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Stability control of a deep shaft insert 被引量:4

Stability control of a deep shaft insert
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摘要 The deterioration of a deep shaft insert at the Xing'an Coal Mine was analyzed by studying the physical and mechanical properties of the rock located at key positions relative to the shaft. Factors that influence shaft stability were obtained. The numerical simulation program FLAC3D was used to simulate the destruction of the deep shaft insert. Two different support methods were analyzed by simulation. The simulations demonstrate that a single stiffness support is inappropriate for this shaft insert. The appropriate support method is an integrated coupling method of rigid and flexible supports. The flexible support is applied first and then the rigid support is second. Engineering practice in the Xing'an Coal Mine shows that this technology can effectively control deep-shaft insert deterioration. This support approach provides an important direction for future project design and construction, as well. The deterioration of a deep shaft insert at the Xing' an Coal Mine was analyzed by studying the physical and mechanical properties of the rock located at key positions relative to the shaft. Factors that influence shaft stability were obtained. The numerical simulation program FLAC3D was used to simulate the destruction of the deep shaft insert. Two different support methods were analyzed by simulation. The simulations demonstrate that a single stiffness support is inappropriate for this shaft insert. The appro- priate support method is an integrated coupling method of rigid and flexible supports. The flexible support is applied first and then the rigid support is second. Engineering practice in the Xing'an Coal Mine shows that this technology can effectively control deep-shaft insert deterioration. This support approach provides an important direction for future project design and construction, as well.
作者 LI Guofeng
出处 《Mining Science and Technology》 EI CAS 2010年第4期491-498,共8页 矿业科学技术(英文版)
基金 provided by the Major Program of the National Natural Science Foundation of China (No.50490270) the National Basic Research Program of China (No.2006CB 202200) the Innovation Term Project of the Ministry of Education of China (No.IRT0656)
关键词 deep shaft shaft insert STABILITY 稳定性控制 深井 物理力学性能 FLAC3D 数值模拟 影响因素 仿真结果 深竖井
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