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采场空间结构模型及相关动力灾害控制研究

Study on coal face spatial structure model and control related dynamic disasters

  • 摘要: 基于社会对煤炭行业安全生产的重视,煤矿灾害事故控制研究显得愈发重要,尤其现阶段煤矿灾害事故多发,安全形式愈发严峻。为了有效控制预防煤矿动力灾害事故,提出了采场空间结构模型;探讨了采场空间结构模型中应力分布和结构发育的力学特征,以及采动时上覆岩层的运动变化规律和矿压显现特征;以采场空间结构模型和采动应力孕育力学特征为基础,提出了采场顶板、巷道顶板控制、冲击地压、顶板水害,以及地表沉陷等煤矿灾害事故致灾条件及其控制措施,构建了相关采场灾害控制结构力学模型。建立的采场空间模型解释了"裂断拱"和"应力拱"结构演化规律以及采动应力与覆岩空间结构演化的相关性;指出了导水裂隙带高度与"裂断拱"高度范围基本一致,是顶板水害治理依据;建立了基于"应力拱"拱外岩梁下沉预测地表沉陷的方法;提出了对直接顶采取"给定载荷"控制方式,对基本顶采取"给定变形"和"限定变形"控制方式的支护方案;预测了冲击地压可能发生位置并提出了控制措施;提出了透水判据和不发生透水事故的合理工作面长度和开切眼位置的计算方法;建立了以开采工作面长度和覆岩裂断步距相关性为核心的采动沉陷模型,从力学的角度解释并计算分析了地表沉陷范围。实践证明,正确建立决策模型是实现煤矿灾害事故控制的基础,模型的建设有效实现了煤矿灾害事故控制从定性到定量的发展,可为煤矿灾害事故的有效预测和科学控制提供指导。

     

    Abstract: Based on the attention paid by the society to the safety of coal industry, the research on control of mining accident becomes more and more important, especially recently, the disaster accident occurs frequently, the safety form is more and more severe. Aiming at controlling dynamic disaster accidents in coal mine, a spatial structure model was modeled. The evolution of stress distribution and structure development in the spatial structure model, as well as the movement of overlying strata and the characteristics of strata behaviors during mining were revealed. Based on the spatial structure model and the mining-induced mechanical characteristics, the causing conditions of dynamic disaster accidents in coal mine, such as roof control, roadway roof control, rock burst, roof water inrush and surface subsidence, and related measures were analyzed, and the quantitative control-decision model of related dynamic disaster accidents was established.In the model, the evolution of “broken arch” and “stress arch” and the correlation between mining-induced stress and overlying strata movement were introduced. The height of the water flowing fractured zone is consistent with that of the “fractured arch”, which is the basis of roof water inrush control, and the method of surface subsidence prediction based on the strata stress model of out-arch was established. The support project of “given load” mode for the direct roof and "given deformation" and "limited deformation" mode for the basic roof were proposed. The possible location of rock burst and the measures were put forward. The criterion of water inrush and the calculation method of the reasonable length of working face and the position of presplitting blasting were presented. A mining-induced subsidence model based on the correlation between working face length and overlying strata fracture length was established, and the range of subsidence was calculated by mechanics.The results showed that the correct establishment of control-decision model was the basis of controlling disaster accident in coal mine. The construction of model realized the development on the control of dynamic disaster accidents in coal mine from qualitative to quantitative and provided a guidance for effective forecast and control of dynamic disaster accidents in coal mine.

     

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