Key Instability Theory to Reduce Rock Burst Risks and Enhance Coal Mine Safety
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Newswise — Rock bursts, commonly associated with coal mining activities, involve the abrupt release of elastic energy from rock masses. Recognized as a major challenge in mining engineering and rock mechanics worldwide, they can lead to the destruction of underground passageways, damage to equipment, and even result in casualties.
To date, however, there remains a lack of mathematical and mechanical model and bursting initiation criteria of rockburst, Furthermore, a technical system for monitoring and preventing rock bursts, grounded in bursting occurrence theory, has yet to be established.
In a study published in the KeAi journal Geohazard Mechanics, a team of Chinese researchers introduced the disturbance response instability theory for rock bursts. They also detailed a rock burst prevention approach system they developed, which is capable of assisting with risk assessment, monitoring, prevention, control, and designing bursting-resistant supports in rock burst-prone roadways.”
“The theory pertains to the disturbance response instability of rock bursts in coal mines. We’ve identified the critical stress and capacity conditions needed for these bursts to occur. In roadways, the stability of the deforming coal rock mass system is influenced by several factors: the coal’s uniaxial compressive strength, the bursting energy index, the roadway’s radius, and the support stress. In essence, rock bursts can be seen as an instability in the coal rock mass deformation system, which arises due to various control, disturbance, and response variables,” explains co-author of the study Aiwen Wang, a professor at the Disaster Rock Mechanics Institute at Liaoning University.
Drawing from the disturbance response instability theory of rockburst, this study examined the crucial factors that dictate the occurrence of rock bursts. These include mining stress, geostress and the bursting tendency of coal material. It integrates the process of rockburst prevention and control, which encompasses disaster risk evaluation, monitoring, prevention, control, and designing bursting-resistant supports for rockburst-prone roadways. Consequently, this instability theory will lay the foundation for a comprehensive system addressing the mechanism, prediction, and prevention of rockbursts.
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References
DOI
10.1016/j.ghm.2022.12.002
Original Source URL
https://doi.org/10.1016/j.ghm.2022.12.002
Funding information
National Natural Science Foundation of China. Grant/Project Number: 51974150 and U1908222. National key research and development program, Grant/Project Number: 2022YFC3004605.
Journal
Geohazard Mechanics
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