Details
Title
Assessing the feasibility of using ultrafiltration to recirculate backwash water in a surface water treatment plantJournal title
Archives of Environmental ProtectionYearbook
2024Volume
50Issue
2Affiliation
Wolska, Małgorzata : Wroclaw University of Science and Technology, Poland ; Kabsch-Korbutowicz, Małgorzata : Wroclaw University of Science and Technology, Poland ; Solipiwko-Pieścik, Małgorzata : Wroclaw University of Science and Technology, Poland ; Urbanska-Kozłowska, Halina : MPWiK S.A we Wrocławiu, Poland ; Ferenc, Zbigniew : Wroclaw University of Science and Technology, PolandAuthors
Keywords
psychrophilic bacteria; ; water reclamation; ; backwashings;Divisions of PAS
Nauki TechniczneCoverage
3-13Spatial coverage
3-13Publisher
Polish Academy of SciencesBibliography
- 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.
- 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.
- 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.
- Clostridium perfringens- An overview. https://microbenotes.com/clostridium-perfringens/ Accessed January 19, 2024.
- 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.
- 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.
- 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.
- 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.
- 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
- 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.
- 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.
- Guidelines for drinking-water quality. 4th edition. 2017. Accessed January 19, 2024. https://www.who.int/publications/i/item/9789241549950.
- 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.
- 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
- 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.
- 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.
- 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.
- 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.
- 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.
- Masotti, L. (2011). Depurazione Della Acque—Tecniche ed Impianti per il Trattamento Delle Acque di Rifiuto; Ed. Calderini: Milano, Italy.
- 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.
- Microbentos. https://microbenotes.com/clostridium-perfringens/ Accessed 20.12.2023.
- 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.
- 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
- 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.
- 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
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- Zielina, M. & Dąbrowski, W. (2021). Energy and water savings during backwashing of rapid filter plants, Energies, 14, 13, 3782. DOI:10.3390/en14133782.
Date
8.05.2024Type
ArtykułIdentifier
DOI: 10.24425/aep.2024.150547DOI
10.24425/aep.2024.150547Pages
3-13Abstracting & Indexing
Abstracting & Indexing
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