Details

Title

Promising method of ion exchange separation of anions before reverse osmosis

Journal title

Archives of Environmental Protection

Yearbook

2021

Volume

vol. 47

Issue

No 4

Authors

Affiliation

Trus, Inna : National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine ; Gomelya, Mukola : National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine ; Vorobyova, Viktoria : National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine ; Skіba, Margarita : Ukrainian State Chemical-Engineering University, Dnipro, Ukraine

Keywords

ion exchange ; nitrates ; sulfates ; highly mineralized waters ; low-waste desalination technology

Divisions of PAS

Nauki Techniczne

Coverage

93-97

Publisher

Polish Academy of Sciences

Bibliography

  1. Berbar, Y., Amara, M. & Kerdjoudj, H. (2008). Anion exchange resin applied to a separation between nitrate and chloride ions in the presence of aqueous soluble polyelectrolyte, Desalination, 223, 238–242.
  2. Berger, E., Fro¨r, O. & Schäfer, R.B. (2019). Salinity impacts on river ecosystem processes: a critical mini-review, Phil. Trans. R. Soc. B, 374, 20180010. DOI:10.1098/rstb.2018.0010.
  3. Bodzek, M. (2019). Membrane separation techniques – removal of inorganic and organic admixtures and impurities from water environment – review, Archives of Environmental Protection, 45 , 4, pp. 4–19. DOI:10.24425 / aep.2019.130237.
  4. Bodzek, M., Konieczny, K. & Rajca, M. (2019). Membranes in water and wastewater disinfection – review, Archives of Environmental Protection, 45, pp. 3–18. DOI:10.24425/aep.2019.126419.
  5. Boyacioglu, H. (2014). Spatial dıfferentiation of water quality between reservoirs under anthropogenic and natural factors based on statistical approach, Archives of Environmental Protection, 40/1, pp. 41–50. DOI:10.2478 / aep-2014-0002.
  6. Chen, Q.-B., Ren, H., Tian, Z., Sun, L. & Wang, J. (2019). Conversion and pre-concentration of SWRO reject brine into high solubility liquid salts (HSLS) by using electrodialysis metathesis, Separation and Purification Technology, 213, pp. 587-598. DOI:10.1016/j.seppur.2018.12.018.
  7. Dharminder, Ram Kumar Singh, Vishal Kumar, Anoop Kumar Devedee, Mruthyunjaya, M. & Reshu Bhardwaj (2019). The clean water: The basic need of human and agriculture, International Journal of Chemical Studies, 7, 2, pp. 1994-1998.
  8. Hilary A. Dugan, H.A., Bartlett, S.L., Burke, S.M., Doubek, J.P. & Krivak, F.E. (2017). Salting our freshwater lakes, Proc. Natl Acad. Sci. USA, 114, 17, pp. 4453-4458. DOI:10.1073/pnas.1620211114.
  9. Gomelya, M.D., Trus, I.M. & Shabliy, T.O. (2014). Application of aluminium coagulants for the removal of sulphate from mine water, Chemistry & Chemical Technology, 8, 2, pp. 197-203. http://science2016.lp.edu.ua/chcht/application-auminium-coagulants-removal-sulphate-mine-water.
  10. Griffith, M.B. (2017). Toxicological perspective on the osmoregulation and ionoregulation physiology of major ions by freshwater animals: teleost fish, crustacea, aquatic insects, and Mollusca, Environ. Toxicol. Chem., 36, pp. 576-600. DOI:10.1002/etc.3676.
  11. Grodzka-Łukaszewska, M., Pawlak, Z. & Sinicyn, G. (2021). Spatial distribution of the water exchange through river cross-section – measurements and the numerical model, Archives of Environmental Protection, 47, 1, pp. 69–79. DOI:10.24425/aep.2021.136450.
  12. Halysh, V., Trus, I., Nikolaichuk, A., Skiba, M., Radovenchyk, I., Deykun, I., Vorobyova, V., Vasylenko, I. & Sirenko, L. (2020). Spent Biosorbents as Additives in Cement Production, Journal of Ecological Engineering, 21, 2, pp. 131–138. DOI:10.12911/22998993/116328.
  13. Hardikar, M., Marquez, I. & Achilli, A. (2020). Emerging investigator series: membrane distillation and high salinity: analysis and implications, Environmental Science: Water Research & Technology, 6, 6, pp. 1538-1552. DOI:10.1039/C9EW01055F.
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  15. Lu, H., Wang, L., Wycisk, R., Pintauro, P.N. & Lin, S. (2020). Quantifying the kinetics-energetics performance tradeoff in bipolar membrane electrodialysis, Journal of Membrane Science, 612, 118279. DOI:10.1016/j.memsci.2020.118279.
  16. Luo, T., Abdu, S. & Wessling, M. (2018). Selectivity of ion exchange membranes: A review, Journal of Membrane Science, 555, pp. 429-454. DOI:10.1016/j.memsci.2018.03.051.
  17. Mester, T., Szabó, G., Bessenyei, É., Karancsi, G., Barkóczi, N. & Balla, D. (2017). The effects of uninsulated sewage tanks on groundwater. A case study in an eastern Hungarian settlement, J. Water Land Dev., 33, pp.123-129. DOI:10.1515/jwld-2017-0027.
  18. Mirzavand, M., Ghasemieh, H., Sadatinejad, S.J. & Bagheri, R. (2020). An overview on source, mechanism and investigation approaches in groundwater salinization studies, Int. J. Environ. Sci. Technol., 17, pp. 2463–2476. DOI:10.1007/s13762-020-02647-7.
  19. Mubita, T., Porada, S., Aerts, P. & van der Wal, A. (2020). Heterogeneous anion exchange membranes with nitrate selectivity and low electrical resistance, Journal of Membrane Science, 607, 118000.
  20. Panagopoulos, A. (2020). A comparative study on minimum and actual energy consumption for the treatment of desalination brine, Energy, 212, 118733. DOI:10.1016/j.energy.2020.118733.
  21. Radovenchyk, I., Trus, I., Halysh, V., Krysenko, T.,Chuprinov, E. & Ivanchenko, A. (2021). Evaluation of Optimal Conditions for the Application of Capillary Materials for the Purpose of Water Deironing, Ecol. Eng. Environ. Technol., 2, pp. 1–7. DOI:10.12912/27197050/133256.
  22. Rajca, M. (2012). The impact of selected factors on the removal of anionic water pollutants in ion-exchange process of MIEX®DOC, Archives of Environmental Protection, 38, pp. 115–121. DOI:10.2478/v10265-012-0010-z.
  23. Schuler, M.S., Cañedo-Argüelles, M., Hintz, W.D., Dyack, B., Birk, S. & Relyea, R.A. (2018). Regulations are needed to protect freshwater ecosystems from salinization, Philos Trans R Soc Lond B Biol Sci, 374, 1764, 20180019. DOI:10.1098/rstb.2018.0019.
  24. Trokhymenko, G., Magas, N., Gomelya, N., Trus, I. & Koliehova, A. (2020). Study of the Process of Electro Evolution of Copper Ions from Waste Regeneration Solutions, Journal of Ecological Engineering, 21, 2, pp. 29–38. DOI:10.12911/22998993/116351
  25. Trus, I. & Gomelya, M. (2021). Effectiveness nanofiltration during water purification from heavy metal ions, Journal of Chemical Technology and Metallurgy, 56, 3, pp. 615–620, https://dl.uctm.edu/journal/node/j2021-3/21_20-03p615-620.pdf.
  26. Trus, I., Radovenchyk, I., Halysh, V., Skiba, M., Vasylenko, I., Vorobyova, V., Hlushko, O. & Sirenko, L. (2019). Innovative Approach in Creation of Integrated Technology of Desalination of Mineralized Water, Journal of Ecological Engineering, 20, 8, pp. 107–113. DOI:10.12911/22998993/110767.
  27. Trus, I.M., Gomelya, M.D., Makarenko, I.M., Khomenlo, A.S. & Trokhymenko, G.G. (2020). The Study of the particular aspects of water purification from heavy metal ions using the method of nanofiltration, Naukovyi Visnyk Natsionalnogo Hirnychogo Universytety, 4, pp.117–123. DOI:10.33271/nvngu/2020-4/117
  28. Vörösmarty, C.J., McIntyre, P.B., Gessner, M.O., Dudgeon, D., Prusevich, A., Green, P., Glidden, S., Bunn, Sullivan, C.A.,LiermannC.R. & Davies, P.M.. (2010). Global threats to human water security and river biodiversity, Nature, 467, pp. 555-561. DOI:10.1038/nature09440.
  29. Wiśniowska, E. & Włodarczyk-Makuła, M. (2020). Removal of nitrates and organic compounds from aqueous solutions by zero valent (ZVI) iron reduction coupled with coagulation/precipitation process, Archives of Environmental Protection, 46, 3, pp. 22–29. DOI:10.24425 / aep.2020.134532.

Date

2021.12.02

Type

Article

Identifier

DOI: 10.24425/aep.2021.139505

Abstracting & Indexing

Abstracting & Indexing


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