Share:


Mine technical system with repeated geotechnology within new frames of sustainable development of underground mining of caved deposits of the Zhezkazgan field

    Dossanbay Bekbergenov Affiliation
    ; Gulnar Jangulova   Affiliation
    ; Khaini-Kamal Kassymkanova Affiliation
    ; Bakytbek Bektur Affiliation

Abstract

The article outlines the principles of design of repeated geotechnology at the development of reserves in the conditions of collapsed deposits of the Zhezkazgan field for the purpose of rational management of underground mining processes. This is an integral design principle of the mine technical system with repeated geotechnology, and the foundation for the practice of designing and operation of the subsoil at the development of mineral deposits. At the designing of a mine technical system with repeated geotechnology aimed at the development of collapsed subsoil reserves, the risks and natural and man-made emergencies related to the production are taken into account. Under modern conditions, mining design cannot be employed in isolation from the principles of sustainable development, which implies not only orthodox meaning but also the development that ensures society existence without threatening the needs of future generations. In this connection, the ongoing research incorporates designing of mine technical systems with due account for the principles of sustainable development, which correspond to the current priority direction related to the development of repeated geotechnology within new frames of sustainable development of repeated underground mining of reserves in the conditions of collapsed deposits of the Zhezkazgan field. This contributes to the efficient use of resource-replenishing repeated geotechnology and the possibility of the most complete development of the georesource subsoil potential due to the enhancement of the ore potential at the operation of underground mines of Kazakhmys Corporation Ltd., which is one of the largest copper mining companies in the world.  

Keyword : geotechnology, collapse, rock mass, underground mining, design and exploitation of mineral resources, mineral deposits, the designing of a mine technical system with repeated geotechnology

How to Cite
Bekbergenov, D., Jangulova, G., Kassymkanova, K.-K., & Bektur, B. (2020). Mine technical system with repeated geotechnology within new frames of sustainable development of underground mining of caved deposits of the Zhezkazgan field. Geodesy and Cartography, 46(4), 182-187. https://doi.org/10.3846/gac.2020.10571
Published in Issue
Dec 30, 2020
Abstract Views
206
PDF Downloads
149
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

References

Agoshkov, M. I., Boryasov, S. S., & Boyarskikh, V. A. (1983). Development of ore and non-metallic deposits. Nedra.

Ahanov, T. M., & Prokushev, G. A. (2010). Mining technology of Zhezkazgan Field, condition and development prospects. Mining Magazine of Kazakhstan, 1, 12–17.

Bekbepgenov, D. K. (2012, October 11–12). On the repeated underground mining technology of uncontrolled ore caving with a high degree of reserves extraction in caved and weakened areas of Zhezkazgan. In Abstracts of the International Scientific and Practical Conference “Mining and Metallurgy in Kazakhstan. Condition and Prospects” Dedicated to the 100th Anniversary of Academician Baikonuvov Omirkhan Aimaganbetovich (pp. 52–55). KazNTU, Almaty.

Bekbepgenov, D. K. (2013). The key issue of repeated development of the remaining reserves of the caved area of the Zhezkazgan Field: Low-cost and effective underground technology. In Problems and Ways of Innovative Development of Mining Industry: Materials of the Sixth International Scientific and Practical Conference (pp. 149–154). Almaty.

Bektur, B. K., Bekbergenov, D. K., Jangulova, G. K., Zherebko, L., & Seidakhmetova, Zh. (2019). Study of the effect of refining on the sustainability of the level of the system with ore selfminingon the deep levels of the “DNK” colliery. International Journal of Civil Engineering and Technology (IJCIET), 10(1), 2090–2103.

Bexeitova, R., Veselova, L., Kassymkanova, K.-K., Jangulova, G., Baidauletova, G., Zhalgasbekov, Y., Burlibayeva, S., & Turekhanova, V. (2018). The problem of environmental safety of the fields of mining industrial production of arid zone of Kazakhstan. Geodesy and Cartography, 44(4), 146–155. https://doi.org/10.3846/gac.2018.4314

Chabdarova, Yu. I., Zhuzhgov, Yu. V., & Bukin, A. N. (1980). Rock pressure in the anticline structures of Dzheskazgan. Nauka.

Head Research Institute of Kazakhmys Corporation Ltd. (2013). Feasibility Study “Zhezkazgan Field development master plan”: Vol. 6. Preliminary studies and proposals on directions of development and the procedure of underground mining” (Explanatory note P13-19/05).

Humphreys, D. (2001). Sustainable development: Can the mining industry afford it? Resources Policy, 27(1), 1–7. https://doi.org/10.1016/S0301-4207(01)00003-4

Imenitov, V. R. (1978). Underground mining processes at the development of ore deposits. Nedra.

Kaplunov, D. R. (2014). Conditions of sustainable development of the Russia mineral complex. In D. R. Kaplunov, M. V. Rylnikova, & D. N. Radchenko, Mining Informational and Analytical Bulletin, 10, 3–11.

Kazakhmys Corporation Ltd. (2010). Operating procedure for the development of reserves of the 12bis block of the Ann-3-II deposit of the Annensky Mine. Laboratory of Mining Production, Zhezkazgan.

Mining Institute after D. A. Kunayev. (2010). Methodical guidelines on underground mining of flat and inclined ore deposits of the Zhezkazgan Field, including in the regions adjacent to the weakened and caved areas. Production Association “Zhezkazgantcvetmet” of Kazakhmys Corporation Ltd., Almaty, Zhezkazgan.

Nugmanov, K. Kh., Chabdarova, Yu. I., Bukin, A. N., & Shamganova, L. S. (2003). Particularities of loads redistribution on rib pillars in the process of their excavation. In Collection of Materials of the International Conference “Geodynamics and Stress Condition of the Subsoil” (pp. 386–392). Novosibirsk.

Pimentel, B. S., Gonzalez, E. S., & Barbosa, G. N. O. (2016). Decision-support models for sustainable mining networks: Fundamentals and challenges. Journal of Cleaner Production, 112(Part 4), 2145–2157. https://doi.org/10.1016/j.jclepro.2015.09.023

Ruppeneit, K. V. (1975). Deformability of the fractured rock mass. Nedra.

Shamganova, L. S., & Chabdarova, Yu. I. (2006). The structural element of the room-and-pillar system. Kazakhstan Industry, 5, 92–94.

Temporary methodical guidelines on mining in weakened areas of underground mines of the Zhezkazgan field. (2000). Almaty, Zhezkazgan.

Trubestkoy, K. N., Kaplunov, D. R., Rylnikova, M. V., & Radchenko, D. N. (2006). Problems of integrated development of superlarge fields of strategic raw materials. K. N. Trubestkoy & D. R. Kaplunov (Eds.). Moscow.

Trubetskoy, K. N., Kaplunov, D. R., & Rylnikova, M. V. (2012). Development of theoretical foundations of designing and safe operation of mining technical systems based on combined physical-technical and physical-chemical geotechnologies for the development of natural and technogenic solid mineral deposits (pp. 457–469). Research Institute of Comprehensive Exploitation of Mineral Resources of the Russian Academy of Sciences.

Zherebko, L. N., Dzhangulova, G. K., & Pivovarova, L. M. (2008). Formation of a cave roof in the overlying rock mass represented by layers of different thickness. Scientific and technical support of mining production. Proceedings of the Mining Institute after D. A. Kunaev, 75, 18–21.