ArticleName |
Electro-hydraulic disintegration technology for diamond-bearing rocks |
ArticleAuthorData |
NPF «Electrohidrodinamica» (St. Petersburg, Russia):
Martynov N. V., Deputy Director, Candidate of Engineering Sciences, Associate Professor, nik_mart51@mail.ru Avramov D. V., Chairman of the Board of Directors, Candidate of Engineering Sciences, dvavramov@gmail.com
St. Petersburg State University of Architecture and Civil Engineering (St. Petersburg, Russia):
Dobromirov V. N., Professor, Doctor of Engineering Sciences, Professor, viktor.dobromirov@mail.ru |
References |
1. Malanyin М. I., Krupenina А. P., Cherkashina М. М., Rumyantseva V. V. Benefication of diamond-bearing bedrock and sand. Ed. by G. F. Shvetsov. Мoscow: Gosgeoltekhizdat. 1961. 243 p. 2. Chaadaev A. S., Zyryanov I. V., Bondarenko I. F. The state-of-the art and prospects of the development of mineral processing technologies at diamond mines of AK ALROSA (PAO). Gornaya Promyshlennost'. 2017. No. 2. pp. 7–13. 3. Bogdanovich A. V., Vasilyev A. M., Urnysheva S. А. Effect of diamondbearing ores preparation on the technology of their beneficiation. Obogashchenie Rud. 2017. No. 2. pp. 10–15. DOI: 10.17580/or.2017.02.02. 4. Shi F. Determination of ferrosilicon medium rheology and stability. Minerals Engineering. 2016. Vol. 98. pp. 60–70. 5. Grewal I., Lundt M., Wong D., Tse W. Recent developments in preconcentration using dense media separation. URL: https://www.911metallurgist.com/blog/wp-content/uploads/2016/05/Dense-Media-Separation.pdf (accessed: 12.12.2019). 6. Rousseau M., Blancher S. B., Contessotto R., Wallmach T. Beneficiation of low grade manganese ore by jigging in a specially designed ore dressing unit. Proc. of the XXVIII IMPC. Quebec City, Canada, 11–15 September 2016. Vol. 6. pp. 3843–3851. 7. Grigor’ev Y. M., Mironov V. P., Tarasov P. P. Laboratory selective disintegration of kimberlite. Fiziko-tekhnicheskie Problemy Razrabotki Poleznykh Iskopayemykh. 2017. No. 2. pp. 52–58. 8. Vaisberg L. А., Zarogatskiy L. P., Safronov А. N. Vibration disintegration as the basis of energy-saving technologies in mineral processing. Obogashchenie Rud. 2001. No. 1. pp. 5–9. 9. Vaisberg L. А., Kameneva Е. Е., Aminov V. N. Assessment of technological capabilities for managing the quality of crushed stone during the disintegration of building rocks. Stroitelnye Materialy. 2013. No. 11. pp. 30–34. 10. Vaisberg L. А., Zarogatskiy L. P., Safronov А. N. Disintegration of kimberlite ores, ensuring the preservation of diamond crystals. Obogashchenie Rud. 2003. No. 3. pp. 16–20.
11. Pat. 2247607 Russian Federation. 12. Prokopenko А. V., Shishkin А. А., Kononko R. V., Chumak Е. G., Savitskiy V. B., Savitskiy L. V., Amelin S. А., Karnatskiy V. А., Kamornikov S. V., Aksenov I. V. Study of the preservation of the natural quality of diamonds during regrinding of kimberlites in a high-pressure roll press POLYCOM® 09/6-0. Zolotodobycha. 2011. No. 5. pp. 6–7. 13. Yutkin L. А. Electrohydraulic effect and its application in industry. Leningrad: Mashinostroenie, 1986. 253 p. 14. Avramov D. V., Dobromirov V. N., Martynov N. V. Electro-hydraulic method for beneficiation of gold-containing clay ore of weathering crust. Zolotodobycha. 2019. No. 7. pp. 13–18. 15. Dobromirov V. N., Avramov D. V., Martynov N. V. Technology of liquid disinfection based on the electrohydraulic effect. Voda i Ekologiya: Problemy i Resheniya. 2019. No. 2. pp. 17–23. 16. Finkelshteyn G. А., Kurets V. I., Zukerman V. A., Izoitko V. М. Electropulse disintegration selectivity. Obogashchenie Rud. 1989. No. 4. pp. 36–37. 17. Finkelshteyn G. А., Shuloyakov A. D., Kurets V. I. Complex installation for disintegration and separation of cut crystal raw materials from productive rocks. Obogashchenie Rud. 1989. No. 4. pp. 40–41. 18. Shuloyakov A. D., Finkelstein G. A., Zukerman V. A., Kurets V. I. Electric pulse disintegration as a most efficient method for selective destruction of minerals. Proc. of XIX International mineral processing congress, Colorado, USA, 1995. pp. 147–150. 19. Kurets V. I., Usov А. F., Zukerman V. A. Electropulse material disintegration. Apatity: Publishing house of KolaSC of RAS, 2002. 324 p. 20. High voltage pulse power fragmentation. URL: http://www.selfrag.com/about/ (accessed: 12.12.2019). 21. Kalinin E. V. Engineering-geological calculations and modeling. Мoscow: MSU Publishing house, 2006. 256 p. 22. Meyer E. J., Craig I. K. The development of dynamic models for a dense medium separation circuit in coal beneficiation. Minerals Engineering. 2010. Vol. 23, Iss.10. pp. 791–805. 23. Young B. B., Millman A. P. Microhardness and deformation characteristics of ore minerals. Trans. Inst. Min. Metall. 1964. Vol. 73. pp. 437–466. 24. Dvorkin L. I., Dvorkin O. L. Basics of concrete science. Saint Petersburg: StroyBeton, 2006. 691 p. 25. Dvoychenkova G. P., Minenko V. G., Kaplin А. I., Zuev А. V., Kovalenko Е. G., Amelin S. А. Intensification of the process of destruction of kimberlite rocks during processing of diamond raw materials using electrochemically treated water systems in self-grinding scheme. Modern problems of complex processing of natural and technogenic mineral raw materials: proc. of International meeting (Plaksin's Readings). St. Petersburg: Roza Mira, 2005. pp. 190–192. |