This paper describes the analysis of numerical simulation results of the stress-strain state of Leninsky coal deposit area (Kuzbass) before and after allotment mining of mining fields specified in this article. The analysis of the influence of coal mining on the stress-strain state of rocks is performed taking into account the fault tectonics of the area. The particularities of the influence of regional stress field changes on geoecological safety are considered. The geoecological consequences of the exploitation of coal seams of the Leninsky coal deposit were analyzed.
Leninsky coal deposit, mine, Kuzbass, modeling, stress-strain state, coal mining
1. Adushkin, V. V. (2015), Trigger seismicity of the Kuznetsk Basin, Trigger effects in geosystems, Theses of the reports of the III All-Russian seminar-meeting, p. 8-28, Institute of Dynamics of Geospheres RAS, Moscow.
2. Baklashov, I. V. (2004), Geomechanics. Volume 1. Fundamentals of Geomechanics, 208 pp., MSMU, Moscow.
3. Batugin, A. (2018), Critically Stressed Areas of Earth's Crust as Medium for Man-Caused Hazards, E3S Web Conf., VII International Scientific Conference "Problems of Complex Development of Georesources", 56, p. 02007, https://doi.org/10.1051/e3sconf/20185602007.
4. Batugin, A. S., V. G. Klimanova (2000), Flooding of the liquidated mines as a possible cause of technogenic earthquakes in mining regions, Mining Information and Analytical Bulletin, 2, p. 58-61.
5. Batugin, A. S., et al. (2016), Tectonophysical model of fault tectonic rock burst with wing sliding Journal of Liaoning Technical University, Natural Science, 35, p. 561-565.
6. Batugina, I. M., I. M. Petukhov (1988), Geodynamic Zoning of Deposits in the Design and Operation of Mines, 166 pp., Nedra, Moscow.
7. Bykadorov, A. I., A. V. Chernukha, S. V. Svirko (2018), Aspects of liquidation of mines of the Prokopyevsko-Kiselevsky coal deposit, Russian Coal Journal, no. 2, p. 88-94, https://doi.org/10.18796/0041-5790-2018-2-88-94.
8. Emanov, A. F., A. A. Emanov, E. V. Leskova, A. V. Fateev, A. Yu. Semin (2009), Seismic activation at coil mining in Kuzbass, Physical Mesomechanics, 12, no. 1, p. 37-43.
9. Emanov, A. A., A. F. Emanov, A. V. Fateev, E. V. Leskova (2018), Simultaneous Impact of Open-Pit and Underground Mining on the Subsurface and Induced Seismicity, Seismic Instruments, 54, no. 4, p. 479-487, https://doi.org/10.3103/S0747923918040035.
10. Geoinformark, (2003), Coal Base of Russia, Volume 2. Coal Basins and Deposits of West Siberia (Kuznetsky, Gorlovsky, West-Siberian basins, the Deposits of the Altai Territory and the Altai Republic), 604 pp., Geoinformark, Moscow.
11. Gosgortechnadzor, (1998), Resolution of the Gosgortechnadzor of Russia of 16.03.1998 3 "On the approval of the rules for the protection of structures and natural objects from the harmful influence of underground mining in coal deposits", Gosgortechnadzor, Russia.
12. Gvirtsman, B. Ya., N. N. Katsnelson, E. V. Boshenyatov (1977), Safe Excavation of Coal Under Water Objects, 175 pp., Nedra, Moscow.
13. Gvishiani, A. D., L. A. Weisberg, V. N. Tatarinov, A. I. Manevich (2018), System analysis in mining sciences and decreasing environment damage, Proceedings of the conference dedicated to the memory of Academician A. V. Kryazhimsky "System Analysis: Modeling and Management", p. 43-45, Steklov Institute of Mathematics RAS, Moscow, https://doi.org/10.4213/proc20588.
14. Kartashev, M. P., N. P. Yesikov (1983), The study of deformations of the earth's surface on the Kuzbass polygon, Results of researches in the international geophysical projects "Modern Movements and Deformations of the Earth's Crust on Geodynamic Polygons", p. 102-105, Nauka, Moscow.
15. Kolikov, K. S., E. A. Egorova, E. V. Mazanik (2017), Geoinformation support of the forecast of dangerous natural processes during the mining of coal seams, Geoinformatics Research Papers: Proceedings of the Geophisical Center RAS, 5, no. 2, p. 3-12, https://doi.org/10.2205/2017BS045.
16. Kolikov, K. S., S. G. Nikitin, A. I. Manevich (2016), Analytical evaluation of the forecast methan emission recommended safety regulations, Safety of Labor in Industry, no. 8, p. 34-39.
17. Lazarevich, T. I., A. N. Polyakov (2009), Mining monitoring of seismic and geodynamic safety of Kuzbass, Mining Geomechanics and Mine Surveying: A Collection of Scientific Papers, p. 252, VNIMI, SPb.
18. Litvinov, A. R., K. S. Kolikov, O. G. Ishhneli (2017), Accident and injury at coal industry enterprises in 2010-2015, Bulletin of the Scientific Center for the Safety of Work in the Coal Industry, no. 2, p. 6-17, https://doi.org/10.26631/arc2-2017-6-17.
19. Morozov, V. N., I. Yu. Kolesnikov, V. N. Tatarinov (2012), Modeling the Hazard Levels of Stress-Strain State in Structural Blocks in Nizhnekanskii Granitoid Massif for Selecting Nuclear Waste Disposal Sites, Water Resources, 39, no. 7, p. 756-769, https://doi.org/10.1134/S009780781207007X.
20. Morozov, V. N., V. N. Tatarinov, I. Yu. Kolesnikov, A. I. Manevich (2018), Modeling the Stress-Strain State in the Epicentral Zone of a Strong Earthquake in Iran (December 26, 2003, Mw=6.6), Izvestiya, Physics of the Solid Earth, 54, no. 4, p. 602-611, https://doi.org/10.1134/S1069351318040080.
21. Nedra, (1967), Geology of the USSR, Volume 14. Geological Description. Western Siberia, 664 pp., Nedra, Moscow.
22. Novikov, I. S., O. V. Cherkas, G. M. Mamedov, et al. (2013), Stages of activation and tectonic divisibility of the Kuznetsk coal basin (Southern Siberia), Geology and Geophysics, 54, no. 3, p. 424-437, https://doi.org/10.1016/j.rgg.2013.02.007.
23. Ovsyuchenko, A. N., E. A. Rogozhin, S. S. Novikov, et al. (2010), Paleogeological and tectonic studies of earthquake-prone areas in the south of the Kuznetsk Basin, Seismic resistant construction, Safety of Structures, no. 6, p. 35-45.
24. Panina, L. V., V. A. Zaitsev (2012), Neotectonics and geodynamics of the Kuznetsk cavity, Bulletin of the Moscow University Series 4. Geology, no. 6, p. 13-20, https://doi.org/10.3103/S014587521206004X.
25. Petukhov, I. M., I. M. Batugina (1999), Geodynamics of Soils (Second edition, revised and enlarged), 287 pp., Nedra Communications LTL, Moscow.
26. Popov, Yu. N. (1976), Some features of the tectonics of mine fields in the North-Eastern part of the Leninsky district of Kuzbass, Izvestiya of the Tomsk Polytechnic Institute, 236, p. 119-128.
27. Selin, K. V. (2008), Measurement of the initial stresses of the array with depth in the regions of the world, Mining Information and Analytical Bulletin, 10, p. 297-302.
28. Tarasenko, I. A., A. V. Zinkov, O. V. Chudaev, A. V. Vetoshkina, I. I. Holodilov (2017), Technogenic effect of liquidation of coal mines on earth's entrails: hydrogeochemical aspect, IOP Conference Series: Earth and Environmental Science, 87, no. 4, https://doi.org/10.1088/1755-1315/87/4/042022.
29. Yakovlev, D. V., T. I. Lazarevich, S. V. Tsirel' (2013), Natural and induced seismic activity in Kuzbass, Journal of Mining Science, 49, no. 6, p. 862-872, https://doi.org/10.1134/S1062739149060038.
30. Zhalkovsky, N. D., O. A. Kuchai, V. I. Muchnaya (1995), Seismicity and some characteristics of the stress state of the earth's crust of the Altai-Sayan region, Geology and Geophysics, 36, no. 10, p. 20-30.
31. Zubkov, A. V. (2016), The low of natural stress formation of the Earth's crust, Lithosphere, no. 5, p. 146-151.
