Journals →  Eurasian mining →  2019 →  #1 →  Back

RAW MATERIAL BASE
ArticleName Rich iron ore in the Belgorod Region of the Kursk Magnetic Anomaly as potential resource for metallization
DOI 10.17580/em.2019.01.01
ArticleAuthor Gzogyan T. N., Gzogyan S. R., Grishkina E. V.
ArticleAuthorData

Belgorod State University, Belgorod, Russia:

Gzogyan T. N., Head of laboratory, mehanobr1@yandex.ru
Gzogyan S. R., Senior Researcher
Grishkina E. V., Junior Researcher

Abstract

Results of researches of natural rich ores for the purpose of potential possibility of reception of high-quality iron ore production as raw materials for metallization and their complex processing are resulted. The mineral and chemical composition of rich iron ores is studied in detail. It is established that the main minerals of rich ores are iron oxides and hydroxides, siderite in various combinations with admixture of quartz and silicates, and also single aggregates of iron sulfides. It is shown that the diversity of the mineral types of rich iron ore deposits of KMA due to different mineral composition of the parent rocks and the manifestation of the secondary processes (carbonization, chloritization, somatization). Significant heterogeneity of rich ores in composition and properties is noted, in particular, on the example of chamosite. In addition, rich iron ore KMA have a complex geological and mineralogical structure. The results of a detailed study of the composition and properties of rich iron ores and the allocation on their basis of industrial and genetic types served as the basis for the development of their geological and technological classification. The developed technological classification of rich iron ores of the region, given in the work, can be used in the development and design of technological regulations of the concentrator in order to obtain raw materials for metallization.

keywords Rich in iron ore, plating, martite, hematite, hydrohematite, goethite, hydrogoethite, samoset, carbonization, chloritization, enrichment
References

1. Orlov V. P., Verigin M. I., Golivkin N. I. Iron ore reserves of Russia. Moscow : Geoinformmark, 1998. 842 p.
2. Yushina T. I., Petrov I. M., Avdeev G. I., Valavin V. S. Analysis of state-of-the-art in iron ore mining and processing in Russian Federation. Gornyi Zhurnal. 2015. No. 1. pp. 41–47. DOI: 10.17580/gzh.2015.01.08
3. Pomelnikov I. I. State and prospects of iron-ore industry development with stable decrease of global iron ore prices. Gornyi Zhurnal. 2015. No. 7. pp. 78–87. DOI: 10.17580/gzh.2015.07.11
4. Rusinovich I. A., Nebosenko V. F. Gostichshevo iron ore deposit. Voronezh, 1964. 81 p.
5. Dunai E. I., Belykh V. I., Pogoreltsev I. A. Industrial capacity of mineral and raw material resources in the Belgorod Region. Gornyi Zhurnal. 2014. No. 8. pp. 37–40.
6. Nikulin I. I. Connection of rich iron ore with metamorphogenic parent rocks in the Kursk Magnetic Anomaly. GIAB. 2015. No. 6. pp. 294–299.
7. Gzogyan T. N., Gzogyan S. R. Material constitution of rich iron ore in the Kursk Magnetic Anomaly. Nauchnye vedomosti BelGU. 2018. Vol. 42, No. 2. pp. 131–141.
8. Bulgakova A. P. Epigenetic conversion of rich iron ore in the Kursk Magnetic Anomaly. Synopsys Cand. Geol.-Mineral. Sci. Thesis. Voronezh, 1971. 19 p.
9. Nikulin I. I. Geology and genesis of supergenic iron ore (in terms of the Kursk Magnetic Anomaly). Synopsys Doc. Geol.-Mineral. Sci. Thesis. Moscow, 2017. 41 p.
10. Ergin Gülcan, Özcan Y. Gülsoy. Performance evaluation of optical sorting in mineral processing–Acasestudy with quartz, magnesite, hematite, lignite, copper and gold ores. International Journal of Mineral Processing. 2017. Vol. 169. pp. 129–141
11. Wills B. A., Finch J. Wills’ Mineral Processing Technology: An Introduction to the Practical Aspects of Ore Treatment and Mineral Recovery. 8th ed. Oxford : Butterworth-Heinemann, 2015. 512 p.
12. Papalambros P. Y., Wilde D. J. Principles of optimal design: modeling and computation. Third ed. Cambridge : Cambridge University Press, 2017. 376 p.

Full content Rich iron ore in the Belgorod Region of the Kursk Magnetic Anomaly as potential resource for metallization
Back