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Vol 240
Pages:
613-620
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Article

On flood protection measures for potash mines

Authors:
A. A. Baryakh1
E. A. Gubanova2
About authors
  • 1 — Perm Federal Research Center of Ural Branch of Russian Academy of Science
  • 2 — Mining Institute of the Ural Branch Russian Academy of Sciences
Date submitted:
2019-07-17
Date accepted:
2019-09-04
Date published:
2019-12-24

Abstract

Development of water-soluble ore deposits is associated with the necessity to preserve water blocking strata (WBS), which separate aquifers from the mine gob. One indicator of the rate of man-induced load on WBS layers is subsidence of the earth surface, which defines the character of shift trough formation of the earth surface. The greatest threat of WBS discontinuity is posed by the areas located at the edges of a shift trough. From the perspective of Upper Kama deposit of potassium and magnesium salts, by means of mathematical modelling methods authors demonstrated that in the capacity of threat indicators of WBS hole destruction it is possible to use the following parameters of a shift trough: edge length scaled to the depth of mining operations and maximum subsidence of the earth surface. Critical combination of these factors is responsible for the discontinuity at the edges of water blocking strata. These parameters of a shift trough can easily be controlled by instrumental procedures and can be included in the basics of a general monitoring system of WBS state at potash mines. In order to protect the mine from the inrush of fresh water, it is necessary to form softening zones at the edges of mined-out areas near permanent or temporary borders of mining operations. Authors review different options of softening zone formation. Numerical tests have demonstrated that the most efficient way to protect water blocking strata is the formation of softening zones by means of backfilling the stopes of the workable seam or its exclusion from mining operations.

Область исследования:
Mining
Keywords:
mathematical modelling destruction water blockingstrata shift trough subsidence softening zone
10.31897/pmi.2019.6.613
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Cited By
1. On an Approach to Zoning Risks of Groundwater Protective Layer Failure Based on a Set of Geophysical and Geotechnical Characteristics. Russian Journal of Earth Sciences. 1 October 2025, Vol. 25, DOI: 10.2205/2025es001015 [Scopus]
2. Flood risk assessment in mines of the Upper Kama Potassium–Magnesium Salt Deposit: Prospects for neural network models. Gornyi Zhurnal. 2025, Vol. 2025, P. 154-158. DOI: 10.17580/gzh.2025.01.22 [Scopus]
3. Principles of Sustainable Development of Georesources as a Way to Reduce Urban Vulnerability. Urban Science. June 2024, Vol. 8, DOI: 10.3390/urbansci8020044 [Scopus] (cited: 36)
4. Evaluation of safety of full ore extraction under aquifer by determining fractured water-conducting zone height in Oktyabrsky Mine. Gornyi Zhurnal. 2024, Vol. 2024, P. 25-33. DOI: 10.17580/gzh.2024.03.03 [Scopus]
5. Environmental Aspects of Potash Mining: A Case Study of the Verkhnekamskoe Potash Deposit. Mining. June 2023, Vol. 3, P. 176-204. DOI: 10.3390/mining3020011 [Scopus] (cited: 27)
6. Closure of potentially hazardous sites in potash mines. Gornyi Zhurnal. 2023, P. 5-12. DOI: 10.17580/gzh.2023.03.01 [Scopus] (cited: 4)
7. Prevention of gas-dynamic phenomena in sequential mining of sylvinite seams KrII and AB at the Upper Kama potassium–magnesium deposit. Gornyi Zhurnal. 2023, Vol. 2023, P. 20-26. DOI: 10.17580/gzh.2023.11.03 [Scopus] (cited: 1)
8. In-situ permeability testing of deep-level potash salt rocks with a view to creating water retaining walls. Gornyi Zhurnal. 2023, Vol. 2023, P. 25-31. DOI: 10.17580/gzh.2023.05.04 [Scopus] (cited: 4)
9. Physical simulation of nonlinear geomechanical processes in potash ore mining. Gornyi Zhurnal. 2023, Vol. 2023, P. 75-80. DOI: 10.17580/gzh.2023.05.11 [Scopus] (cited: 3)
10. Method of predicting the stress-strain state of interchamber pillars lined with a compliant rope fastener. Mining Informational and Analytical Bulletin. 2023, P. 20-34. DOI: 10.25018/0236_1493_2023_4_0_20 [Scopus] (cited: 10)
11. Challenges and prospects for several-stage stoping in potash minining. Sustainable Development of Mountain Territories. 2023, Vol. 15, P. 349-364. DOI: 10.21177/1998-4502-2023-15-2-349-364 [Scopus] (cited: 38)
12. Experience of studying territories with a high technogenic load (on the example of the Verkhnekamsk potash salt deposit). Mining Informational and Analytical Bulletin. 2022, P. 73-84. DOI: 10.25018/0236_1493_2022_112_0_73 [Scopus]
13. Development of the technology of stowing the developed space during mining. Journal of Mining Institute. 2022, Vol. 254, P. 202-209. DOI: 10.31897/PMI.2022.36 [Scopus] (cited: 17)
14. Prediction of the integrity of the water-protective stratum at the Verkhnekamskoye potash ore deposit. Mining Informational and Analytical Bulletin. 2022, P. 33-46. DOI: 10.25018/0236_1493_2022_62_0_33 [Scopus] (cited: 17)
15. Prevention of freshwater breakthrough into potassium mines. Procedia Structural Integrity. 2021, Vol. 32, P. 17-25. DOI: 10.1016/j.prostr.2021.09.004 [Scopus] (cited: 3)
16. Unit weight patterns of overlying rocks above commercial-value salt strata in the Upper Kama deposit. Gornyi Zhurnal. 2021, Vol. 2021, P. 39-45. DOI: 10.17580/gzh.2021.04.05 [Scopus]
17. Prediction of hydro-geomechanical processes in undermining of water bodies. Gornyi Zhurnal. 2021, Vol. 2021, P. 73-79. DOI: 10.17580/gzh.2021.03.02 [Scopus] (cited: 1)
18. Assessment of horizontal deformations in undermined areas. Mining Informational and Analytical Bulletin. 2021, Vol. 2021, P. 5-18. DOI: 10.25018/0236_1493_2021_11_0_5 [Scopus] (cited: 5)
19. Allocation of a deep-lying brine aquifer in the rocks of a chemogenic section based on the data of geophysical well logging and 2D seismic exploration. Journal of Mining Institute. 2021, Vol. 250, P. 501-511. DOI: 10.31897/PMI.2021.4.3 [Scopus] (cited: 8)
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On flood protection measures for potash mines

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