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Low waste technology for the removal of nitrates from water

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
As a rule, nitrates are present in all natural water bodies. Their increased concentrations are connected with the discharge of insufficiently treated wastewater from industrial and communal enterprises, agricultural and livestock complexes. Recent scientific publications concerning treatment methods for nitrates removal from natural water and wastewater were analyzed in order to create effective and low-waste technology for obtaining high quality water. It has been established that the ion exchange method is quite effective for removing nitrates from water. In the paper, the processes of ion exchange removal of nitrates from water on low-axis anionite in DOWEX Marathon WBA in Сl- form were investigated. During the sorption of nitrates with a concentration of 186, 205, 223 and 2200 mg/dm3, it was established that the full exchangeable dynamic capacity was 1.075, 1.103, and 1.195, 1.698 g-eq/dm3, respectively. To regenerate anionite, solutions of ammonia as well as potassium chloride, ammonium chloride and potassium carbonate were used in this work. The choice of potassium and ammonium compounds is due to the prospect of further use of regeneration solutions for the production of liquid fertilizers.
Rocznik
Strony
74--78
Opis fizyczny
Bibliogr. 19 poz.
Twórcy
autor
  • National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine
  •  National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine
autor
  •  National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine
  •  National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine
  • National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine
  • National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine
  • State University of Economics and Technology: Kryvyi Rih, UA
  •  National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine
  • State University of Economics and Technology: Kryvyi Rih, UA
Bibliografia
  • 1. Alguacil-Duarte, F., González-Gómez, F. & Romero-Gámez, M. (2022). Biological nitrate removal from a drinking water supply with an aerobic granular sludge technology: An environmental and economic assessment. Journal of Cleaner Production, 367. DOI:10.1016/j.jclepro.2022.133059
  • 2. 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.
  • 3. Boubakri, A., Al-Tahar Bouguecha, S. & Hafiane, A. (2022). FO–MD integrated process for nitrate removal from contaminated groundwater using seawater as draw solution to supply clean water for rural communities. Separation and Purification Technology, 298. DOI:10.1016/j.seppur.2022.121621
  • 4. Gutiérrez, M., Biagioni, R.N., Alarcón-Herrera, M.T. & Rivas- Lucero, B.A. (2018). An overview of nitrate sources and operating processes in arid and semiarid aquifer systems. Science of the Total Environment, 624, pp. 1513–1522. DOI:10.1016/j. scitotenv.2017.12.252
  • 5. Hansen, B., Sonnenborg, T.O., Møller, I., Bernth, J.D., Høyer, A., Rasmussen, P., Sandersen P.B.E. & Jørgensen, F. (2016). Nitrate vulnerability assessment of aquifers. Environmental Earth Sciences, 75, 12. DOI:10.1007/s12665-016-5767-2
  • 6. Kaushal, S.S. (2016). Increased salinization decreases safe drinking water. Environ. Sci. Technol., 50, pp. 2765–2766. doi:10.1021/ acs.est.6b00679.
  • 7. Królak, E. & Raczuk, J. (2018). Nitrate concentration-related safety of drinking water from various sources intended for consumption by neonates and infants. Archives of Environmental Protection, 44, 1, pp. 3–9. DOI:10.24425/118176
  • 8. National report on drinking water quality and drinking water supply in Ukraine in 2021. Database ‘Ministry of Regional Development of Ukraine’ (in Ukrainian).
  • 9. Nujić, M., Milinković, D. & Habuda-Stanić, M. (2017). Nitrate removal from water by ion exchange. Croatian journal of food science and technology, 9, 2, pp. 182–186. DOI:10.17508/ CJFST.2017.9.2.15
  • 10. Preetham, V. & Vengala, J. (2023). Adsorption isotherm, kinetic and thermodynamic studies of nitrates and nitrites onto fish scales. In Recent Advances in Civil Engineering, pp. 429–442. doi:10.1007/978-981-19-1862-9_27
  • 11. Remeshevska, I., Trokhymenko, G., Gurets, N., Stepova, O., Trus, I. & Akhmedova, V. (2021). Study of the ways and methods of searching water leaks in water supply networks of the settlements of Ukraine. Ecological Engineering and Environmental Technology, 22, 4, pp. 14–21. DOI:10.12912/27197050/137874
  • 12. Song, Q., Zhang, S., Hou, X., Li, J., Yang, L., Liu, X. & Li, M. (2022). Efficient electrocatalytic nitrate reduction via boosting oxygen vacancies of TiO2 nanotube array by highly dispersed trace cu doping. Journal of Hazardous Materials, 438. DOI:10.1016/j. jhazmat.2022.129455
  • 13. Trus, I., Gomelya, M., Skiba, M., Pylypenko, T. & Krysenko, T. (2022). Development of Resource-Saving Technologies in the use of sedimentation inhibitors for reverse osmosis installations. J. Ecol. Eng., 23(1), pp. 206–215. DOI:10.12911/22998993/144075
  • 14. Trus, I. (2022). Optimal conditions of ion exchange separation of anions in low-waste technologies of water desalination. Journal of Chemical Technology and Metallurgy, 57, 3, pp. 550–558.
  • 15. Trusa, I. M., Gomelya, M. D. & Tverdokhlib, M. M. (2021). Evaluation of the contribution of ion exchange in the process of demanganization with modified cation exchange resin ku-2- 8. Journal of Chemistry and Technologies, 29, 4, pp. 540–548. DOI:10.15421/jchemtech.v29i4.242561
  • 16. Trus, I. & Gomelya, M. (2022). Low-waste technology of water purification from nitrates on highly basic anion exchange resin. Journal of Chemical Technology and Metallurgy, 57, 4, pp. 765–772. https://dl.uctm.edu/journal/node/j2022-4/14_21- 93_br4_2022_pp765-772.pdf
  • 17. Trusb, I., Gomelya, M., Skiba, M. & Vorobyova, V. (2021). Promising method of ion exchange separation of anions before reverse osmosis. Archives of Environmental Protection, 47, 4, pp. 93–97. DOI:10.24425/aep.2021.139505
  • 18. Trus, I., Gomelya, N., Halysh, V., Radovenchyk, I., Stepova, O. & Levytska, O. (2020). Technology of the comprehensive desalination of wastewater from mines. Eastern-European Journal of Enterprise Technologies, 3(6–105), pp. 21–27. DOI:10.15587/1729-4061.2020.206443 Vasilache, N., Cruceru, L., Petre, J., Chiriac, F. L., Paun, I., Niculescu, M., Pirvu F. & Lupu, G. (2018). The removal of nitrate from drinking water, natural water by ion exchange using ion exchange resin, purolite A520E and A500. Iternational Symposium “The Environment and the Industry”, SIMI 2018, Proceedings Book DOI:10.21698/simi.2018.fp53 Voutchkova, D.D., Schullehner, J., Rasmussen, P. & Hansen, B. (2021). A high-resolution nitrate vulnerability assessment of sandy aquifers (DRASTIC-N). Journal of Environmental Management, 277. DOI:10.1016/j.jenvman.2020.111330 Ward, M.H., Jones, R.R., Brender, J.D., de Kok, T.M., Weyer, P. J., Nolan, B. T., Vilanueva C.M. & van Breda, S.G. (2018). Drinking water nitrate and human health: An updated review. International Journal of Environmental Research and Public Health, 15, 7. DOI:10.3390/ijerph15071557 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.
  • 19. Zabłocki, S., Murat-Błażejewska, S., Trzeciak, J.A. & Błażejewski, R. (2022). High-resolution mapping to assess risk of groundwater pollution by nitrates from agricultural activities in Wielkopolska Province. Poland. Archives of Environmental Protection, 48, 1, pp. 41–57. DOI:10.24425/aep.2022.140544
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-00f97ebf-50c6-4a4e-860b-74d18af60407
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