ArticleName |
Kazmekhanobr's technologies in the field of processing of low-grade gold-bearing ores and technogenic raw materials |
ArticleAuthorData |
Branch of the RSE National Center on Complex Processing of Mineral Raw Materials of the Republic of Kazakhstan, Kazmekhanobr State Scientific Production Association of Industrial Ecology, Almaty, Republic of Kazakhstan:
S. T. Shalgymbayev, Director, Candidate of Technical Sciences, e-mail: serikbolnao@mail.ru L. S. Bolotova, Head of the Laboratory of Precious Metals, Candidate of Chemical Sciences, e-mail: L_bolotova@yahoo.com B. N. Surimbayev, Senior Researcher of the Laboratory of Precious Metals, PhD, e-mail: surimbaev@gmail.com (corresponding author) |
Abstract |
The Republic of Kazakhstan has been increasing gold production annually for the last 10–15 years. According to the results of 2019, Kazakhstan ranks 13th in the world in terms of gold production (77 tons), in terms of reserves — 16th in the world (377.5 tons). The article presents information about the innovative developments of Kazmekhanobr in the field of processing of poor goldbearing ores and man-made raw materials. Information on implemented technologies and projects in Kazakhstan for recent years is given. Kazmekhanobr’s deve lopments cover the whole complex of technological stages of processing of poor gold-bearing ores and man-made raw materials by heap leaching technology: ore preparation, leaching process, sor ption extraction of gold from productive solutions, desorption of gold from saturated sorbents and electrolytic extraction of gold from rich eluates. In particular, the company for the first time in Kazakhstan in 1998 developed and implemented pre-pelleting of ore and laying it in a pile leaching stack using a stacker at the mines “Suzdal”, “Mukur”, “Mizek”, “Komarovsky”, etc. It was also developed the highly efficient innovative technology of gold heap leaching from poor gold-bearing ores, complex gold-copper ores and technogenic wastes, which is characterized by low consumption of water and reagents and accordingly low negative load on the environment at the mines “Zhanan”, “Mukur”, “Miyali” “Balazhal”, “Aksu”,“Bestyube”,“Uzboy”, etc. Patents were obtained and a three-stage cascade scheme of sorption extraction of gold by ion exchange resin, original design of sorption columns and binding of columns were introduced, which allowed to maximize the heap leaching process and increase its efficiency, minimize processes of resin pumping processes and, accordingly, the mechanical impact on them, will increase saturation of the resin with gold and reduce the turnover of gold with working solutions at the Zhaltyrbulak, Uzboy, Vasilyevskoye deposits. Innovative processes of highefficiency technology of gold desorption and ion exchange resin regeneration, electrolytic extraction of gold from commodity regenerates have been introduced, in which the duration of gold desorption and resin regeneration together with gold electrolysis does not exceed 18–24 h. According to the projects developed by Kazmekhanobr with the use of innovative technologies, plants for the production of Dore alloy in Ust-Kamenogorsk, Semey and Stepnogorsk, Makmala (Kyrgyzstan) and the Asi gold mining plant (China) were built and successfully operate. |
References |
1. Gold Focus 2020. Valcambi Suisse. Available at: https://www.metalsfocus.com/wp-content/uploads/2020/11/GOLD-FOCUS-2020.pdf (accessed: 30.03.2021). 2. In the ranking of countries for gold reserves, Kazakhstan ranks 16th. Business Information Center Kapital.kz. Available at: https://kapital.kz/finance/82629/v-reytinge-stran-po-zapasam-zolota-kazakhstan-na-16-m-meste.html (accessed: 30.03.2021). 3. Wilson M. E., Lee E. Kazakhstan’s Gold Mining Sector and the New Regulation on Gold Sales. Alchemist Issue Sixty Six. 2012. pp. 12–15. 4. Bolotova L. S., Romanenko А. G. Innovative technologies and developments in the field of precious metals. Promyshlennost Kazakhstana. 2013. No. 4. pp. 4–26. 5. Bolotova L. S., Romanenko А. G. Gold technology in production. Proceedings of the National Center for Complex Processing of Mineral Resources of the Republic of Kazakhstan. Almaty, 2013. pp. 429–438. 6. Fazlullin М. I. Heap leaching of precious metals. Moscow : Izdatelstvo Akademii gornykh nauk, 2001. pp. 137–164. 7. Underground and heap leaching of uranium, gold and other metals. In 2 volumes. Vol. 2. Gold. Edited by М. I. Fazlullin Moscow : Ruda i Metally, 2005. 328 p. 8. Bouffard S. C. Review of agglomeration practice and fundamentals in heap leaching. Mineral Processing and Extractive Metallurgy Review. 2005. Vol. 26, Iss. 3-4. pp. 233–294. 9. Akzharkenov М. D., Altynbek Sh. Ch., Romanenko А. G., Bolotova L. S., Baykonurova А. О. Optimal agglomeration parameters for subsequent heap leaching of gold. Promyshlennost Kazakhstana. 2012. No. 3. pp. 87–89. 10. Heap leaching of gold – foreign experience and prospects for development. Reference book. Edited by V. V. Karaganov, B. S. Uzhkenov. Moscow – Almaty : ASMI, 2002. 288 p. 11. Dementev V. Е., Druzhina G. Ya., Gudkov S. S. Heap leaching of gold and silver. Irkutsk : OAO “Irgiredmet”, 2004. pp. 202–266. 12. Lisovskiy G. D., Lobanov D. P., Nazarkin V. P. et. al. Heap and underground leaching of metals. Edited by S. N. Voloshchuk. Moscow : Nedra, 1982. 113 p. 13. Mineev G. G., Vasilyev А. А., Nikitenko А. G. Heap leaching of goldbearing ores. Vestnik Irkutskogo gosudarstvennogo tekhnicheskogo universiteta. 2017. Vol. 21, No. 4. pp. 147–156. 14. Yashkin I. А., Oveshnikov Yu. М., Avdeev P. B. Improvement of the efficiency of the gold-bearing ores heap leaching technology. Gorny informatsionno-analiticheskiy byulleten. 2014. No. 4. pp. 162–168. 15. Komogortsev B. V., Varenichev А. А. Problems of processing poor and refractory gold ores. Gorny informatsionno-analiticheskiy byulleten. 2016. No. 2. pp. 204–218. 16. Bolotova L.S., Akhmetov N. I., Syzdykov E. K. Method of gold heap leaching from multicomponent gold-bearing ores. Patent RK, No. 18531. Applied: 11.07.2005. Published: 15.06.2007. Bulletin No. 6. 17. Bolotova L. S., Romanenko A. G., Klets A. N., Abduazhitov M. K. The method of wastewater treatment from thiourea. Patent RK, No. 18619. Applied: 28.12.2005. Published: 15.12.2009. Bulletin No. 12. 18. Bolotova L. S., Klets A. N., Kosmukhambetov А. R., Novoselov V. А. Development of heap gold leaching technology in Kazakhstan. Proceedings of the International scientific and practical conference “Current issues of development of technologies for mining and processing of non-ferrous and precious metal ores”. Ust-Kamenogorsk, 2005. pp. 144–148. 19. Medina D., Anderson C. G. A Review of the Cyanidation Treatment of Copper-Gold Ores and Concentrates. Metals. 2020. Vol. 10, Iss. 7. p. 897. 20. Cevallos Toledo R., Aragn-Tobar C., Gmez S, de la Torre E. Reactivation Process of Activated Carbons: Effect on the Mechanical and Adsorptive Properties. Molecules. 2020. Vol. 25, Iss. 7. p. 1681. 21. Fleming C. A., Mezei A., Bourricaudy E., Canizares M., Ashbury M. Factors influencing the rate of gold cyanide leaching and adsorption on activated carbon, and their impact on the design of CIL and CIP circuits. Minerals Engineering. 2011. Vol. 24, Iss. 6. pp. 484–494. 22. Mansurov Y. N., Miklin Y. A., Miklin N. A. et al. Methods and Equipment for Breaking Down Gold-Containing Concentrates from Lean Ores and Mining Industry Waste. Metallurgist. 2018. Vol. 62. pp. 169–175. 23. Ghorbani Y., Franzidis J. P., Petersen J. Heap leaching technology — current state, innovations, and future directions: A Review. Mineral Processing and Extractive Metallurgy Review. 2016. Vol. 37. pp. 73–119. 24. Padilla G. A., Cisternas L. A., Cueto J. Y. On the optimization of heap leaching. Minerals Engineering. 2008. Vol. 21, Iss. 9. pp. 673–678. 25. Bartlett R. W. Metal extraction from ores by heap leaching. Metallurgical and Materials Transactions B. 1997. Vol. 28, Iss. 4. pp. 529–545. 26. Petersen J. Heap leaching as a key technology for recovery of values from low-grade ores – A brief overview. Hydrometallurgy. 2016. Vol. 165. pp. 206–212. 27. Bolotova L. S., Romanenko A. G. Technological and economic evaluation of sorbents in the gold heap leaching process. Proceedings of the International meeting “Progressive methods of enrichment and complex processing of natural and man-made mineral raw materials – Plaksin readings 2014”. Almaty, 2014. pp. 404–407. 28. Bolotova L. S., Romanenko A. G. RIP / RIL / RIS technologies in gold hydrometallurgy. Obogashchenie Rud. 2006. No. 5. pp. 12–15. 29. Bolotova L. S., Romanenko A. G. Method of extracting gold from synthetic ion exchangers. Patent RK, No.19851. Applied: 09.08.2006. Published: 15.11.2010. Bulletin No. 11. 30. Bolotova L. S., Romanenko A. G. Electrolyzer for extraction of gold and silver from thiourea sulfuric acid solutions. Patent RK, No. 19854. Applied: 09.08.2006. Published: 15.08.2008. Bulletin No. 8. 31. Bolotova L. S., Romanenko A. G. The method of extracting gold and silver from solutions by electrolysis. Patent RK, No. 20127. Applied: 09.08.2006. Published: 15.11.2010. Bulletin No. 11. 32. Bolotova L. S., Shalgymbaev S. Т. Ion exchange resins in gold hydrometallurgy. International scientific and practical conference “Intensification of hydrometallurgical processes of processing of natural and man-made raw materials”. Saint-Petersburg, 2018. pp. 178–180. 33. Zharmenov А. А., Shalgymbaev S. Т., Bolotova L.S., Petrov А. I., Romanenko A. G. Golden technologies and projects of Kazmekhanobr. Proceedings of the International scientific and practical conference Abishev readings 2016. “Innovations in integrated mineral processing”. Almaty, 2016. pp. 258–263. |