Название |
Environmental assessment of geomechanical behavior of lithosphere in sustainable development of mineral resources |
Информация об авторе |
Academician Melnikov Institute of Comprehensive Exploitation of Mineral Resources—IPKON, Russian Academy of Sciences, Moscow, Russia
Yu. P. Galchenko, Chief Researcher, Professor, Doctor of Engineering Sciences, schtrek33@mail.ru |
Реферат |
The technological paradigm formulated for the mineral sector exclusively on the basis of economic imperative, and the related extensive development of the mining industry has led to the fact that for the last 100 years the fivefold growth in the world population is provided with the multiple expansion of mineral production with the ensuing global and local environmental consequences for all base geospheres of the Earth. Based on the cognitive analysis of the interaction between Man and Nature, the necessity of creating methods for quantifying the environmental consequences of man-made changes in the subsoil in the process of economic development is substantiated. The unified methodological approach to the quantification of mining-induced changes in the base geospheres of the Earth is proposed. It is shown that the use of the unified methods can enable comparing and selecting mining technologies not only by technical and economic indicators, but, above all, by the environmental consequences of their application. The analysis of changes in geospheres in the course of development of natural-andtechnical systems using convergent mining technologies shows that this modification trend in the mining practice ensures reduction in the adverse effect of the man-made geoecological factors on all base geospheres of the Earth. The proposed methodological approaches to the quantification of ecological changes in the base geospheres of the Earth in the course of development of mineral resources allow taking into account the inherent characteristics of formation and impact of mining-induced factors on the ecosphere of our planet. |
Библиографический список |
1. Saulova T. A., Bas V. I. Safety of technosphere. Krasnoyarsk : SibGU, 2021. 86 p. 2. Khvan T. A. Ecological framework of nature management : Textbook. 6th ed. Moscow : Yurayt, 2019. 253 p. 3. Larionov N. M., Ryabyshenkov A. S. Industrial ecology : Textbook and laboratory manual. 4th revised and enlarged edition. Moscow : Yurayt, 2023. 472 p. 4. Ozaryan Yu. A., Bubnova M. B., Usikov V. I. Technique of remote monitoring of natural–technical systems (in terms of the mining areas of in south of Russia’s Far East). Gornyi Zhurnal. 2020. No. 2. pp. 84–89. 5. Freytag K., Pulz K. The New Federal Nature Conservation Act from the perspective of mining projects. World of Mining–Surface & Underground. 2010. Vol. 62(4). pp. 214–221. 6. Castilla-Gómez J., Herrera-Herbert J. Environmental analysis of mining operations: Dynamic tools for impact a ssessment. Mineral Engineering. 2015. Vol. 76. pp. 87–96. 7. Sala S., Ciuffo B., Nijkamp P. A systemic framework for sustainability assessment. Journal Ecological Economics. 2015. Vol. 119. pp. 314–325. 8. Qiming Zhang, Enyuan Wang, Xiaojun Feng, Yue Niu, Muhammad Ali et al. Rockburst risk analysis during high-hard roof breaking in deep mines. Natural Resources Research. 2020. Vol. 29, No. 6. pp. 4085–4101. 9. Panzhin A. Identification of geodynamic movements based on the results of geodetic monitoring measurements. Problems of Complex Development of Georesources : Proceedings of VIII International Scientific Conference. E3S Web of Conferences. 2020. Vol. 192. 04001. 10. Burmanov O. P. Methodology and tools of ecological–economic analysis of regional development. Novosibirsk : Izdatelstvo IEOPP SO RAN, 2021. 441 p. 11. Bodriyyar Zh. Fatal strategies. Moscow : Ripol-Klassik, 2019. 352 p. 12. Perti R., Stein W., Dahmen D., Buschhüt K. Sustainable follow-up use of recultivated surfaces. World of Mining–Surface & Underground. 2013. Vol. 65(2). pp. 92–101. 13. Jian Zhou, Chuanqi Li, Mohammadreza Koopialipoor, Armaghani D. J., Binh Thai Pham. Development of a new methodology for estimating the amount of PPV in surface mines based on prediction and probabilistic models (GEP-MC). International Journal of Mining, Reclamation and Environment. 2021. Vol. 35, Iss. 1. pp. 48–68. 14. Galchenko Yu. P. Geomechanics of ecological crisis. Gornyi Zhurnal. 2023. No. 1. pp. 13–20. 15. Vorobev A. E., Lyashchenko V. I., Pukhalskiy V. N. Justification of safe stoping parameters for shallow underground mining of mineral resources under guarded facilities. Reproduce of the Resources, Low-Waste and Environmental Technology Exploitation of Mineral Resources : The 14th International Conference Proceedings. Moscow-Bishkek, 2015. pp. 95–98. 16. Panfilov E. I. Environmental safety of the subsoil and subsoil use. Stroitelnye materialy. 2004. No. 4. pp. 9–10. 17. Galchenko Yu. P., Eremenko V. A. Natural-and-technical systems of underground mineral mining using convergent technologies. Moscow : Gornaya kniga, 2021. 288 p. 18. Zverev V. P. Underground hydrosphere : Problems of basic hydrogeology. Saint-Petersburg : Nauchnyi mir, 2011. 258 p. 19. Kumar S. Determination of pressure drop characteristics of fly ash suspension with additive for hydraulic transportation. Journal of Applied Fluid Mechanics. 2018. Vol. 11, No. 5. pp. 1387–1393. 20. Gavich N. K. Hydrogeodynamics : Textbook. Moscow : Nedra, 1988. 349 p. 21. Neyraut M. Hard Memories, en hommage a Jean Baudrillard. Paris : Sens & Tonka, 2013. 120 p. |