ArticleName |
Possibility to use bacteria for processing of mineralized mass
of the Muruntau pit and the gold plant tailings |
ArticleAuthorData |
Navoi Mining and Metallurgical Works, Navoi, Republic of Uzbekistan:
К. Sanakulov, General Director, Doctor of Technical Sciences, Professor, e-mail: info@ngmk.uz
Navoi State Mining Institute, Navoi, Republic of Uzbekistan: I. Tagaev, Associate Professor at the Department of Chemical Technology, PhD (Agriculture), e-mail: info@ndki.uz |
Abstract |
Around 2 bln tons of mineralized mass containing ~0.3 g Au/t have accumulated in the dumps of the Muruntau gold deposit since the start of the mining operations. Today, that mineral mining waste is considered man- made ores, which can be cost-effectively processed to recover valuable components. The paper considers one of the innovative technologies in the processing of mineral and man-made materials containing gold, silver and a number of non-ferrous metals, and namely biotechnologies that help enhance the utilization of raw materials while ensuring efficient environmental protection. The paper looks at the problem of interaction between various types of microorganisms and rock-forming, accessory and ore minerals contained in mineral raw materials and man-made wastes. An important problem is to understand the mechanism behind mineral decomposition triggered by microorganism wastes. The authors looked at the decomposition of toxic cyanide and thiocyanide wastes triggered by the microorganisms contained in the tailings. New types of waste materials generated by food and drug industries are proposed as new biosorbents. It is shown that through studying the mechanisms behind biodecomposition of cyanides followed by leaching of precious metals one will be able to create a new process that would combine neutralization of man-made wastes with recovery of valuable components. |
References |
1. Karavayko G. I., Kuznetsov S. I., Golomzik A. I. Leaching of metals from ores and the role of microorganisms. Moscow : Nauka, 1972. 248 p. 2. Lobanov D. Z., Vernikova L. M. Microbial leaching of metals: Learner’s guide. Moscow : Moskovskiy geologorazvedochnyi institut, 2006. 192 p. 3. Sanakulov K. Developing a biocolloid technology for neutralizing cyanides in gold ore tailings: Abstract of PhD dissertation. Tashkent, 2001. 27 p. 4. Khamroev I. O. The status of the gold ore material base at Navoi Mining and Metallurgical Works. Gornyi Zhurnal. 2018. No. 9. pp. 22–32. 5. Viljoen M. The life, death and revival of the central Rand Goldfied. World Gold Conference 2009. Johannesburg : The Southern African Institute of Mining and Metallurgy, 2009. pp. 131–138. 6. Goldfarb R. J., Taylor R. D., Collins G. S., Goryachev N. A. Orlandini O. F. Phanerozoic continental growth and gold metallogeny of Asia. Gondwana Research. 2014. Vol. 25, No. 1. pp. 48–102. 7. Wang Chenghui, Xu Jue, Huang Fan. Resources Characteristics and Outline of Regional Metallogeny of Gold Deposits in China. Acta Geologica Sinica. 2014. Vol. 88, Iss. 12. pp. 2315–2325. 8. Zhang Wen-Zhao, Qing Min, Niu Gui-Yi, Wang Ke-Qiang, Huang Hui, Wang Mei-Juan. An overview of type, spatial-temporal distribution and prospecting of gold deposits in China. Bulletin of Mineralogy, Petrology and Geochemistry. 2014. Vol. 33, No. 5. pp. 721–732. 9. Malatse M., Ndlovu S. The viability of using the Witwatersrand gold mine tailings for brickmaking. The Journal of the Southern African Institute of Mining and Metallurgy. 2015. Vol. 115, Iss. 4. pp. 321–327. 10. Sanakulov K. S., Sagdieva M. G., Tagaev I. A. Biotechnological processes in metallurgy. (Biohydrometallurgy): Guide for university students. Tashkent : Mukharrir, 2019. pp. 118–124. 11. Tagaev I. A., Khusenov K. Sh., Khudoyberdiev F. I. Basics of biochemistry and biotechnology: Guide for university students. Navoi : Navoi, 2019. 213 p. 12. Meretukov M. A. Gold: Chemistry, mineralogy, metallurgy. Moscow : “Ore and Metals” Publishing House, 2008. 528 p. 13. Polkin S. I., Adamov E. V., Panin V. V. Bacterial leaching of non-ferrous and rare metals. Moscow : Nedra, 1982. 286 p. 14. Egorova T. A. Basics of biotechnology. Moscow : Akademiya, 2003. 208 p. 15. Adamov E. V., Panin V. V. Biotechnology of metals: Lecture series. Moscow : Publishing House “MISiS”, 2008. 150 p. 16. Sagdieva M. G. Microbial leaching of gold: Main research areas. Proceedings of the All-Union Meeting on Waste-Free Technology in Gold Industry. Tashkent : Fan, 1984. pp. 32–40. 17. Akhmedov Kh., Mustakimov O. M., Khasanov A. S., Khabibullaeva G. R. Looking at the material composition of the Bioks cake and the products of its processing. Proceedings of the Republican Science & Technology Conference. Navoi, 2011. p. 116. |