021). Experimental study for sand filter backwash water management: low-cost treatment for recycling and residual sludge utilization for radium removal, Water, 13, 2799. DOI:10.3390/w13202799.
28. Sosnowski, T., Suchecka, T. & Piątkiewicz, W. (2004). Penetration of the cell through the microfitration membrane, in Environmental Engineering Committee Monographs. [ed.] Polish Academy of Sciences. Environmental Engineering Committee. 22: pp. 359-367.
29. Subasi, Y. & Cicek, C. (2017). Recent advances in hydrophilic modification of PVDF ultrafiltration membranes – a review: part I, Membrane Technology 10, pp. 7-12. DOI:10.1016/S0958-2118(17)30191-X.
30. Sun, Y., Wu, M., Tong, T., Liu, P., Tang, P., Gan, Z., Yang, P., He, H. & Liu B. (2021). Organic compounds in Weiyuan shale gas produced water: identification, detection and rejection by ultrafiltration-reverse osmosis processes, Chemical Engineering Journal, 412, 128699. DOI:10.1016/j.cej.2021.128699.
31. Turan, M. (2023). Backwashing of granular media filters and membranes for water treatment: a review, AQUA-Water Infrastructure, Ecosystems and Society, 72, 3, pp. 274-298. DOI:10.2166/aqua.2023.207.
32. Wang, D., Zhou, J., Lin, H., Chen, J., Qi, J., Bai, Y. & Qu, J. (2023). Impacts of backwashing on micropollutant removal and associated microbial assembly processes in sand filters, Frontiers of Environmental Science & Engineering, 17, 3, 34. DOI:10.1007/s11783-023-1634-z.
33. Wolska, M. & Urbańska-Kozłowska, H. (2023). Assessing the Possibilities of Backwash Water Reuse Filters in the Water Treatment System—Case Analysis, Water, 15, 13, 2452. DOI:10.3390/w15132452.
34. Zhou, Z., Yang, Y., Li, X., Su, Z., Liu, Y., Ren, Y. & Zhang, Y. (2015) Effect of recycling filter backwash water on characteristic variability of dissolved organic matter in coagulation sedimentation process, Desalination and Water Treatment, 53, pp. 48-56, DOI:10.1080/19443994.2013.836994.
35. Zielina, M. & Dąbrowski, W. (2021). Energy and water savings during backwashing of rapid filter plants, Energies, 14, 13, 3782. DOI:10.3390/en14133782.

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