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The article examines the ability of natural clays to extract heavy metal ions from aqueous solutions by ion exchange. The process of extracting metal ions was considered on the example of the absorption of manganese, nickel and cobalt from natural waters. In order to study the chemical and mineralogical composition of natural kaolin, the following were used in the work: X-ray diffraction and X-ray phase methods, as well as IR spectroscopy. The article presents a comparative analysis of the adsorption of manganese, cobalt and nickel ions on natural kaolin under different temperature conditions. The nature of the interaction of the studied metal ions with kaolin was established. The results obtained on the adsorption of the ions under study show the efficiency of using natural kaolin clay for water purification.
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87--91
Opis fizyczny
Bibliogr. 15 poz., rys., tab.
Twórcy
autor
- Department of General and Special Chemistry, Tyumen Industrial University, Lunacharskogo St., Tyumen, 625001, Russian Federation
autor
- Department of Industrial Safety, Tyumen Industrial University, Lunacharskogo St., Tyumen, 625001, Russian Federation
Bibliografia
- 1. Kim O.K., Volkova L.D., Zakarina N.A. 2011. Аluminum and iron-Pillared layered aluminosilicates in the processes of purification of aqueous solutions from chromium (III). Bashkir Chemical Journal, 18(3), 62-65.
- 2. Belenova S.V., Vigdorovich V.I., Shel N.V., Tsygankova L. E.2015. Sorption capacity of natural sorbents. Bulletin of Russian universities, Chemistry, 20(2).
- 3. Belenova S.V., Vigdorovich V.I., Tsygankova L.E. 2015. Sorption of Ni(II) cations from chloride solutions with glauconite concentrate. Bulletin of Russian universities, Chemistry, 20(2).
- 4. Buzaeva M.V., Klimov E.S., Kirillov A.I. 2010. Physico-chemical properties of natural sorbents in Ulyanovsk region. Bashkir Chemical Journal, 17(4), 37-40.
- 5. Poleshchuk I.N., Pinigina I.A., Sozykina E.S. 2019. Extraction of iron (III) ions from water solutions by natural sorbents. Modern Science-Intensive Technologies, 3(1).
- 6. Pimneva L.A. 2017. Investigation of adsorption of cobalt (II) ions by kaolinite. Modern ScienceIntensive Technologies, 7.
- 7. Balukova E.N., Iwanski N.N. 2009. Manganese from the aqueous solutions by natural sorbent. Bashkir Chemical Journal, 14(4), 1340-1342.
- 8. Lozinskaya E.F., Mitrakova T.N. 2014. Study of the kinetics of sorption of copper (II) ions by natural sorbents. Theoretical and Applied Aspects of Modern Science, 2(1), 25-28.
- 9. Dudina S.N. 2013. Modification of sorbents based on natural clay materials. Scientific Bulletin of the Belgorod state University. Series: Natural Sciences, 24(167), Iss. 25.
- 10. Kotov V.V., Gorelova E.I., Gorelov I.S., Danilova G.N. 2014. Sorption of iron (III) ions on synthetic composite sorbents. Sorption and Chromatographic Processes, 14(3), 413-418.
- 11. Distanov, U.G., Mikhailov A.S., Konyukhova T.P. 1999. Natural sorbents of the USSR. Moscow, Nedra, p. 208.
- 12. Voyutsky S.S. 1975. Course of colloid chemistry. Moscow, Chemistry, p. 512.
- 13. Kalyukova E.N., Pischenko V.T., Ivanskaya N.N. 2010. Adsorption of manganese and iron cations by natural sorbents Sorption and Chromatographic Processes, 10(2), 194-200.
- 14. Lurie, Y.Y. 1979. Handbook of analytical chemistry. Moscow, Chemistry, p. 480.
- 15. Pimneva L.A., Zagorskaya A.A. 2019. Modification of natural clays for use in wastewater treatment processes. Journal of Environmental Engineering, 20(8).
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c48fe778-ab36-4da0-8026-6787ccf79ab3