ISSN 0536-1028 (Print)              ISSN 2686-9853 (Online)  

Volkov E. P., Anushenkov A. N. Developing the technology of mine stowing with processing tailings based hardening blends. Izvestiya vysshikh uchebnykh zavedenii. Gornyi zhurnal = News of the Higher Institutions. Mining Journal. 2019; 7: 5–13. DOI: 10.21440/0536-1028-2019-7-5-13

Introduction. Large-scale implementation of mine stowing method is a relevant tendency to improve the technology of underground mining.
Research aims to develop and propose an effective technology of mine stowing with processing tailings based hardening blends.
Research methods include experimental investigation of mine stowing technology with processing tailing based hardening blends and the determination of basic characteristics of an artificial massif.
Analysis. The present work provides the results of research on conventional technologies of hardening blends preparations and the one developed by the authors; the results prove the effectiveness of hydropercussion-cavity activation of solution materials.
Summary. The analysis of the stowing manufacturing technologies under investigation has shown the effectiveness of the developed method based on the hydropercussion-cavity treatment of hardening blends materials.

Key words: underground mining; stowing; hardening blends; processing tailings; hydropercussioncavity blending machine



1. Bitimbaev M. Zh., Krupnik L. A., Shaposhnik Iu. N. Theory and practice of stowing when developing mineral deposits. Almaty: Dauir Publishing; 2012. (In Russ.)
2. Krupnik L. A., Shaposhnik Iu. N., Shaposhnik S. N., Tursunbaeva A. K. Technology of stowing at mining enterprises of Kazakhstan. Fiziko-tekhnicheskie problemy razrabotki poleznykh iskopaemykh = Journal of Mining Science. 2013; 1: 95–105. (In Russ.)
3. Chen G. Y. and Huang W. H. Investigation on blending CFB ash with blast furnace slag as replacement for Portland cement used in concrete binders. Adv. Mater. Res. 2013; 723: 623–629.
4. Kroupnik L., Abdykalykova R., Elemesov K., Sładkowski A., Shaposhnik Yu., Shaposhnik S. Combined pipeline transport for hardening filling Mixtures. VIII Int. Conf. "Transport Problems". Сatowice, Poland, 2016. Р. 258–265.
5. Deng D. Q., Liu L., Yao Z. L., Song K. I., and Lao D. Z. A practice of ultra-fine tailings disposal as filling material in a gold mine. J. Environ. Manage. 2017; 196: 100–109.
6. Hu S. G., Lu X. J., Niu H. L. and Jin Z. Q. Research on preparation and properties of backfilling cementation material based on blast furnace slag. Adv. Mater. Res. 2011; 158: 189–196.
7. Krupnik L. A., Shaposhnik Iu. N., Shaposhnik S. N. The development of backfilling technology in terms of Novo-Leninogorsky mine planning. Gornyi informatsionno-analiticheskii biulleten (nauchnotekhnicheskii zhurnal) = Mining Informational and Analytical Bulletin (scientific and technical journal). 2015; 8: 25–32. (In Russ.)
8. Ke X., Zhou X., Wang X., Wang T., Hou H., and Zhou M. Effect of tailings fineness on the pore structure development of cemented paste backfill. Constr. Build. Mater. 2016; 126: 345–350.
9. Grebenkin S. S., Melnik V. V. Advanced technologies of underground mining of mineral deposits reserves with goaf stowing. Donetsk: VIK Publishing; 2013. (In Russ.)
10. Nikolaev E. I., Gultiaev V. G., Kozhbanov K. Kh. New technology of preparing hardening blend at Orlovsky mine. Gornyi zhurnal = Mining Journal. 2002; 5: 58–60. (In Russ.)
11. Krupnik L. A., Shaposhnik Iu. N., Shaposhnik S. N. The prospects of stowing transportation to the shaft at mining enterprises in Kazakhstan. Gornoe oborudovanie i elektromekhanika = Mining Equipment and Electromechanics. 2015; 4: 21–28. (In Russ.)
12. Volkov E. P., Anushenkov A. N., Guzanov P. S., Lytneva A. E. Stowing solutions based on ore processing gangue in the systems of Norilsk industrial region deposits underground mining systems. Gornyi zhurnal = Mining Journal. 2015; 6: 85–87. (In Russ.)
13. Balabyshko A. M. Rotor devices with flow modulation and their application in the industry. Moscow: Nedra Publishing; 1992. (In Russ.)
14. Volkov E. P., Stovmanenko A. Iu., Anushenkov A. N. Mixing-activating device for liquid media. Patent RF no. 2550609; 2015.
15. Anushenkov A. N., Volkov E. P., Stovmanenko A. Iu. A method of preparing cast hardening stowing blends based on the finely-dispersed filler. Patent RF no. 2607329; 2017.

Received 2 July 2019




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