ArticleName |
Investigation of ammonia autoclave leaching of silver and rhenium
containing ill-conditioned copper concentrate |
ArticleAuthorData |
Joint Enterprise of Scientific and Production Association “RIVS”, Saint Petersburg, Russia.
A. Ya. Boduen, assistant professor of a Chair of Metallurgy, e-mail: A_Boduen@rivs.ru B. S. Ivanov, Industrial Engineer of a Department of Hydrometallurgy
Saint Petersburg Mining University, Saint Petersburg, Russia: G. V. Petrov, Professor of a Chair of Metallurgy, e-mail: petroffg@yandex.ru M. A. Serebryakov, Post-Graduate Student of a Chair of Metallurgy |
Abstract |
Nowadays, copper industry consists mostly of pyrometallurgical technologies (not more than 10–15% of hydrometallurgy are included). Exhaustion of rich copper deposits led to the necessity of expansion of raw material base due to the involvement of poor and off-balance ores in production, which, in turn, led to obtaining of ill-conditioned concentrates, unsuitable for profitable use in pyrometallurgy. This paper shows the investigations of autoclave oxidation ammonia leaching of ill-conditioned copper concentrate (Jezkazgan deposit). Copper, silver and rhenium are the marketable metals in concentrate. Autoclave leaching parameters, allowing the selective transfer of all marketable metals in solution relating to iron and waste rock components, were experimentally defined during one technological operation. Usage of ammonia leaching as a main operation allows the following operations: • development of rational technology of extraction of valuable components from ill-conditioned copper concentrate with their obtaining as marketable products; • regeneration of the basic reagent (ammonia); • ammonia sulfate obtaining as an additional marketable product. Ammonia solutions are less aggressive than acid solutions, which allows the use for mechanization of cheaper engineering materials. The production waste is autoclave cake, which, according to its composition, has actually no difference from the concentration tailings, has no acid reaction and can be stored in tailing dump of concentration plant. |
References |
1. Naboychenko S. S. Avtoklavnaya pererabotka medno-tsinkovykh i tsinkovykh kontsentratov (Autoclave processing of copper-zinc and zinc concentrates). Moscow : Metallurgiya, 1989. 112 p. 2. Avtoklavnaya gidrometallurgiya tsvetnykh metallov. V trekh tomakh. Tom 2. Avtoklavnaya tekhnologiya v metallurgii tsvetnykh metallov (Autoclave hydrometallurgy of non-ferrous metals. In three volumes. Vol. 2. Autoclave technology in non-ferrous metallurgy). S. S. Naboychenko, Ya. M. Shneerson, L. V. Chugaev, M. I. Kalashnikova. Ekaterinburg : Ural State Technical University — Ural Polytechnic Institute, 2009. 612 p. 3. Listova L. P., Bondarenko G. L. Rastvorimost sulfidov svintsa, tsinka i medi v okislitelnykh usloviyakh (Solubility of lead, zinc and copper sulfides in oxidation conditions). Moscow : Nauka, 1969. 163 p. 4. Chmielewski T., Wodka J., Iwachow Ł. Ammonia pressure leaching for lubin shale middlings. Physicochemical Problems of Mineral Processing. 2009. Vol. 43. pp. 5–20. 5. Odendaal N. Ammonia leaching technology replaces sulphuric acid. Mining weekly. 2011. Available at: http://www.miningweekly.com/article/ammonia-leaching-technology-replaces-sulphuricacid-2011-09-02 6. Duyvesteyn W. P. C., Sabacky B. J. Ammonia leaching process for escondida copper concentrates. Transactions of the institution of Mining and Metallurgy. 1995. Vol. 104. pp. 125–140. 7. Radmehr V., Koleini S. M. J., Khalesi M. R. and Tavakoli Mohammadi M. R. Ammonia leaching in the copper industry. XXVI Internatonal Mineral Processing Congress (IMPC) – 2012 : Proceedings. New Delhi, India. 24–28 September 2012. 8. Melnik B. D. Inzhenernyy spravochnik po tekhnologii neorganicheskikh veshchestv. Grafiki i nomogrammy (Engineering reference book about the technology of inorganic substances. Diagrams and nomograms). Second edition, revised and enlarged. Moscow : Khimiya, 1975. 9. Zhao Guo-dong, Wu Heng-shan, Zhang Yu, Liu Qing. Ammonia leaching for tailings from a copper mine. Nonferrous Metals. 2004. Vol. 56 (3). pp. 54−56. (in Chinese) 10. Batsaykhan Sh., Naboychenko S. S. Pokazateli ammiachnogo avtoklavnogo vyshchelachivaniya mednogo polimetallicheskogo kontsentrata (Indicators of ammonia autoclave leaching of copper polymetallic concentrate). Izvestiya vuzov. Tsvetnaya metallurgiya = Universities’ Proceedings. Nonferrous Metallurgy. 1992. No. 5/6. pp. 38–40. 11. Baba A. A., Ghosh M. K., Pradhan S. R., Rao D. S., Baral A., Adekola F. A. Characterization and kinetic study on ammonia leaching of complex copper ore. Transactions of Nonferrous Metals Society of China. 2014. Vol. 24. pp. 1587–1595. |