Analysis of overburden movement and side abutment pressure distribution in deep stope with varying coal seam thickness

Yang, Yongjie; Meng, Lingren; Yuan, Lei

doi:10.3389/feart.2023.1323679

Front. Earth Sci.

2023

DOI: 10.3389/feart.2023.1323679

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Analysis of overburden movement and side abutment pressure distribution in deep stope with varying coal seam thickness

Yongjie Yang,

Lingren Meng,

Lei Yuan

Abstract: To investigate the overburden movement and the side abutment pressure distribution concerning the variation in deep mines with varying coal seam thickness, this study focused on the No. 72 mining area of Tianchen Coal Mine and obtained the following results: Variations in coal seam thickness within a stope lead to increased immediate roof thickness. When the coal seam thickness is 8 m, the maximum immediate roof thickness reaches 18 m. The roof is composed of a “Combined short cantilever-Voussoir beam” structu… Show more

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2024

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Cited by 1 publication

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Research on the Instability Mechanism and Control Technology of Gob-Side Entry in Deep Mines with Soft Rock

Ma,

Xing,

Liu

et al. 2024

Buildings

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The gob-side entry driving in deep mines with soft rock exhibits a complex deformation and instability mechanism. This complexity leads to challenges in roadway stability control which greatly affects the coal mine production succession and safe and efficient mining. This paper takes the gob-side entry in Liuzhuang Coal Mine as the background. By adopting the method of theoretical analysis, a dynamic model of the roof subsidence in the goaf is established. The calculation indicates that achieving the stable subsidence of the basic roof and the equilibrium of the lateral abutment stress within the goaf requires a minimum of 108.9 days, offering a theoretical foundation for selecting an optimal driving time for the gob-side entry. The control technologies and methods of gob-side entry through grouting modification and high-strength support are proposed. Enhancing the length of anchor ropes and the density of bolt (cable) support to improve the role of the roadway support components can be better utilized, so the role of the support components of the roadway can be better exerted. The method of grouting and the reinforcement of coal pillars can effectively improve the carrying capacity of coal pillars. The numerical simulation is used to analyze the deformation law of gob-side entry. The study reveals significant deformation in the coal pillar and substantial roof subsidence, highlighting that maintaining the stability of the coal pillar is crucial for ensuring roadway safety. Following the grouting process, the deformation of the coal pillar and roof subsidence decreased by 16.7% and 7.1%, respectively. This demonstrates that coal pillar grouting not only mitigates pillar deformation but also provides effective control over roof subsidence. This study offers a quantitative calculation method to ascertain the excavation time of gob-side entry, and suggests that the application of high-strength support and the practice of coal pillar grouting can effectively maintain the steadiness of gob-side entry in deep mines with soft rock.

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Research on the Instability Mechanism and Control Technology of Gob-Side Entry in Deep Mines with Soft Rock

Ma,

Xing,

Liu

et al. 2024

Buildings

View full text Add to dashboard Cite

show abstract

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Analysis of overburden movement and side abutment pressure distribution in deep stope with varying coal seam thickness

Cited by 1 publication

References 24 publications

Research on the Instability Mechanism and Control Technology of Gob-Side Entry in Deep Mines with Soft Rock

Research on the Instability Mechanism and Control Technology of Gob-Side Entry in Deep Mines with Soft Rock

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