Mechanism of gas pressure action during the initial failure of coal containing gas and its application for an outburst inoculation

IF 11.7 1区 工程技术 Q1 MINING & MINERAL PROCESSING
Chaojie Wang, Lutan Liu, Xiaowei Li, Changhang Xu, Kai Li
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Abstract

Faced with the continuous occurrence of coal and gas outburst (hereinafter referred to as “outburst”) disasters, as a main controlling factor in the evolution process of an outburst, for gas pressure, it is still unclear about the phased characteristics of the coupling process with in situ stress, which induce coal damage and instability. Therefore, in the work based on the mining stress paths induced by typical outburst accidents, the gradual and sudden change of three-dimensional stress is taken as the background for the mechanical reconstruction of the disaster process. Then the true triaxial physical experiments are conducted on the damage and instability of coal containing gas under multiple stress paths. Finally, the response characterization between coal damage and gas pressure has been clarified, revealing the mechanism of action of gas pressure during the initial failure of coals. And the main controlling mechanism during the outburst process is elucidated in the coupling process of in situ stress with gas pressure. The results show that during the process of stress loading and unloading, the original gas pressure enters the processes of strengthening and weakening the action ability successively. And the strengthening effect continues to the period of large-scale destruction of coals. The mechanical process of gas pressure during the initial failure of coals can be divided into three stages: the enhancement of strengthening action ability, the decrease of strengthening action ability, and the weakening action ability. The entire process is implemented by changing the dominant action of in situ stress into the dominant action of gas pressure. The failure strength of coals is not only affected by its original mechanical strength, but also by the stress loading and unloading paths, showing a particularly significant effect. Three stages can be divided during outburst inoculation process. That is, firstly, the coals suffer from initial damage through the dominant action of in situ stress with synergy of gas pressure; secondly, the coals with spallation of structural division are generated through the dominant action of gas pressure with synergy of in situ stress, accompanied by further fragmentation; and finally, the fractured coals suffer from fragmentation and pulverization with the gas pressure action. Accordingly, the final broken coals are ejected out with the gas action, initiating an outburst. The research results can provide a new perspective for deepening the understanding of coal and gas outburst mechanism, laying a theoretical foundation for the innovation of outburst prevention and control technologies.

含瓦斯煤初期失效时瓦斯压力的作用机理及其在爆破接种中的应用
面对连续发生的煤与瓦斯突出(以下简称“突出”)灾害,作为突出演化过程中的主要控制因素,对于瓦斯压力而言,其与地应力耦合过程的阶段性特征尚不清楚,而地应力是诱发煤破坏与失稳的主要因素。因此,在以典型突出事故诱发的采动应力路径为基础的工作中,以三维应力的渐变和突变为背景,对灾害过程进行力学重构。然后对含瓦斯煤在多种应力路径下的破坏与失稳进行了真三轴物理实验。最后,明确了煤体损伤与瓦斯压力之间的响应特征,揭示了煤体初始破坏过程中瓦斯压力的作用机理。阐明了突出过程的主要控制机理是地应力与瓦斯压力的耦合过程。结果表明:在应力加载和卸载过程中,原始气体压力依次进入作用能力增强和减弱的过程;这种强化效应持续到煤的大规模破坏期。煤初始破坏过程中气体压力的力学过程可分为强化作用能力增强、强化作用能力降低和减弱三个阶段。整个过程是通过将地应力的主导作用转变为气体压力的主导作用来实现的。煤的破坏强度不仅受其原始机械强度的影响,还受应力加载和卸载路径的影响,表现出特别显著的影响。突出孕育过程可分为三个阶段。即煤的初始破坏是由地应力主导,瓦斯压力协同作用造成的;②以瓦斯压力为主导,地应力协同作用下产生具有构造分裂的散裂煤,并进一步破碎;最后,破碎煤在瓦斯压力作用下破碎粉碎。因此,最终破碎的煤在气体作用下喷出,引发突出。研究成果可为深化对煤与瓦斯突出机理的认识提供新的视角,为突出防治技术的创新奠定理论基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal of Mining Science and Technology
International Journal of Mining Science and Technology Earth and Planetary Sciences-Geotechnical Engineering and Engineering Geology
CiteScore
19.10
自引率
11.90%
发文量
2541
审稿时长
44 days
期刊介绍: The International Journal of Mining Science and Technology, founded in 1990 as the Journal of China University of Mining and Technology, is a monthly English-language journal. It publishes original research papers and high-quality reviews that explore the latest advancements in theories, methodologies, and applications within the realm of mining sciences and technologies. The journal serves as an international exchange forum for readers and authors worldwide involved in mining sciences and technologies. All papers undergo a peer-review process and meticulous editing by specialists and authorities, with the entire submission-to-publication process conducted electronically.
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