Macroscopic fracture mechanism of coal body and evolution characteristics analysis of impact force in deep coal and gas outburst

Ren, Lingran; Tang, Jupeng; Pan, Yishan; Zhang, Xin; Yu, Honghao

doi:10.1038/s41598-023-43100-2

Sci Rep

2023

DOI: 10.1038/s41598-023-43100-2

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Macroscopic fracture mechanism of coal body and evolution characteristics analysis of impact force in deep coal and gas outburst

Lingran Ren,

Jupeng Tang,

Yishan Pan

et al.

Abstract: With the increase of mining depth and intensity, coal and gas outburst dynamic disasters occur frequently. In order to deeply study the macroscopic fracture mechanism of coal body and evolution characteristics analysis of impact force, taking the outburst coal seam of Pingmei No. 11 Coal Mine and Sunjiawan coal seam of Hengda Coal Mine as the research objects, the simulation roadway test system of self-developed true triaxial coal and gas outburst is applied to carry out the simulation test of deep coal and ga… Show more

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2024

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Cited by 2 publications

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Outburst Precursor Characteristics of Loaded Coal: Analysis of Coal Damage and Fracture Degree from the Perspective of Energy

Ren,

Tang,

Pan

et al. 2024

Rock Mech Rock Eng

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Outburst Precursor Characteristics of Loaded Coal: Analysis of Coal Damage and Fracture Degree from the Perspective of Energy

Ren,

Tang,

Pan

et al. 2024

Rock Mech Rock Eng

View full text Add to dashboard Cite

Influence of roof confined water drainage on stress distribution in coal seam

Li,

Gu,

Cheng

et al. 2024

Sci Rep

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Coal and gas outbursts, along with rock bursts, are common dynamic disasters in coal mining, threatening the safety and green production of coal mines. The distribution of coal seam stress is an external factor contributing to coal mine power disasters. The drainage of confined water in coal seam roof is the primary factor of coal seam stress changes. Using theoretical analysis and numerical simulations, the influence of roof confined water on coal seam stress by looking at the law of stress and stress conservation transfer in the drainage layer is investigated. Our results show that: (1) after drainage, there is an increase in the local stress within the coal seam, with a stress concentration factor of 1.35. The influence range of theoretically calculated stress is consistent with the measured results. (2) the maximum value of drainage boundary stress correlated positively with the angle of the water-rich abnormal area, with a linear fitting of R 2 = 0.98. These findings hold significant theoretical and practical implications for preventing and controlling dynamic disasters during the mining of water-rich coal seams.

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Macroscopic fracture mechanism of coal body and evolution characteristics analysis of impact force in deep coal and gas outburst

Cited by 2 publications

References 31 publications

Outburst Precursor Characteristics of Loaded Coal: Analysis of Coal Damage and Fracture Degree from the Perspective of Energy

Outburst Precursor Characteristics of Loaded Coal: Analysis of Coal Damage and Fracture Degree from the Perspective of Energy

Influence of roof confined water drainage on stress distribution in coal seam

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