Journals →  Tsvetnye Metally →  2023 →  #7 →  Back

HEAVY NON-FERROUS METALS
ArticleName Analyzing Russian cobalt metallurgy and ways to raise recovery
DOI 10.17580/tsm.2023.07.03
ArticleAuthor Krupnov L. V., Malakhov P. V., Ozerov S. S., Pakhomov R. A.
ArticleAuthorData

MMC Norilsk Nickel’s Polar Division, Norilsk, Russia:

L. V. Krupnov, Deputy Head of the Science and Technology Directorate – Chief Metallurgist, Candidate of Technical Sciences, e-mail: krupnovlv@nornik.ru
P. V. Malakhov, Principal Specialist in Pyrometallurgical Technology, e-mail: MalakhovPV@nornik.ru

 

Gipronikel Institute LLC, Saint Petersburg, Russia:
S. S. Ozerov, Lead Researcher at the Pyrometallurgy Laboratory, e-mail: OzerovSS@nornik.ru
R. A. Pakhomov, Senior Researcher at the Pyrometallurgy Laboratory, Candidate of Technical Sciences, e-mail: PakhomovRA@nornik.ru

Abstract

Present in copper-nickel sulphide ores together with copper and nickel, cobalt is one of the key heavy non-ferrous metals dealt with by Nornickel. Cobalt is contained in iron and nickel minerals, such as pentlandite, pyrrhotite and pyrite. Certain samples may contain up to 2.5 wt. % of cobalt, with the average concentrations being 0.2 to 1.2 wt. %. This paper examines pyrometallurgical processing of sulphide ores that contain cobalt. Pyrometallurgical processes are preceded with flotation processes, when about 14% of the entire recovered amount of cobalt is wasted with tailings (process losses). The method of flotation is used for ore processing and for separating the product into copper and copper-nickel concentrates. Most of cobalt (77%) is supplied to Nadezhda Metallurgical Plant, where copper-nickel concentrates and other nickel-containing products are processed into converter matte. About 9% of all cobalt recovered from the ores goes to the Copper Smelter, where some of the metal ends up in dump slags after the pyrometallurgical process. About 40% of cobalt is removed from the copper production circuit and is supplied to Nadezhda Metallurgical Plant. The current recovery of cobalt in the pyrometallurgical circuit of Nadezhda Metallurgical Plant does not exceed 55% of the incoming material. This paper gives an overview of approaches and methods that could be useful for slag depletion or for minimizing the share of cobalt that goes into dump slags. This would help raise the end-to-end recovery of cobalt in the pyrometallurgical circuit. Having analyzed the relevant world literature, the authors were able to identify the most innovative ways to increase the cobalt depletion performance, which include processing of converter slags in a separate pyrometallurgical unit; use of innovative depletion agents made with sulphides, carbon-containing reductants or ferroalloys; substituting the slag-forming agents used in the converter process in order to minimize the amount of cobalt that goes into converter slags and eventually into dump slags.

keywords Sulphide concentrates, cobalt, pyrometallurgy, Nadezhda Metallurgical Plant, Copper Smelter, Nornickel, slag depletion, reductant, sulphidizer, slags
References

1. Group responsible for analysis of raw materials, metals and commodities market. Cobalt market 2022. Available at: https://www.metalresearch.ru/cobalt_market.html (Accessed: 27.06.2023).
2. London Metal Exchange. Available at: www.lme.com (Accessed: 27.06.2023).
3. U.S. Geological Survey, Mineral Commodity Summaries, January 2023.
Available at: https://www.usgs.gov/publications/mineral-commodity-summaries-2023 (Accessed: 27.06. 2023).
4. Voisey’s Bay. Acquisition Presentation. Wheaton Precious Metals. pp. 7, 17–19. Available at: https://www.wheatonpm.com/streams/Voiseys-Bay/default.aspx (Accessed: 27.06.2023).
5. Cobalt market shows record growth, but remains undersupplied. Metallurgy news. Metal Supply and Sales Magazine (metalinfo.ru). Available at: https://www.metalinfo.ru/ru/news/133819?ysclid=ley2yojwf6751046533 (Accessed: 27.06.2023).
6. Nornickel raises cobalt smelter reliability. Available at: https://1line.info/news/economic/promyshlennost/nornikel-uvelichil-nadezhnostproizvodstva-kobalta.html (Accessed: 27.06.2023).
7. Russia in no hurry to charge batteries. Kommersant. 03.04.2018. Available at: https://www.kommersant.ru/doc/3592261 (Accessed: 27.06.2023).
8. Genkin A. D., Distler V. V., Gladyshev G. D. et al. Sulphide copper-nickel ores from Norilsk deposits. Moscow : Nauka, 1981. 238 p.
9. Volyanskiy I. V., Likhacheva T. A., Kurchukov A. M., Miller A. A. Basic aspects of Talnakh concentrator reconstruction and modernization. Tsvetnye Metally. 2020. No. 6. pp. 6–11.

10. Lesnikova L. S., Volyanskiy I. V., Datsiev M. S., Arabadzhi Ya. N. Implementation of the enrichment technology of the charge of rich and cuprous ore at the Talnakh Concentrator. Tsvetnye Metally. 2018. No. 6. pp. 32–37.
11. Tsemekhman L. Sh., Fomichev V. B., Ertseva L. N., Kaytmazov N. G., Kozyrev S. M. et al. Atlas of mineral raw materials, technological industrial products and marketable products of the Polar Division of OJSC MMC “Norilsk Nickel”. Moscow : “Ore and Metals” Publishing House, 2010. 336 p.
12. Arabadzhi Ya. N., Yuriev A. I., Volyanskiy I. V., Tozik V. M. Use of dump slags generated by the Copper Smelter of Nornickel’s Polar Division as secondary raw material. Research papers and participant catalogue: Proceedings of the 6th International Conference “Metallurgy-INTEKhEKO-2013”. 26–27 March 2013, Moscow. Moscow : INTEKhEKO, 2013. pp. 133–136.
13. Brovkin V. G., Piotrovskiy V. K. Processing of liquid converter slags. Moscow : Metallurgiya, 1978. 104 p.
14. Mamonov S. V., Gazalleeva G. I. et al. Raising the performance of processing copper smelter slags on the basis of their slow cooling and ultrafine grinding. Izvestiya vuzov. Gornyy zhurnal. 2018. No. 2. pp. 83–90.
15. Yuriev A. I., Muraviev V. V., Petrov A. F., Brusnichkina-Kirillova L. Yu. Flotation separation of nickel slag of the Polar Division Copper Plant at Nadezhdinsky Metallurgical Plant with the production of nickel and copper concentrates. Tsvetnye Metally. 2020. No. 6. pp. 38–45.
16. Krupnov L. V., Tsymbulov L. B., Malakhov P. V., Ozerov S. S. Operation of autogenous smelters at Nornickel’s Polar Division when proces sing raw materials with low energy potential. Tsvetnye Metally. 2022. No. 2. pp. 40–48.
17. Krupnov L. V., Pakhomov R. A., Talalov V. A., Malakhov P. V. Modified design of flash smelting furnaces for optimized gas flow dynamics: Options. Proceedings of the 14th International conference marking the 40th anniversary of the Institute of Chemistry and Chemical Technology at the Siberian Branch of the Russian Academy of Sciences. 6–9 September 2021, Krasnoyarsk, Russia. Krasnoyarsk : Nauchno-innovatsionnyi tsentr, 2021. pp. 70–73.
18. Elliot B. J., Compain B., Muller R. G. Operation of the integrated flash furnace at Kalgoorlie nickel smelter. Extraction Metallirgy’89. Symposium at London 10–13 July. 1989. p. 467.
19. Ruismäki R., Danczak A., Klemettinen L., Taskinen P., Lindberg D. et al. Integrated battery scrap recycling and nickel slag cleaning with methane reduction. Minerals. 2020. Vol. 10, Iss. 5. DOI: 10.3390/min10050435
20. Reznik I. D., Sobol S. I., Khudyakov V. M. Cobalt. In 2 volumes. Vol. 1. Historical essay. Raw materials as the source of cobalt. Pyrometallurgy of cobalt. Moscow : Mashinostroenie, 1995. pp. 261–282.
21. Mitrasinovic A., Wolf A. Effect of reductants on valuable metals separation and recovery from copper cliff converter slag. High Temperature Materials and Processes. 2014. Vol. 33, Iss. 2. pp. 123–129.
22. Reznik I. D., Sobol S. I., Khudyakov V. M. Cobalt. In 2 volumes. Vol. 1. Historical essay. Raw materials as the source of cobalt. Pyrometallurgy of cobalt. Moscow : Mashinostroenie, 1995. pp. 190–207.
23. Hara Y. Direct reduction of copper-cobalt sulphide mineral concentrates for metal/alloy production : Dissertation Thesis of Doctor of Technical Sciences. The University of Leeds. June 2014. 310 p.
24. Yun Li, Cong Chang et al. Thermodynamic phase conversion process using gypsum wastes as sulfurizing agent. Journal of Sustainable Metallurgy. 2021. Vol. 7, Iss. 4. pp. 1643–1653.

Language of full-text russian
Full content Buy
Back