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The certificate of activation of minerals in the high speed mechanisms is this. Process of change of an energy condition of minerals in the course of mechanochemical activation in a disintegrator is described. Data on efficiency of handling of tails are provided in a supercritical drum mill with a reflector. It is shown that mechanoactivation of tails allows to increase significantly end-to-end extraction of zinc, lead and iron from substandard raw materials, thereby creating conditions for application it as construction materials. The model of an economic evaluation of technology of utilization of tails is offered.

About the Author

V. I. Golik
North Caucasian state technological university
Russian Federation

Doctor of Technical Sciences, Professor of Department Mining

Russia, 62021, Republic of North Ossetia-Alania Vladikavkaz, Nikolaeva str., 44



1. Golik V.I. Komashhenko V. I., Drebenshtedt K. Mechanochemical Activation of the Ore ind Coal Tailings in the Desintegrators//Mine Planning and Equipment Selection. − Springer Interna-tional Publishing, Switzerland. − 2014. − Pp. 56-61.

2. Franks, DM, Boger, DV, Côte, CM, Mulligan, DR. Sustainable Development Principles for the Disposal of Mining and Mineral Processing Wastes// Resources Policy. – 2011. –Vol. 36. – No. 2. – Р. 114-122.

3. Golik V., Komashchenko V., Morkun V. Innovative technologies of metal extraction from the ore processing mill tailings and their integrated use//Metallurgical and Mining Industry. – 2015. – №3. – Р. 49-52.

4. Hint I.A. UDA- tehnologija: problemy i perspektivy. [Removal technology: problems and prospects.] – Tallinn, 1981 – 76 p.

5. Golik V.I., Stradanchenko S.G, Maslennikov S.A. Experimental Study Of Non-Waste Recycling Tailings Ferruginous Quartzite//Research India Publications. – №15 (2015). – Рp. 35410-35416.

6. Komashhenko V.I., Vasil'ev P.V., Maslennikov S.A. Tehnologijam podzemnoj razrabotki mestorozhdenij KMA – nadezhnuju syr'evuju osnovu [Technology of underground mining KMA - reliable raw material base] // Proceeding of the TSU. – Earth sciences. – 2016. – No. 2. – Pp. 101-114.

7. Komashhenko V.I. Jekologo-jekonomicheskaja celesoobraznost' utilizacii gornopromyshlennyh othodov s cel'ju ih pererabotki [Ecological and economic feasibility of utilization of mining wastes for recycling] // Proceeding of the TSU. – Науки о Земле. – 2015. – No. 4. – Pp. 23-30.

8. Bian Zhengfu, Miao Xiexing, Shaogang Lei, Chen Shen-en, Wang Wenfeng, Struthers Sue. The challenges of reusing mining and mineral-processing wastes // Science. – 2012. – Vol. 337. – No. 6095. – P. 702-703.

9. Packey D. J. Multiproduct mine output and the case of mining waste utilization // Resour. Policy. – 2012. – Т. 37. – No. 1. – Р 104-108.

10. Harris J. M., Roach B. Environmental and Natural Resource Economics. A Contemporary Approach. –M. E. Sharpe, Inc., Armonk, New York. – 2013. – Р. 246.

11. Rilnikova M.V. Uslovija ustojchivogo funkcionirovanija mineral'no-syr'evogo kompleksa Rossii [Terms of stable functioning mineral feed complex of Russia] // Mining informational and analytical bulletin – Individual articles (special issue). – 2014. – Т. 2. – Pp. 25-32.

12. Jastrebinskij M.A. Razrabotka jekologo-jekonomicheskoj klassifikacii tehnogennyh vtorichnyh resursov, soderzhashhih cvetnye, dragocennye metally i redkozemel'nye jelementy [Working out of ekologo-economic classification of the technogenic secondary resources containing color, precious metals and rare-earth elements] // Mining informational and analytical bulletin. – 2013. – No. 1. – Pp. 78-84.


For citations:

Golik V.I. ACTIVATION OF WASTE MINING PRODUCTION IN LEACHING OF METALS. Gornye nauki i tekhnologii = Mining Science and Technology (Russia). 2016;(4):3-9. (In Russ.)

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