Журналы →  CIS Iron and Steel Review →  2023 →  №2 →  Назад

Preparation of Raw Materials
Название Study of the process of oxidizing-sodium roasting of industrial vanadium-containing ferrophosphorus and vanadium slags
DOI 10.17580/cisisr.2023.02.03
Автор Yu. I. Sukharnikov, D. K. Aitkulov, S. V. Ermishin, N. M. Seidakhmetova
Информация об авторе

RSE "National Center for Integrated Processing of Mineral Raw Materials of the Republic of Kazakhstan" (Almaty, Kazakhstan)

Yu. I. Sukharnikov, Dr. Eng., Prof., Dept. of Metallurgy of Ferrous, Non-Ferrous and Rare Metals, Chief Researcher of the Laboratory of Silicon-Carbon Composites, e-mail: scc04@mail.ru
D. K. Aitkulov, Dr. Eng., Academician of the National Academy of Engineering of the Republic of Kazakhstan, Director of the Dept. of Scientific Research
S. V. Ermishin, Leading Engineer
N. M. Seidakhmetova, PhD, Senior Researcher of the Dept. of Scientific Research, e-mail: erkej@mail.ru

Реферат

Among the alloying metals used in the smelting of high-quality steels, vanadium occupies a special place. Its introduction into steel, even in very small amounts (tenths and hundredths of a percent), provides significant improvement in the service properties of metal structures made from it. Global demand for vanadium ferroalloys exceeds its production. Lack of vanadium raw materials is the limiting factor for increasing production of ferrovanadium. Siliceous-carbonaceous ores of Karatau in Kazakhstan, amounting to more than four billion tons, are among the world's largest vanadium reserves. Although these ores contain up to 1% V2O5, they cannot be enriched, and there are no technologies for the rational vanadium extraction from them. This article presents the results of studies on the extraction of vanadium from ferrophosphorus, obtained during the complex processing of these ores together with phosphorites in the process of obtaining yellow phosphorus. The processes of oxidizingsodium roasting of industrial vanadium-containing ferrophosphorus (1.5 % V) and vanadium slag (10 % V2O5) obtained during the converter processing of ferrophosphorus have been studied. It has been shown that watersoluble compound NaVO3 is forming during oxidizing roasting of ferrophosphorus or slag in mixed with Na2CO3. With aqueous acid leaching of ferrophosphorus roasting cinder, vanadium extraction into solution is achieved up to 81 %, and with leaching of slag cake with Na2CO3 – more than 92 %. Total V2O5 extraction is 75 %. Mastering of the technology for processing phosphate and vanadium-containing siliceous raw materials at Kazphosphate LLP will expand the raw material base of vanadium and will allow creating a production facility for smelting more than 200 tpy of 50 % ferrovanadium.

The article is based on the research findings of Project АР 08856736 under the Ministry of Education and Science of the Republic of Kazakhstan.

Ключевые слова Vanadium-containing ferrophosphorus, vanadium slag, oxidation-sodium roasting, sodium vanadate, extraction of vanadium oxide (V)
Библиографический список

1. The concept of creation of metallurgical complex in Kyzylordinskaya region. 2014. pp. 20-23.
2. Nurabaev B. K., Nadyrbaev A. A., Tulegenov M. K., Tansykbaeva Zh. B. Deposits of chromium, nickel, cobalt and vanadium in Kazakhstan. Almaty. 2015. pp. 237-252.
3. Zhumankulova S. K., Zguchkov V. A., Alybaev Zh. A., Sukharnikov Yu. I. Use of vanadium quartzites in production of chromium ferroalloys. Proceedings of the International scientific and practical conference “Efficient techniologies for manufacture of non-ferrous, rare and noble metals”. Almaty. 2018. pp. 387–391. DOI: 10.31643/2018-7.39
4. Wahoud A., Alouche A., Abdulbake M. Sulfuric acid baking and leaching of spent sulfuric acid catalyst. Periodica Polytechnica Chemical Engineering. 2011. No. 55 (1). pp. 31–34. DOI: 10.3311/pp.ch.2011-1.06
5. Li M., Wei C., Fan G., Wu H., Li C., Li X. Acid leaching of black shale for the extraction of vanadium. International Journal of Mineral Processing. 2010. No. 95 (1–4). pp. 62–67. DOI: 10.1016/j.minpro.2010.04.002
6. Luo Y., Che X., Wang H., Zheng Q., Wang L. Selective extraction of vanadium from vanadium-titanium magnetite concentrates by non-salt roasting of pellets-H2SO4 leaching process. Physicochemical Problems of Mineral Processing. 2011. No. 57 (4). pp. 36–47. DOI: 10.37190/ppmp/138281
7. Baigenzhenov O. S., Yulussov S. B., Khabiyev A. T., Sydykanov M. M., Akbarov M. S. Investigation of the leaching process of rareearth metals from the black shale ores of greater Karatau. Complex Use of Mineral Resources. 2019. No. 310 (3). pp. 76–80. DOI: 10.31643/2019/6445.31
8. Kozlov V. A., Batrakova L. Kh.,Kuznetsov A. Yu., Bridzhet N. D., Saktaganova M. A. The Limitel liability company “Scientific and production corporation “Vanadium catalyst, LLC Balausa company. The method for vanadium raw material processing””. RF. RU2374344C2, 2009.
9. Chekmarev A. M., Buchikhin E. P., Parygin I. A., Smirnov K. M. Patterns of Extractive Leaching of Uranium and Vanadium from an Ore. Theoretical Foundations of Chemical Engineering. 2011. No. 45 (5). pp. 776–778.
10. Komekova N. A., Kozlov V. A., Shayakhmetova R. A. Acid Leaching Of Vanadium From Black Shales Of Big Karatau. Research Journal of Pharmaceutical, Biological and Chemical Sciences. 2016. Vol. 7 (2). pp. 1973–1982.
11. Komekova N. M., Kozlov V. A., Smirnov K. M., Shayakhmetova R. A., Nesterov K. N. Autoclave Leaching of Vanadium from Black Shale. Metallurgist. 2017. Vol. 60 (11–12). pp. 1186–1190. DOI: 10.1007/s11015-017-0427-7
12. Shevko V., Aitkulov D., Badikova A. Comprehensive Processing of Vanadium-Containing Black Shale Tailings. Periodica Polytechnica Chemical Engineering. 2022. No. 4. рр. 1-12. DOI: 10.3311/PPch.20050
13. Dzhumankulova S. K., Zhuchkov V. I., Alybaev Z. A., Bekenova G. K. Review of State and Prospects for Development of Vanadium Production in the Kazakhstan Republic. Metallurgist. 2020. Vol. 64 (1–2). pp. 75–81. DOI: 10.1007/s11015-020-00968-z
14. Kunaev A. M., Sukharnikov Yu. I., Levintov B. L. Pyrometallurgical processing of rare metal phosphorus-containing raw material. Kazakhstan, Almaty: Nauka. 1987. 246 p.
15. Genkin M. V., Shvetsov S. V. The method of ferrophosphorus processing with obtaining of phosphorus slag. RF Patent No. 2373142. Published: 20.11.2009. Bulletin No. 32.
16. Sukharnikov Yu., Aitkulov D. Obtaining vanadium products in the join processing of phosphate and vanadium-containing siliceous raw materials. Journal Webology. 2022. Vol. 19. No. 1. pp. 7623-7635.
17. Sirina T. P., Mizin V. G., Rabinovich E. M., Slobodin B. V., Krasnenko T. I. Extraction of vanadium and nickel from waste from thermal power plants. Ekaterinburg: Ural Branch of the Russian Academy of Sciences. 2001. 237 p.
18. Tarabrin G. K., Rabinovich E. M., Sukhov L. L., Vygovskaya I. V. et al. The method of vanadium extraction. RF Patent No. 2001132272/02 (034380). Published 28.11.2001. Bulletin No. 25.
19. Maxwell J. A., Wallace Merrill M. Method of boasting vanadium bearing materials. US Patent No. 3792150. 1974.
20. Sukharnikov Yu., Aitkulov D., Yermishin S., Bunchuk L., Terlikbaeva А., Кablanbekov А. Extraction of vanadium from Fe - P - V alloy. Journal Science and World. 2021. No. 6 (94).pp. 16-18.
21. Galuzo V. N., Kunaev A. M., Levintov B. L. Mineralogical and phase chemical composition of high-phosphorus slags. Vestnik Akademii nauk Kazakhskoy SSR. 1971. No. 2. pp. 26-30.

Полный текст статьи Study of the process of oxidizing-sodium roasting of industrial vanadium-containing ferrophosphorus and vanadium slags
Назад