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KOLA MINING AND METALLURGICAL COMPANY: ON THE WAY OF SUSTAINABLE DEVELOPMENT
Название Promising chlorination technology for improving precious metal concentrate production
DOI 10.17580/tsm.2024.09.01
Автор Lastochkina M. A., Vostrikova N. M., Anisimova N. N., Dubrovsky V. L.
Информация об авторе

Gipronickel Institute, St. Petersburg, Russia

M. A. Lastochkina, Head of Precious Metals Sector, Hydrometallurgy Laboratory, e-mail: Lastochkinama@nornik.ru
N. M. Vostrikova, Senior Researcher, Hydrometallurgy Laboratory, Candidate of Technical Sciences, e-mail: Vostrikovanm@nornik.ru
N. N. Anisimova, Senior Researcher, Hydrometallurgy Laboratory, e-mail: anisimovann@nornik.ru


Kola MMC, Monchegorsk, Russia
V. L. Dubrovsky, Chief Specialist, Scientific and Technical Development Department, e-mail: DubrovskiyVL@kolagmk.ru

Реферат

The work is devoted to obtaining rich, highly selective concentrates of platinum metals using chlorine technology. Since one of the key operations determining the performance indicators — primarily direct extraction and duration of the process cycle — is head digestion, the greatest attention is paid to the features of this process. It is shown that hydrochlorination of materials enriched with a carbon reducing agent has its own characteristics. Thus, in a wide range of process parameters (temperature, L:S, acidity), high extraction of platinum metals (PM) into solution is ensured. With an initial content of the sum of PM of 15–30% and chlorination in two stages, the residual content of platinum and palladium is at the level of 0.1–0.2%, which corresponds to an extraction of more than 95–97%. The behavior of gold differs sharply and depends on the amount and properties of the residual reducing agent, changes in its sorption properties and the completeness of oxidation during the chlorination process. The process flow includes digestion in hydrochloric acid environments, purification of solutions from impurities of base metals and platinum-associated metals (PAM), precipitation of platinum-palladium concentrate (more than 90% Pt + Pd) from the purified solution, processing of the precipitate of PAM impurities to obtain a concentrate containing more than 20% Rh, Ru, Ir, and smelting of insoluble residues to obtain a gold concentrate containing more than 40% Pt + Pd + Au. The modes for carrying out the main process operations have been tested in laboratory conditions at Gipronickel Institute and verified on large-scale installations of the precious metals refining department of the scientific and technical center of JSC Kola MMC.
E. I. Trofimova, O. V. Severinova, D. M. Bogatyrev (Gipronickel Institute), A. V. Rakitin, A. V. Bratishchev, D. A. Karataev, G. V. Nevsky, A. A. Shishmanova (Kola MMC) took part in the work.

Ключевые слова Platinum metal concentrates, gold, chlorination, coal, electron microscopy, sorption
Библиографический список

1. Ministry of Natural Resources and Environment of the Russian Federation. On the state and use of mineral resources in the Russian Federation in 2019. State report. Moscow, 2020.
2. Volkov V. V., Shcherbakov S. V., Khomyakova I. N., Zhukova V. E. Enhanced selectivity of platinum group metal concentrates at Kola MMC`s chemical and metallurgical shop. Tsvetnye Metally. 2022. No. 9. pp. 64–71.
3. Crundwell F. K., Moats M. S., Venkoba R., Robinson T. G. et al. Extractive metallurgy of nickel, cobalt and platinum-group metals. 1st Edition. Amsterdam : Elsevier, 2011.
4. Simonov P. A. Pd/C catalysts: study of physicochemical processes of active component formation from H2PdCl4: Dissertation … of Candidate of Chemical Sciences. Novosibirsk, 2000.
5. Wojnicki M., Luty-Blocho M., Socha R. P. et al. Kinetic studies of sorption and reduction of gold(III) chloride complex ions on activated carbon Norit ROX 0.8. Journal of Industrial and Engineering Chemistry. 2015. Vol. 29. pp. 289–297.
6. Ahtiainen R., Lundstrom M. Cyanide-free gold leaching in exceptionally mild chloride solutions. Journal of Cleaner Production. 2019. Vol. 234. pp. 9–17.
7. Karppinen A., Seisko S., Nevatalo L., Wilson B. P. et al. Gold recovery from cyanidation residue by chloride leaching and carbon adsorption – Preliminary results from CICL process. Hydrometallurgy. 2024. Vol. 226. 106304.
8. Michalek T., Wojtaszek K., Malecki S., Kornaus K. et al. Recovery of Pd(II) ions from aqueous solutions using activated carbon obtained in a single-stage synthesis from cherry seeds. 28.04.2024. Available at: https://www.mdpi.com/2311-5629/9/2/46 (accessed: 02.08.2024).
9. Sinisalo P., Lundström M. Refining approaches in the platinum group metal processing value chain-A review. 22.03.2018. Available at: https://www.mdpi.com/2075-4701/8/4/203 (accessed: 02.08.2024).
10. Panda R., Jha M. K., Pathak D. D. Commercial processes for the extraction of platinum group metals (PGMs). Rare Metal Technology, TMS. 2018. pp. 119–130.
11. Adams M. D. Gold ore processing. Project development and operations. Amsterdam : Elsevier, 2016.
12. Reznik I. D., Ermakov G. P., Shneerson Ya. M. Nikel. Moscow: Nauka i tekhnologii, 2003. 608 p.
13. Kotlyar Yu. A., Meretukov M. A., Strizhko L. S. Metallurgy of precious metals: textbook. Moscow : Ruda i Metally, 2005.
14. Mastyugin S. A., Volkova N. A., Naboychenko S. S., Lastochkina M. A. Sludges from electrolytic refining of copper and nickel. Yekaterinburg, URFU, 2013. 245 p.

Language of full-text русский
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