Article
Article name	The raw material base for the discovery of magnesium oxide production promising sources in the beneficiation processes
Authors	Masalimov A.. , Smirnov A.. , Orekhova N.. , Grishin I.. ,
Bibliographic description
Category	Earth science
DOI	622.7
DOI	10.21209/2227-9245-2021-27-3-16-25
Article type
Annotation	The article contains the analyse of the raw material base of magnesia raw materials in Russia and its relationship with the existing deficit of high-purity magnesium oxide. Existing and promising sources of magnesia raw materials and their distribution by regions are considered in order to discover new sources that could be involved in the enrichment processes. The existing methods of enrichment of natural magnesites and the possibility of their application for technogenic raw materials are analyzed
Key words	magnesite; magnesium oxide; reserves of magnesia raw materials; enrichment of magnesite; technogenic raw materials; consumption of magnesium oxide; shortage of raw materials; methods of enrichment; enrichment of technogenic raw materials
Article information	Masalimov А., Orekhova N., Smirnov A., Grishin I. The raw material base for the discovery of magnesium oxide production promising sources in the beneficiation processes // Transbaikal State University Journal, 2021, vol. 27, no. 3, pp. 16–25. DOI: 10.21209/2227-9245-2021-27-3-16-25.
References	1. Akselrod L. M. Novye ogneupory (New refractories), 2013, no. 3. pp. 107‒122. 2. Akselrod L. M. Novye ogneupory (New refractories), 2013, no. 3. pp. 21‒22. 3. Betekhtin A. G. Mineralogiya (Mineralogy). Moscow: KDU, 2007. 720 p. 4. Gavrish D. I., Strelov K. K., Zakutinsky V. L. Ogneupory (Refractories), 1977, no. 2, pp.17‒23. 5. Zabolotnaya N. V. Vestnik Orenburgskogo gosudarstvennogo universiteta (Bulletin of the Orenburg State University), 2006, May, no. 5, pp. 32‒34. 6. Kaynarsky I. S., Degtyareva E. V. Osnovnye ogneupory (Basic refractories). Moscow: Metallurgiya, 1974, 367 p. 7. Kashcheev I. D., Urvancev A. I. Novye ogneupory (New refractories), 2006, no. 4, p. 11. 8. Kashcheev I. D. Proizvodstvo ogneuporov (Production of refractories). Moscow: Metallurgiya, 1993, 256 p. 9. Kashcheev I. D., Strelov K. K., Mamykin P. S. Himicheskaya tekhnologiya ogneuporov (Chemical technology of refractories). Moscow: Intermet Engineering, 2007, 752 p. 10. Kozlova V. K., Dushevina A. M. Stroitelnye materialy (Construction materials), 2004, no. 1, pp, 29‒30. 11. Kolichestvennaya i geologo-ekonomicheskaya otsenka resursov nemetallicheskih poleznyh iskopaemyh. T. III. Nerudnoe metallurgicheskoe syrie (Quantitative and geological-economic assessment of non-metallic mineral resources. Vol. III. Nonmetallic metallurgical raw materials). Kazan: Novoe znanie, 2007. 94 p. 12. Leb, L. Staticheskaya elektrizaciya (Static electrification). M.; L.: Gosenergoizdat, 1963, 408 p. 13. Miryuk O. A. Nauchnye osnovy energo- i resursosberegayuschih tehnologiy. Vestnik BGTU im. V. G. SHuhova (Scientific bases of energy - and resource-saving technologies. Bulletin of BSTU named after V. G. Shukhov), 2005, no.14, 35‒39. 14. Olofinsky N. F. Elektricheskie metody obogashcheniya (Electrical methods of enrichment). Moscow: Nedra, 1977, 517 p. 15. Aktualnye problemy sovremennoy nauki, tehniki i obrazovaniya: tez. 77-y Mezhdunar. nauch.-tekhn. konf. (Actual problems of modern science, technology and education: tez. 77th International Scientific and Technical Conference conf.). Magnitogorsk: Magnitogorsk State Technical University. G. I. Nosov Univ., 2019, pp. 228‒229. 16. Osadchenko I. M., Lyabin M. P., Romanovskova A. D. Vestnik VolGU. Seriya 11. Estestvennye nauki (Bulletin of the Volga State University. Series 11. Natural sciences), 2018, no. 3, pp. 6‒9. 17. Palgova A. Yu. Molodoy ucheny (A young scientist), 2015, no. 3, pp. 193‒196. Available at: https://moluch.ru/archive/83/15216/ (date access: 29.09.2020). Text: electronic. 18. Perepelitsyn V. A., Rytvin V. M., Koroteev V. A. Tekhnogennoe mineralnoe syrie Ura (Technogenic mineral raw materials of the Urals). Yekaterinburg: Ural Branch of the Russian Academy of Sciences, 2013, 332 p. 19. Perepelitsyn V. A., Yukseeva I. V., Ostryakov L. V. Ogneupory i tehnicheskaya keramika (Refractories and technical ceramics), 2009, no. 6, pp. 50‒54. 20. Pozin M. E. Tehnologiya mineralnyh soley (udobreniy, pestitsidov, promyshlennyh soley, okislov i kislot) (Technology of mineral salts (fertilizers, pesticides, industrial salts, oxides and acids). 3rd ed. L.: Chemistry, 1970, part. 1, 792 p. 21. Polous M. Kommersant (Merchant), 2015. February 04. Available at: http://www.kommersant.ru/doc/2660134 (date access: 20.09.2020). Text: electronic. 22. Prokofieva V. V. Magnezialnye silikaty v proizvodstve stroitelnoy keramiki (Magnesian silicates in the production of building ceramics). St. Petersburg: Zolotoy Orel, 2005, 157 p. 23. Sklyarova G. F. Gorny informatsionno-analiticheskiy byulleten (Mining information and analytical bulletin), 2012, no. 1, 403 p. 24. Smirnov A. N. Osnovnye tendentsii razvitiya rynka ogneupornyh materialov (The main trends in the development of the market of refractory materials). 2014. Available at: http://steellab.com.ua/ news/2014/01/01.php. (date of access: 20.09.2020). Text: electronic. 25. Tyurenkov N. G. Ediny metod otsenki effektivnosti obogatitelnyh processov (Unified method for evaluating the efficiency of processing processes). Moscow: Metallurgizdat, 1952, 36 p. 26. Urvantsev A. I. Sovershenstvovanie protsessov elektricheskoy separatsii i konstruktsii elektroseparatorov: mezhduved. sbornik (Improving the electrical separation processes and design of electric separators: mezhduved. collection of works). L.: Mekhanobr, 1987, pp. 46‒54. 27. Urvantsev A. I. Sovershenstvovanie protsessov elektroseparatsii i konstruktsiy elektroseparatorov: mezhduved. sbornik (Improvement of electric separation processes and electric separator designs: inter-ved. collection of works). L.: Mekhanobr, 1987, pp. 36‒46. 28. Urvantsev, A. I., Kashcheev I. D. Novye ogneupory (New refractories), 2012, no. 4, pp‒ 12-15. 29. Fizicheskie osnovy elektricheskoy separatsii / sost. A. I. Angelov, pod red. V. I. Revnivtseva (Physical bases of electric separation). Moscow: Nedra, 1983, 271 p. 30. Khoroshavin L.B., Perepelitsyn V. A., Kononov V. A. Magnezialnye ogneupory (Magnesian refractories). Moscow: Intermet Engineering, 2001, 576 p. 31. Shaporev V. P., O. E. Serdyukov, Makki A. F. Tehnologii organicheskih i neorganicheskih veshchestv i ekologiya (Technologies of organic and inorganic substances and ecology), 2008, vol. 6, no. 4, pp. 31‒38. 32. Shevelev A. I., Timeskov V. A., Tokhtasev V. S., Koplus A. V., Sabitov A.A. Razvedka i ohrana nedr (Exploration and protection of mineral resources), 2005, no. 9, pp. 15‒19. 33. Scherbakova T.A., Shevelev A.I. Georesursy (Georesources), 2016, vol. 18, no. 1, pp. 75‒78. 34. Schiptsov V. V. Gorny zhurnal (Mining Journal), 2010, no. 6, pp. 21‒29. 35. Turchin M.Y., Masalimov A.V., Smirnov A.N., Grishin I.A. Refractories and Industrial Ceramics (Refractories and Industrial Ceramics), 2019, vol.. 60, no. 3, рр. 254‒257. 36. Kramer, D. A. Year Book 2002. Magnesium Compounds. USGS (Year Book 2002. Magnesium Compounds. USGS). Reston. Virginia, 2002. 37. Pan F. S. et al. Transactions of Nonferrous Metals Society of China (Transactions of Nonferrous Metals Society of China), 2010, vol. 20, no. 7, рр. 1249‒1258. 38. Shand M. A. The chemistry and technology of magnesia (The chemistry and technology of magnesia). John Wiley&Sons, Inc., 2006, 191 p.
Full article	The raw material base for the discovery of magnesium oxide production promising sources in the beneficiation processes