The Setting of Strength Parameters in Stability Analysis of Open-Pit Slope Using the Random Set Method in the Bełchatów Lignite Mine, Central Poland

Pilecka, Elżbieta; Stanisz, Jacek; Kaczmarczyk, Robert; Gruchot, Andrzej

doi:10.3390/en14154609

Cited by 3 publications

(3 citation statements)

References 20 publications

(31 reference statements)

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“…The finite element method is the most used numerical method, which makes it possible not only to determine the rock SSS, but also to assess the effectiveness of geotechnical measures to strengthen rocks and soils [28], [29]. At the same time, most researchers note that despite the mathematical accuracy of the FEM and a wide class of problems to be solved, the reliability of numerical simulation and predicting on this basis the stability of outcrops is largely determined by the reliability of determining the rock properties [30], [31]. The wellknown uncertainty in obtaining the mechanical characteristics of soils and rocks has been a subject of discussion in the field of geomechanics for many decades [32]- [34].…”

Section: Unsolved Problem Identificationmentioning

confidence: 99%

“…where: τtangential stress (shear stress); σnnormal stress; φinternal friction angle; сcohesion. The safety factor is determined by organizing the "Strength reduction" procedure, described in detail in [44], [45], according to which the FEM analysis is performed during n iterations. At each i-th iteration (i = 1, n), the initial strength parameters φ and с decrease by Fi times (Fi = Fi-1 + ∆F), where ∆F is the iteration increment, the value of which depends on the initial stability assessment in accordance with (1).…”

Section: Figure 2 the Kacharsky Open-pit Section Over The 19 Th Profi...mentioning

confidence: 99%

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Probabilistic assessment of slope stability at ore mining with steep layers in deep open pits

Sdvyzhkova¹,

Moldabayev²,

Başçetin³

et al. 2022

Min. miner. depos.

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Purpose. A methodology development for predicting the geomechanical situation when mining an ore deposit with steep-dipping layers, taking into account the uncertainty in determining the rock properties, which is a consequence of the rock mass heterogeneity. Methods. The assessment of the open-pit wall stability is based on a combination of numerical simulation of the rock stress-strain state (SSS) and probabilistic analysis. The finite element method is used to determine the changes in the SSS that occur at various stages of mining operations due to design changes in the overall open-pit slope angle. The elastic-plastic model of the medium and the Mohr-Coulomb failure criterion are implemented in the codes of the 3D finite element analysis program RS3 (Rocscience). Stochastic simulation is used to assess random risks associated with natural object state variations. Findings. The distribution of maximum shear strains, which localizes the real or potential sliding surfaces in the open-pit wall at various stages of ore mining, has been identified. Based on the Shear Strength Reduction procedure, the open-pit wall Strength Reduction Factor (SRF) has been determined. The probabilities of open-pit wall stability loss, as well as the decrease in the strength reduction factor below the standard level at all stages of the ore body mining, have been revealed. Originality. For the first time, for real mining-geological conditions of a deep ore open pit, the dependence of the strength reduction factor on the overall wall slope angle, which changes during mining of each steep layer, has been determined. For each stage of mining operations, for the first time, the probability of a decrease in the open-pit wall stability below the standard level has been determined based on stochastic simulation. Practical implications. The ratio between the open-pit contour characteristic (overall slope angle) and the probabilistic safety factor is the basis for practical solutions to ensure the efficiency and safety of mining at various stages of friable and hard overburden excavation, ore extraction, as well as for the subsequent optimization of the open-pit design contours.

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Section: Unsolved Problem Identificationmentioning

confidence: 99%

Section: Figure 2 the Kacharsky Open-pit Section Over The 19 Th Profi...mentioning

confidence: 99%

Probabilistic assessment of slope stability at ore mining with steep layers in deep open pits

Sdvyzhkova¹,

Moldabayev²,

Başçetin³

et al. 2022

Min. miner. depos.

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“…A 3D numerical model of the landslide was created based on geotechnical studies using the MIDAS FEM method [25]. The Coulomb-Mohr hypothesis was adopted with a linear plastic flow law, as is recommended for the stability analyses of slopes, e.g., [26]. The vertical stress in the model increased linearly with depth.…”

Section: Of 13mentioning

confidence: 99%

Analysis of a Landslide on a Railway Track Using Laser Scanning and FEM Numerical Modelling

et al. 2022

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In this study, we present an analysis of the causes of a landslide along a railway track in the Polish Lowlands. The landslide damaged the railway track and caused significant material losses. Digital models of the terrain surface before and after the landslide were elaborated. Remote sensing using LIDAR aerial technique and a terrestrial laser scanner was performed to determine the morphology. Soil mass behaviour was analysed by 3D numerical simulation. A numerical model was created based on geotechnical tests. Taking into account the behaviour of the dry and wet models, the numerical simulation showed the most probable scenario of mass movement. The main reasons for the landslide were rainwater infiltration in the track basement and the unfavourable morphology of the area on which the railway embankment was located. The study demonstrates that combined methods—laser scanning, geotechnical testing of the soil material, and 3-dimensional numerical simulation—enabled the assessment of the causes of the analysed landslide.

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Interdisciplinary Studies for Sustainable Mining

Choi

2023

Applied Sciences

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The Setting of Strength Parameters in Stability Analysis of Open-Pit Slope Using the Random Set Method in the Bełchatów Lignite Mine, Central Poland

Cited by 3 publications

References 20 publications

Probabilistic assessment of slope stability at ore mining with steep layers in deep open pits

Probabilistic assessment of slope stability at ore mining with steep layers in deep open pits

Analysis of a Landslide on a Railway Track Using Laser Scanning and FEM Numerical Modelling

Interdisciplinary Studies for Sustainable Mining

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