Article
Article name Antimony oxide form enrichment line оn the example of the «Zhipkhosha» field
Authors Mikheev G.. senior researcher, miheev@irgiredmet.ru
Bogidaev S.. doctor of technical sciences, professor, researcher, fluorit2001@mail.ru
Bibliographic description
Category Earth science
DOI 622.765.061
DOI 10.21209/2227-9245-2021-27-5-36-43
Article type
Annotation The antimony industry in the Russian Federation is currently experiencing difficult times. The main enterprise that produces and enriches antimony today is GeoProMining LLC, which owns a processing plant at the Syralakhskoye field (Yakutia), where the ore of the Sentanchansky field is processed, production on a smaller scale is carried out in the Krasnoyarsk Territory at the Udereyskoye field of the Novoangarsky GOK, and associated production is carried out at the Olympiadinsky GOK from the tailings of the gold-antimony ore enrichment. Many fields are not being developed at all. The reason for this is the profitability of the development and processing of antimony deposits, due to the low price of metal and the difficulty of obtaining conditioned concentrates due to the presence of metal oxide forms in antimony-containing deposits. Oxide forms of metal in deposits occur in the form of lenses and films, which complicates the enrichment (extraction) of such metal due to the lack of methods and methods or the high cost of processing. The article presents the relevance of the problem of extraction and processing of antimony ores. The reagent-collector of antimony oxide forms KCSb is presented and, based on its application, the parameters of flotation ore dressing of the Zhipkhosha deposit are developed, which contributes to a significant increase in metal recovery. It is noted that the use of КCSb is more effective in comparison with other known reagents used for the enrichment of antimony oxides. The results of studies of this collector reagent, when it is introduced into the technological scheme of flotation of antimony oxide forms, are obtained, which indicate the feasibility and effectiveness of its use. This fact is confirmed by a technical and economic calculation, according to which the conditional profit is 30-31 million rubles per 1 million processed ore per year. The increase in the resulting products (concentrate) is about 700-800 tons, with a quality (antimony content) of 32-36 %, corresponding to the KSUF-3 brand. This method is recommended for use in various antimony and antimony-containing deposits containing oxide minerals (from 10 % or more)
Key words flotation enrichment; collecting reagent; antimony oxide; extraction; antimony; Zhipkhosha deposit; conditioned concentrate; kinetics; flotation scheme; development of the scheme
Article information Mikheev G., Bogidaev S. Antimony oxide form enrichment line оn the example of the «Zhipkhosha» field // Transbaikal State University Journal, 2021, vol. 27, no. 5, pp. 36–43. DOI: 10.21209/2227-9245-2021-27-5-36-43.
References 1. Abramov A. A. Pererabotka, obogashcheniye i kompleksnoye ispolzovaniye tverdyh poleznyh iskopayemyh (Processing, enrichment and complex use of solid minerals). Moscow: Gornaya kniga, 2019, vol. 2, p. 298. 2. Abramov A. A. Flotatsionnye metody obogascheniya (Flotation methods of enrichment). Moscow: Gornaya kniga, 2016, р. 600. 3. Avdokhin V. M. Osnovy obogascheniya poleznyh iskopayemyh: v 2 t. (Fundamentals of mineral processing: in 2 volumes. Moscow: Gornaya kniga, 2017, t. 1, 416 p., t. 2. 310 p. 4. Voznesensky A. S., Kolodina I., Shkuratnik V. L. Metody i sredstva izucheniya bystroprotekayuschih protsessov (Methods and means of studying fast-flowing processes). Moscow: Gornaya kniga, 2017, р.. 306. 5. Dyachkova A., Ilina V.A., Romanov S. Ekonomicheskiye i infrastrukturnye problemy gornopromyshlennogo kompleksa Rossii (Economic and infrastructural problems of the mining complex of Russia). Moscow: Gornaya kniga, 2017, р. 36. 6. Livov V. V., Romashev A. O. Proyektirovaniye obogatitelnyh fabric (Design of concentrating factories). SPb .: LEMA, 2019, р. 34. 7. Malakhov R. G. Ekonomicheskaya teoriya (Economic theory). Moscow: Reed Group, 2016, р. 448. 8. Matveyeva T. N., Gromova N. K., Lantsova L. B. Fiziko-tehnicheskiye problemy razrabotki poleznyh iskopayemyh (Physical and technical problems of the development of useful minerals), 2017, no. 6, p. 155‒162. 9. Nikolskaya N. I., Fedotov K. V. Proyektirovaniye obogatitelnyh fabric (Design of concentrating factories). Moscow: Gornaya kniga, 2017, р. 531. 10. Portsevsky A. K. Vybor ratsionalnoy tehnologii dobychi rud. Geomekhanicheskaya otsenka sostoyaniya nedr. Ispolzovaniye podzemnogo prostranstva. Geoekologiya (Choice of rational technology of ore extraction. Geomechanical assessment of the state of the subsoil. Use of underground space. Geoecology). Moscow: Publishing house Mosk. state Mining University, 2017, р. 768. 11. Solozhenkin P. M. Problemy i perspektivy effektivnoy pererabotki mineralnogo syriya v XXI veke. Plaksinskiye chteniya 2019: materialy mezhdunar. soveshchaniya (Problems and prospects of effective processing of mineral raw materials in the XXI century. Plaksin readings 2019: materials of the international. meetings). Irkutsk: Reprocenter A1, 2019, pp. 172–175. 12. Trusova V. V., Burdunov A. Ye. Tehnologii obogashcheniya poleznyh iskopayemyh. IRNITU (Technologies of mineral processing. IRNITU). Irkutsk: Publishing house IRNITU, 2019, 164 p. 13. Tsinyu Men. Metallurgiya (Metallurgy). 2017, vol. 38, no. 5, p. 25‒29. 14. Chernikov YU. Sistemny analiz i issledovaniye operatsiy (System analysis and operations research). Moscow: Publishing house Moscow State Mining University, 2017, р. 365.
Full articleAntimony oxide form enrichment line оn the example of the «Zhipkhosha» field