PYROMETALLURGY | |
ArticleName | Microimpurities behavior under metallurgical treatment of nickel-copper sulfide concentrates |
ArticleAuthor | Popov V. A., Tsemekhman L. Sh. |
ArticleAuthorData | LLC “Institute “Gipronikel”, Saint Petersburg, Russia: V. A. Popov, Senior Researcher |
Abstract | There was carried out the thermodynamic modeling of microimpurities distribution (such as Zn, Pb, As, Sb) among the products of pyrometallurgical processes of “Norilsk Nickel” MMC. Dependencies of impurities distribution from their total content in system are calculated separately for each element. There is shown the type of elements, essentially kept in condensed phase (matte, slag or alloy). Increasing of content of this element in concentrate leads to increasing of transition degree of this element in exhausted gases. Under the low content in concentrate, Zn is vaporized in the higher degree, than As. At the same time, dependency of Zn distribution from its total content in the system is weak. Pb more tends to vaporization, than other elements. Increasing of Pb content in concentrate leads to growth of its recovering in slag. Sb is mostly recovered in matte or slag, and its transition degree in exhausted gases is low. Received thermodynamic modeling results are used for creation of balance models of microimpurities distribution among main processing products of “Kola” MMC and Polar Division of “Norilsk Nickel” MMC. Industrial data of microimpurities distribution are used in the constant type for nonpyrometallurgical processes modeling. Excel format models allow to carry out the following operations: |
keywords | Thermodynamic modeling, arsenic, zinc, lead, bismuth, sulfide concentrates, distribution of impurities |
References | 1. Morachevskiy A. G., Sladkov I. B. Termodinamicheskie raschety v metallurgii : spravochnik (Thermodynamic calculations in metallurgy : reference book). Moscow : Metallurgiya, 1993. 304 p. |
Language of full-text | russian |
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