| 浅埋深蹬空底板煤柱群动态失稳机理及防治 |
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| 引用本文: | 冯国瑞,朱卫兵,李竹,白锦文,罗泽强.浅埋深蹬空底板煤柱群动态失稳机理及防治[J].煤炭学报,2022(1):200-209. |
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| 作者姓名: | 冯国瑞 朱卫兵 李竹 白锦文 罗泽强 |
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| 作者单位: | 太原理工大学矿业工程学院;山西省绿色采矿工程技术研究中心;中国矿业大学矿业工程学院 |
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| 基金项目: | 国家杰出青年科学基金资助项目(51925402);国家自然科学联合基金重点资助项目(U1710258);国家自然科学基金面上资助项目(52074265)。 |
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| 摘 要: | 针对山西元宝湾煤矿浅埋深上覆和下伏柱式采空区中部煤层的安全复采难题,综合采用理论分析、实验室实验、物理模拟、数值模拟和现场实测方法,探究了柱采区蹬空开采底板煤柱垂直荷载及内应力分布形态,并基于Mises等效应力探讨了柱采区蹬空煤柱潜在破坏形式;揭示了柱采区蹬空开采底板关键柱破坏形式及破坏剥落体运动特征;阐明了底板煤柱破...
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| 关 键 词: | 浅埋深 近距离煤层 蹬空开采 煤柱群失稳 动压灾害 充填 |
Dynamic collapse mechanism and prevention of shallow-buried pillar groupunderlying working seam floor in mined-out area |
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| FENG Guorui,ZHU Weibing,LI Zhu,BAI Jinwen,LUO Zeqiang.Dynamic collapse mechanism and prevention of shallow-buried pillar groupunderlying working seam floor in mined-out area[J].Journal of China Coal Society,2022(1):200-209. |
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| Authors: | FENG Guorui ZHU Weibing LI Zhu BAI Jinwen LUO Zeqiang |
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| Affiliation: | (School of Mining Engineering,Taiyuan University of Technology,Taiyuan 030024,China;Research Center of Green Mining Engineering Technology in Shanxi Province,Taiyuan 030024;School of Mines,China University of Mining and Technology,Xuzhou 221116,China) |
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| Abstract: | The safety problems of the shallow-buried overlying and underlying mined-out areas with pillars in the Yuanbaowan Coal Mine are investigated using some theoretical analysis,laboratory experiments,physical simulation,numerical simulation and field measurement methods.In particular,the vertical load and internal stress distribution patterns of coal pillars underlying the working seam floor in the mined-out area are explored,and the potential damage form of the coal pillars in the mined-out area is discussed based on the Mises equivalent stress.The failure mode of key pillars and the movement characteristics of fractured flakes in the mined-out areas are revealed,and the failure sequence of underlying coal pillar groups and dynamic instability evolution are clarified.Therefore,a method of strengthening the bearing capacity of the underlying coal pillars through grouting in the mined-out area is proposed to recover the coal resources in the middle coal seam between the mined-out seams,and the critical filling height of the mined-out area to ensure a safe mining of No.6107 working face is given.The results show that if the mined-out area of No.9 coal seam is not filled,the uneven subsidence of the roof strata will lead to the eccentric compression of the coal pillars,the key pillar and its fractured bodies rotate and subside eventually.Once the key pillar is damaged,the overburden load presents the characteristics of two-way transmission.A two-way domino chain-type collapse centered on the key pillar is shown in the entire coal pillar group,while the outward radiating wave-like instability expansion characteristic with the key pillar as the center is presented in the three-dimensional space.The failure and instability of the key pillars will induce the overall instability of the underlying coal pillar group,which may lead to induce such dynamic disasters as a large-scale collapse of the working face and its advanced coal rock mass.The critical filling height for the safe mining of the working face No.6107 at the mined-out area is 6 m,which is also confirmed by the actual measurement results.On this basis,for the regional area where the filling effect is poor and the filling height is less than 6 m,the secondary filling and re-inforcement treatment method is proposed to ensure the safe mining of remaining coal resources in the middle seam above the mined-out area. |
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| Keywords: | shallow buried depth close-distance coal seam mining above mined-out area pillar group collapse dynamic pressure disaster backfilling |
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