急倾斜特厚煤层水平分段综放开采冲击矿压机理

Mechanism of rock burst in steep and extremely thick coal seam using horizontal section top-coal caving

  • 摘要: 我国急倾斜特厚煤层开采冲击矿压越发凸显,且灾害显现特殊。为了揭示急倾斜特厚煤层水平分段开采冲击矿压机理,建立覆岩力学模型,分析了覆岩运动、能量释放、煤层应力分布等规律;采用工作面液压支架工作阻力监测数据,分析了工作面支架工作阻力与动载系数分布规律;利用微震监测得到的矿震空间分布,分析了岩层运动和能量释放规律。 研究结果表明:急倾斜特厚煤层水平分段开采,顶板倾向破断步距与煤层倾角呈非线性正相关关系,当煤层倾角大于60°时,破断步距出现陡增;覆岩下位坚硬岩层破断后在倾向上可暂时形成平衡结构,随着下位分段开采和放煤,平衡结构可发生破断旋转、断块跌落、结构挤压俯冲等3种类型的失稳冲击过程,对工作面形成动态冲击;在顶底板夹持作用下,工作面煤体靠近顶底板侧将形成非对称倾向支承压力分布,靠近顶板侧为封闭夹持状态,应力集中程度高,靠近底板侧为开放夹持状态,煤体易破坏卸压而处于塑性状态,在非对称支承压力作用下,工作面中部至顶板侧底煤受强烈剪切应力作用,且处于底板弹塑性交界区,易于失稳冲击;急倾斜特厚煤层水平分段综放开采,覆岩破断步距大,顶板破断和失稳冲击的瞬间释放能量强,扰动底煤高应力区诱发冲击矿压显现,揭示了急倾斜特厚煤层水平分段综放开采夹持冲击型冲击矿压机理。 工作面液压支架工作阻力监测表明工作面中部至顶板侧动载系数最大达到3.25,表明覆岩形成了悬空式结构失稳;矿震监测结果表明工作面中部至靠近顶板侧底煤容易积聚弹性变形能,底板侧容易释放能量,顶板活动易形成动载扰动。研究结果得到了监测验证。

     

    Abstract: Rock burst dynamic disaster of steep and extremely thick coal seam is special and more and more prominent in China. In order to reveal the mechanism of rock burst under this condition,the structure and mechanical model of o- verburden is established,and the laws of overburden movement,energy release and stress distribution of surroundings were analyzed. Also,the resistance monitoring data of hydraulic support was applied to analyze the loading and dynam- ic distribution law on the working face,and the activities of micro-seismicity in space indicating the strata movement and energy release were studied. The results show that in the horizontal section top-coal caving of steep and extremely thick coal seam,the broken step of roof in dip direction is nonlinearly increasing with the increase of dip angle. When the dip angle is greater than 60°,the broken step increases sharply,and the broken block of lower hard stratum can form a balanced structure temporarily along the dip direction. With subsection mining and top coal caving,the balanced structure can be destabilized by three types:broken and rotation,broken block falling,structural extrusion and subduc- tion under the action of roof and floor clamping,leading to dynamic load on the top coal of working face and asymmet- ric distribution of mining stress along working face. The coal mass close to the roof side is under a closed clamping state,the stress concentration is high,at the same time the coal body in this zone is subjected to strong shear stress, and is in the elastic-plastic boundary zone under the mining face,which is prone to unstable,while that close to the floor side is under an open clamping state,the coal body is easy to destroy and release pressure and energy and nor- mally in a plastic state. The over strata breaking step of the steep and extremely thick coal seam using horizontal sec- tion top coal caving is comparably larger with a strong break instantly energy release. The rock burst mechanism of strata clamping and shocking in the horizontal section top coal caving of steep and extremely thick coal seam is put for- ward. The monitoring results of hydraulic support show that the maximum dynamic load coefficient reaches to 3. 25 at the middle to head,which indicates that the overlying rock blocks form a suspended structure,and the micro-seismic monitoring of mine seismicity results show from the middle of the working face to the side near the roof,the bottom coal is easy to accumulate elastic deformation energy,the side to the floor is easy to release energy,and the movement of the roof is easy to form dynamic load disturbance. The research results were verified by the site monitoring.

     

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