克雷夫伊盆地磁铁矿石英岩尾矿富集化学成分

IF 0.5 Q4 MINERALOGY Mineralogical Journal-Ukraine Pub Date : 2023-01-01 DOI:10.15407/mineraljournal.45.01.059
V. Hubina, V. Pokalyuk, V. Verkhovtsev, V. Yatsenko, V. Zaborovskiy
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引用次数: 0

摘要

研究了Kryvyi Rih加工厂(即Inguletsky、ArcelorMittal Kryvyi Rih和Central)尾矿的主要和次要元素组成。结果表明,尾矿的组成与待富集的矿石具有良好的关系。确定了富集过程中技术地球化学变化的主要趋势。测定了克雷夫伊里盆地各加工厂尾矿组成的差异。也就是说,Ingulets工厂的尾矿含铁量更高,铁含量为23.7% wt %,几乎是Central和ArcelorMittal Kryvyi Rih工厂的两倍。ArcelorMittal Kryvyi Rih尾矿的碳质和铝含量较高,铁和硅含量较低。中央选矿厂的尾矿硅质含量较高,氧化铝和碳酸盐含量最低,铁含量一般。主元素方面,与原矿相比,尾矿中硅、铝、锰、镁、钙、钠、钾、磷、硫富集,铁、钛贫。微量元素方面,尾矿中Sr、Y、Sc、Li和部分Zr富集,磁铁矿、Ni、Th、U、Ge富集。亲铜元素Cu、Pb、Zn、Ag呈不均匀、可变分布。其中最显著的是Zn,其在尾矿中的浓度可达230 g/t。这些结果可用于确定尾矿的利用方向和评价尾矿对环境的影响。
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CHEMICAL COMPOSITION OF TAILINGS ENRICHMENT OF MAGNETITE QUARTZITES OF THE KRYVYI RIH BASIN
The major and minor element compositions of the tailings at the Kryvyi Rih processing plants (i.e., Inguletsky, ArcelorMittal Kryvyi Rih, and Central) were studied. A good relationship between the composition of the tailings and the mined ore, which was to be enriched, was confirmed. The main trends in the techno geochemical changes in the process of enrichment were determined. Differences were measured of the tailings composition between various processing plants of the Kryvyi Rih basin. That is, the tailings from the Ingulets plant are more ferruginous with an iron content of 23.7 wt % and are almost twice as high compared to those of the Central and ArcelorMittal Kryvyi Rih plants. Tailings from ArcelorMittal Kryvyi Rih are more carbonaceous and aluminous and have low iron and silicon contents. Tailings of the Central plant are more siliceous and have minimum of alumina and carbonates and have the average iron content. In terms of the major elements, the tailings are generally enriched in silicon, aluminum, manganese, magnesium, calcium, sodium, potassium, phosphorus, sulfur, and depleted in iron and titanium, compared to the original ore. In terms of minor elements, the tailings are generally enriched in the some lithophile (including rare earth) elements Sr, Y, Sc, Li, and partially Zr, and depleted in elements that are concentrated in magnetite, Ni, Th, U, and Ge, compared to the original ore. The chalcophile elements Cu, Pb, Zn, Ag are characterized by an inhomogeneous and variable distribution. The most significant among them is Zn, which can have significant concentrations (up to 230 g/t in the tailings). These results can be used to determine the directions of tailing using and to assess the impact of tailings on the environment.
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