T. 15 S. 06 (2025): Tạp chí Vật liệu & xây dựng
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Tạp chí Vật liệu và Xây dựng - Bộ Xây dựng

ISSN:

Website: www.jomc.vn

Vi nhựa trong nước uống: Hiện trạng và giải pháp

Phạm Văn Tới , Phạm Văn Định , Đỗ Văn Mạnh , Lê Xuân Thanh Thảo , Nguyễn Thị Thu Trang , Lê Thị Thanh An , Vũ Thị Thanh Huyền

Từ khóa:

Vi nhựa
Nước uống
Xử lý nước uống
Đông tụ
Màng

Tóm tắt

Vi nhựa đã được phát hiện trong các đại dương, biển và các vùng nước ngọt trên toàn thế giới trong những năm gần đây; tuy nhiên, có rất ít nghiên cứu về nồng độ của vi nhựa trong nước uống hàng ngày và các công nghệ loại bỏ chúng để bảo vệ sức khỏe con người. Các quá trình xử lý nước trong nhà máy xử lý nước uống như lắng, đông tụ, lọc màng, ... góp phần làm giảm thiểu nồng độ vi nhựa trong nước uống nhưng vẫn còn nhiều thách thức đối với hiệu suất của các quy trình xử lý vi nhựa này. Vì vậy, bài báo này tổng hợp những thông tin hiện có về vi nhựa trong các nguồn nước uống, đồng thời đưa ra một số giải pháp xử lý vi nhựa được áp dụng trên thế giới và các thách thức khi áp dụng các công nghệ này nhằm nâng cao hiệu quả của quá trình xử lý.

Điều hướng Người dùng

Cách trích dẫn

Phạm Văn Tới, Định, P. V., Mạnh, Đỗ V. ., Thảo, L. X. T., Trang, N. T. T., An, L. T. T., & Huyền, V. T. T. (2025). Vi nhựa trong nước uống: Hiện trạng và giải pháp. Tạp Chí Vật liệu Và Xây dựng - Bộ Xây dựng, 15(06). https://doi.org/10.54772/jomc.06.2025.1126

Tài liệu tham khảo

  1. D. Eerkes-Medrano, R.C. Thompson, D.C. Aldridge, Microplastics in freshwater systems: A review of the emerging threats, identification of knowledge gaps and prioritisation of research needs, Water Research, 75 (2015) 63-82.
  2. A.A. Koelmans, E. Besseling, W.J. Shim, Nanoplastics in the Aquatic Environment. Critical Review, in Marine Anthropogenic Litter, M. Bergmann, L. Gutow, and M. Klages, Editors. 2015, Springer International Publishing: Cham. p. 325-340.
  3. K. Novotna, L. Cermakova, L. Pivokonska, T. Cajthaml, M. Pivokonsky, Microplastics in drinking water treatment – Current knowledge and research needs, Science of The Total Environment, 667 (2019) 730-740.
  4. J.N. Hahladakis, C.A. Velis, R. Weber, E. Iacovidou, P. Purnell, An overview of chemical additives present in plastics: Migration, release, fate and environmental impact during their use, disposal and recycling, Journal of Hazardous Materials, 344 (2018) 179-199.
  5. H.S. Auta, C.U. Emenike, S.H. Fauziah, Distribution and importance of microplastics in the marine environment: A review of the sources, fate, effects, and potential solutions, Environment International, 102 (2017) 165-176.
  6. M. Cole, P. Lindeque, C. Halsband, T.S. Galloway, Microplastics as contaminants in the marine environment: A review, Marine Pollution Bulletin, 62 (2011) 2588-2597.
  7. S.M. Mintenig, M.G.J. Löder, S. Primpke, G. Gerdts, Low numbers of microplastics detected in drinking water from ground water sources, Science of The Total Environment, 648 (2019) 631-635.
  8. M. Pivokonsky, L. Cermakova, K. Novotna, P. Peer, T. Cajthaml, V. Janda, Occurrence of microplastics in raw and treated drinking water, Science of The Total Environment, 643 (2018) 1644-1651.
  9. M. Shen, B. Song, Y. Zhu, G. Zeng, Y. Zhang, Y. Yang, X. Wen, M. Chen, H. Yi, Removal of microplastics via drinking water treatment: Current knowledge and future directions, Chemosphere, 251 (2020) 126612.
  10. R. Triebskorn, T. Braunbeck, T. Grummt, L. Hanslik, S. Huppertsberg, M. Jekel, T.P. Knepper, S. Krais, Y.K. Müller, M. Pittroff, A.S. Ruhl, H. Schmieg, C. Schür, C. Strobel, M. Wagner, N. Zumbülte, H.-R. Köhler, Relevance of nano- and microplastics for freshwater ecosystems: A critical review, TrAC Trends in Analytical Chemistry, 110 (2019) 375-392.
  11. D.S. Green, L. Kregting, B. Boots, D.J. Blockley, P. Brickle, M. da Costa, Q. Crowley, A comparison of sampling methods for seawater microplastics and a first report of the microplastic litter in coastal waters of Ascension and Falkland Islands, Marine Pollution Bulletin, 137 (2018) 695-701.
  12. C.L. Waller, H.J. Griffiths, C.M. Waluda, S.E. Thorpe, I. Loaiza, B. Moreno, C.O. Pacherres, K.A. Hughes, Microplastics in the Antarctic marine system: An emerging area of research, Science of The Total Environment, 598 (2017) 220-227.
  13. G.F. Schirinzi, I. Pérez-Pomeda, J. Sanchís, C. Rossini, M. Farré, D. Barceló, Cytotoxic effects of commonly used nanomaterials and microplastics on cerebral and epithelial human cells, Environmental Research, 159 (2017) 579-587.
  14. M. Revel, A. Châtel, C. Mouneyrac, Micro(nano)plastics: A threat to human health?, Current Opinion in Environmental Science & Health, 1 (2018) 17-23.
  15. N.-D.-T. Cao, D.-H.T. Vo, M.-D.-T. Pham, V.-T. Nguyen, T.-B. Nguyen, L.-T. Le, H. Mukhtar, H.-V. Nguyen, C. Visvanathan, X.-T. Bui, Microplastics contamination in water supply system and treatment processes, Science of The Total Environment, 926 (2024) 171793.
  16. J. Li, E. Shan, J. Zhao, J. Teng, Q. Wang, The factors influencing the vertical transport of microplastics in marine environment: A review, Science of The Total Environment, 870 (2023) 161893.
  17. P. Mazumder, S. Dash, M. Kumar, R. Silori, A. Tiwari, M. Khwairakpam, A.S. Kalamdhad, Association of microplastics with heavy metals and antibiotic resistance bacteria/genes in natural ecosystems - A perspective through science mapping approach, Groundwater for Sustainable Development, 22 (2023) 100962.
  18. A. Mukotaka, T. Kataoka, Y. Nihei, Rapid analytical method for characterization and quantification of microplastics in tap water using a Fourier-transform infrared microscope, Science of The Total Environment, 790 (2021) 148231.
  19. H. Tong, Q. Jiang, X. Hu, X. Zhong, Occurrence and identification of microplastics in tap water from China, Chemosphere, 252 (2020) 126493.
  20. I. Gambino, F. Bagordo, T. Grassi, A. Panico, A. De Donno Occurrence of Microplastics in Tap and Bottled Water: Current Knowledge. International Journal of Environmental Research and Public Health, 2022. 19, DOI: 10.3390/ijerph19095283.
  21. M. Shen, Z. Zeng, X. Wen, X. Ren, G. Zeng, Y. Zhang, R. Xiao, Presence of microplastics in drinking water from freshwater sources: the investigation in Changsha, China, Environmental Science and Pollution Research, 28 (2021) 42313-42324.
  22. S.A. Mason, D. Garneau, R. Sutton, Y. Chu, K. Ehmann, J. Barnes, P. Fink, D. Papazissimos, D.L. Rogers, Microplastic pollution is widely detected in US municipal wastewater treatment plant effluent, Environmental Pollution, 218 (2016) 1045-1054.
  23. B.E. Oßmann, G. Sarau, H. Holtmannspötter, M. Pischetsrieder, S.H. Christiansen, W. Dicke, Small-sized microplastics and pigmented particles in bottled mineral water, Water Research, 141 (2018) 307-316.
  24. D. Schymanski, C. Goldbeck, H.-U. Humpf, P. Fürst, Analysis of microplastics in water by micro-Raman spectroscopy: Release of plastic particles from different packaging into mineral water, Water Research, 129 (2018) 154-162.
  25. M. Kosuth, S.A. Mason, E.V. Wattenberg, Anthropogenic contamination of tap water, beer, and sea salt, PLOS ONE, 13 (2018) e0194970.
  26. B. Ma, W. Xue, Y. Ding, C. Hu, H. Liu, J. Qu, Removal characteristics of microplastics by Fe-based coagulants during drinking water treatment, Journal of Environmental Sciences, 78 (2019) 267-275.
  27. B. Ma, W. Xue, C. Hu, H. Liu, J. Qu, L. Li, Characteristics of microplastic removal via coagulation and ultrafiltration during drinking water treatment, Chemical Engineering Journal, 359 (2019) 159-167.
  28. M. Pivokonsky, P. Bubakova, L. Pivokonska, P. Hnatukova, The effect of global velocity gradient on the character and filterability of aggregates formed during the coagulation/flocculation process, Environmental Technology, 32 (2011) 1355-1366.
  29. M. Baresova, M. Pivokonsky, K. Novotna, J. Naceradska, T. Branyik, An application of cellular organic matter to coagulation of cyanobacterial cells (Merismopedia tenuissima), Water Research, 122 (2017) 70-77.
  30. M. Pivokonsky, J. Naceradska, I. Kopecka, M. Baresova, B. Jefferson, X. Li, R.K. Henderson, The impact of algogenic organic matter on water treatment plant operation and water quality: A review, Critical Reviews in Environmental Science and Technology, 46 (2016) 291-335.
  31. S. Garcia-Segura, M.M.S.G. Eiband, J.V. de Melo, C.A. Martínez-Huitle, Electrocoagulation and advanced electrocoagulation processes: A general review about the fundamentals, emerging applications and its association with other technologies, Journal of Electroanalytical Chemistry, 801 (2017) 267-299.
  32. B. Zeboudji, N. Drouiche, H. Lounici, N. Mameri, N. Ghaffour, The Influence of Parameters Affecting Boron Removal by Electrocoagulation Process, Separation Science and Technology, 48 (2013) 1280-1288.
  33. G.J. Millar, J. Lin, A. Arshad, S.J. Couperthwaite, Evaluation of electrocoagulation for the pre-treatment of coal seam water, Journal of Water Process Engineering, 4 (2014) 166-178.
  34. W. Perren, A. Wojtasik, Q. Cai, Removal of Microbeads from Wastewater Using Electrocoagulation, ACS Omega, 3 (2018) 3357-3364.
  35. Y. Yavuz, Ü.B. Ögütveren, Treatment of industrial estate wastewater by the application of electrocoagulation process using iron electrodes, Journal of Environmental Management, 207 (2018) 151-158.
  36. K.S. Hashim, A. Shaw, R. Al Khaddar, M.O. Pedrola, D. Phipps, Iron removal, energy consumption and operating cost of electrocoagulation of drinking water using a new flow column reactor, Journal of Environmental Management, 189 (2017) 98-108.
  37. A. Dalvand, M. Gholami, A. Joneidi, N.M. Mahmoodi, Dye Removal, Energy Consumption and Operating Cost of Electrocoagulation of Textile Wastewater as a Clean Process, CLEAN – Soil, Air, Water, 39 (2011) 665-672.
  38. R. Sridhar, V. Sivakumar, V. Prince Immanuel, J. Prakash Maran, Treatment of pulp and paper industry bleaching effluent by electrocoagulant process, Journal of Hazardous Materials, 186 (2011) 1495-1502.
  39. Y. Picó, D. Barceló, Analysis and Prevention of Microplastics Pollution in Water: Current Perspectives and Future Directions, ACS Omega, 4 (2019) 6709-6719.
  40. J. Grbic, B. Nguyen, E. Guo, J.B. You, D. Sinton, C.M. Rochman, Magnetic Extraction of Microplastics from Environmental Samples, Environmental Science & Technology Letters, 6 (2019) 68-72.
  41. H.B. Park, J. Kamcev, L.M. Robeson, M. Elimelech, B.D. Freeman, Maximizing the right stuff: The trade-off between membrane permeability and selectivity, Science, 356 (2017) eaab0530.
  42. M. Wu, W. Liu, Y. Liang, Probing size characteristics of disinfection by-products precursors during the bioavailability study of soluble microbial products using ultrafiltration fractionation, Ecotoxicology and Environmental Safety, 175 (2019) 1-7.
  43. J. Talvitie, A. Mikola, A. Koistinen, O. Setälä, Solutions to microplastic pollution – Removal of microplastics from wastewater effluent with advanced wastewater treatment technologies, Water Research, 123 (2017) 401-407.
  44. S. Ziajahromi, P.A. Neale, L. Rintoul, F.D.L. Leusch, Wastewater treatment plants as a pathway for microplastics: Development of a new approach to sample wastewater-based microplastics, Water Research, 112 (2017) 93-99.
  45. M. Enfrin, L.F. Dumée, J. Lee, Nano/microplastics in water and wastewater treatment processes – Origin, impact and potential solutions, Water Research, 161 (2019) 621-638.
  46. M. Stoller, On the effect of flocculation as pretreatment process and particle size distribution for membrane fouling reduction, Desalination, 240 (2009) 209-217.
  47. X. Chen, W. Ni, J. Wang, Q. Zhong, M. Han, T. Zhu, Exploration of Co-Fe alloy precipitation and electrochemical behavior hysteresis using Lanthanum and Cobalt co-substituted SrFeO3-δ SOFC anode, Electrochimica Acta, 277 (2018) 226-234.
  48. W. Guo, H.-H. Ngo, J. Li, A mini-review on membrane fouling, Bioresource Technology, 122 (2012) 27-34.
  49. D. Lin, C. Lai, X. Wang, Z. Wang, K. Kuang, Z. Wang, X. Du, L. Liu, Enhanced membrane fouling by microplastics during nanofiltration of secondary effluent considering secretion, interaction and deposition of extracellular polymeric substances, Science of The Total Environment, 906 (2024) 167110.
  50. A.A. Keller, A. Lazareva, Predicted Releases of Engineered Nanomaterials: From Global to Regional to Local, Environmental Science & Technology Letters, 1 (2014) 65-70.
  51. A. McCormick, T.J. Hoellein, S.A. Mason, J. Schluep, J.J. Kelly, Microplastic is an Abundant and Distinct Microbial Habitat in an Urban River, Environmental Science & Technology, 48 (2014) 11863-11871.
  52. N. Narkis, R. Armon, R. Offer, F. Orshansky, E. Friedland, Effect of suspended solids on wastewater disinfection efficiency by chlorine dioxide, Water Research, 29 (1995) 227-236.
  53. W. Ding, W. Jin, S. Cao, X. Zhou, C. Wang, Q. Jiang, H. Huang, R. Tu, S.-F. Han, Q. Wang, Ozone disinfection of chlorine-resistant bacteria in drinking water, Water Research, 160 (2019) 339-349.
  54. E. Carré, J. Pérot, V. Jauzein, M. Lopez-Ferber, Impact of suspended particles on UV disinfection of activated-sludge effluent with the aim of reclamation, Journal of Water Process Engineering, 22 (2018) 87-93.