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The article compares the use of sorption and sorption-coagulation methods for cleaning fresh and mineralized oil-containing waters. The sorbents used are thermally expanded graphite obtained by heat treatment of graphite bisulfate in a boiling layer, and activated carbon of BAU-A grade, which is widely used for purification of liquid media from oils and oil products. As an alternative to the sorption method, research was conducted on the application of the sorption-coagulation method with the simultaneous use of aluminum-containing coagulants: aluminum sulfate and aluminum hydroxochloride and activated carbon. It is shown that the advantages of using the sorption method using thermally expanded graphite are based on the high efficiency of oil extraction from water bodies and multiple regeneration of the spent sorbent.
Czasopismo
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Strony
127--134
Opis fizyczny
Bibliogr. 26 poz., rys.
Twórcy
autor
- Department of Ecology and Technology of Plant Polymers, Faculty of Chemical Engineering, Igor Sikorsky Kyiv Polytechnic Institute, Beresteiskyi Avenu 37/4, 03056 Kyiv, Ukraine
autor
- Department of Ecology and Technology of Plant Polymers, Faculty of Chemical Engineering, Igor Sikorsky Kyiv Polytechnic Institute, Beresteiskyi Avenu 37/4, 03056 Kyiv, Ukraine
autor
- Department of Ecology and Technology of Plant Polymers, Faculty of Chemical Engineering, Igor Sikorsky Kyiv Polytechnic Institute, Beresteiskyi Avenu 37/4, 03056 Kyiv, Ukraine
autor
- Department of Thermo-Chemical Processes and Nanotechnology, The Gas Institute of the National Academy of Sciences of Ukraine, Dehtiarivska Street 39, 03113, Kyiv, Ukraine
autor
- Department of Thermo-Chemical Processes and Nanotechnology, The Gas Institute of the National Academy of Sciences of Ukraine, Dehtiarivska Street 39, 03113, Kyiv, Ukraine
autor
- Department of Ecology and Technology of Plant Polymers, Faculty of Chemical Engineering, Igor Sikorsky Kyiv Polytechnic Institute, Beresteiskyi Avenu 37/4, 03056 Kyiv, Ukraine
Bibliografia
- 1. Bacherikova I.V., Grinenko S.B., Kuznetsova L.S., Zazhigalov V.O., Bacherikov O.V. 2021. Investigation of organic materials nature on petrol removal from water surface. Catalysis and petrochemistry, 31, 75–83. (in Ukrainian)
- 2. Degtyar M.V., Sydorova V.Y. Peculiarities of wastewater treatment from petroleum products. V International Scientific and Technical Conference “Water. Ecology. Society”. Kharkiv: O. M. Beketov NUUEKh, 2020. 104–106. (in Ukrainian)
- 3. Fingas M. 2017. Oil spill science and technology. Gulf professional publishing, Elsevier Inc, 1078.
- 4. Gomelya N. D., Kalabina L. V., Khokhotva A. P. 1999. Extraction-spectrophotometric method for determining the total content of oil products in water. Chemistry and technology of water, 21(6), 611–616. (іn Russian)
- 5. International convention for the prevention of pollution from ships, 1973 as modified by the Protocol of 1978, or «MARPOL 73/78».
- 6. Iqbala A., Zahra N. 2018. Coagulation efficiency comparison of natural and its blended coagulant with aluminium water treatment. Desalination and Water Treatment, 109, 188–192.
- 7. Ivanenko O.I., Nosachova Y.V., Ovsiankina V.O., Vember V.V. 2022. Technoecology. Kyiv: Publishing House “Condor”, 388.
- 8. Janna H. 2016. Effectiveness of using natural materials as a coagulant for reduction of water turbidity in water treatment. World Journal of Engineering and Technology, 4, 505–516.
- 9. Kazanok A.V., Matveeva O.L. 2014. Cleaning of oil-contaminated wastewater using biosorbents. Science- Based Technologies, 1(21), 131–134. (in Ukrainian)
- 10. Khokhotva O. 2018. Treatment of oil-containing water by oxidation onto composite carbon sorbent. Bulletin of the National Technical University «KhPI», 26(1302), 109–114. (in Ukrainian)
- 11. Maksimyuk M.R., Mickevich D.I., Mickevich A.I. 2014. Oil pollution of surface waters and ways to overcome its consequences. Scientific works. Man-made safety, 221(233), 37–40. (in Ukrainian)
- 12. Methodological recommendations for the development of standards for the maximum allowable discharge of pollutants into water bodies with return waters. Order of the Ministry of Environmental Protection and Natural Resources of Ukraine March 5, 2021, 173. (in Ukrainian)
- 13. Mysore D., Viraraghavan T., Jin Y.C. 2006. Oil/water separation technology-A review. Journal of Residuals Science and Technology, 3, 5–14.
- 14. Nutiu E. 2015. Waste water treatment using a new type of coagulant. Procedia Technology, 19, 479–482.
- 15. On the approval of Hygienic water quality standards of water bodies to meet drinking, household and other needs of the population. Order of the Ministry of Health of Ukraine February 5, 2022, 721. (in Ukrainian)
- 16. Pavlyukh L.I. 2013. Effectiveness of plant waste for cleaning oil-containing wastewater. Science-Based Technologies, 1(17), 108–111. (in Ukrainian)
- 17. Rules for receiving wastewater into centralized drainage systems. Order of the Ministry of Regional Development, Construction and Housing Services of Ukraine December 1, 2017, 316. (in Ukrainian)
- 18. Shaporev V.P., Shestopalov O.V., Mamedova O.O., Bakhareva G.Y., Kobylanskyi B.B., Pushkovata O.P. 2015. Biological methods of environmental protection from oil pollution: monograph. Kharkiv: NTU “KhPI”, 216. (in Ukrainian)
- 19. Sobgayda N. 2011. Sоrbtion materials for waste and natural waters clearing from oil products. Bulletin of Kharkiv National Automobile and Highway University, 52, 120–124. (in Russian)
- 20. Statistical publication “Environment of Ukraine 2020”. 2021. Kyiv: State Statistics Service of Ukraine, 189. (in Ukrainian)
- 21. Strativnov E.V. 2015. Design of Modern Reactors for Synthesis of Thermally Expanded Graphite. Nanoscale Research Letters, 10, 245.
- 22. Strativnov E., Kozhan A., Ivachkin Y., Pazeev A. 2018. Graphene Synthesis from Natural Flake Graphite. 8th International Conference on Nanomaterials: Applications & Properties. IEEE Catalog Number: CFP18F65-ART.
- 23. Tereshchenko M.D., Khimenko L.L., Yazev A.S., Isaev O.Y., Minchenko L.A., Ilyin A.N. 2022. Mobile sorbent generator used for oil spill response. PNRPU Aerospace Engineering Bulletin, 71, 182–190. (in Russian)
- 24. Vozniuk M., Shabliy T., Gomelya M., Sirenko L., Sidorov D. 2023. Electrochemical Purification of Oil-Containing Shipping Waters. Journal of Ecological Engineering, 24(7), 246–253.
- 25. Wells A.F. 1984. Structural Inorganic Chemistry. Clarendon Press, 1382.
- 26. Xinya C., Huifang B., Rengyu Y., Zhikun C., Chunjiang A. 2022. Effects of oil characteristics on the performance of shoreline response operations: A review. Frontiers in Environmental Science, 10.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-887562c4-15c3-4bbb-a7e6-812bb1c5c5df