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主办单位:煤炭科学研究总院有限公司、中国煤炭学会学术期刊工作委员会
深埋薄基岩采场覆岩冒落拱与拱脚高耸岩梁复合承载结构形成机理与应用
  • Title

    Development and application of overburden structure composed of caving arch and towering roof beam in deep longwall panel with thin bedrock

  • 作者

    王兆会唐岳松李猛吴山西孙文超李家龙水艳婷

  • Author

    WANG Zhaohui,TANG Yuesong, LI Meng,WU Shanxi,SUN Wenchao,LI Jialong,SHUI Yanting

  • 单位

    中国矿业大学(北京) 能源与矿业学院放顶煤开采煤炭行业工程研究中心

  • Organization
    School of Energy and Mining Engineering,China University of Mining and Technology-Beijing;Top-coal Caving Mining Research Center of Coal Mining Industry
  • 摘要

    焦作煤田赋存深埋厚冲积层薄基岩煤层,覆岩构成的特殊性导致顶板活动剧烈地表下沉 系数大,采场面临强矿压突水溃沙威胁,沉陷区出现裂缝和积水,破坏房屋和农田。 为提高深埋薄 基岩采场围岩控制效果,以赵固二矿 14030 工作面为工程背景,采用室内试验理论分析和现场实 测等手段研究覆岩采动裂隙发育特征顶板结构形态与承载机理,探究支架选型与灾害防控方法。 结果表明:覆岩变形存在初始静止慢速增长快速增长和突变增长 个阶段,前 个阶段覆岩稳 定,第 阶段因变形局部集中进入非稳定状态,第 阶段因非连续变形进入裂隙发育进程;采动裂 隙萌生于高位厚冲积层,下行扩展导致基岩全厚断裂,形成覆岩冒落拱与拱脚高耸岩梁复合结构覆岩连续变形受关键层控制,非连续变形由冲积层冒落裂隙主导;基于关键层沉降特征解释了采动 裂隙萌生于高位厚冲积层的原因,揭示了裂隙下行扩展并贯穿岩层交界面的能量原理,采用断裂力 学理论推导了基岩发生全厚剪切破断的力学条件;构建了冲积层冒落拱与拱脚高耸岩梁复合结构 力学模型,提出了冒落拱极限承载能力与实际边界载荷计算方法,得到了冒落拱发生结构失稳的力 学判据,采动应力旋转促进冲积层载荷向拱脚两侧传递,增强了冒落拱自稳能力;提出了基岩破断 面恒定法向刚度条件下高耸岩梁承载能力计算方法,确定了保持岩梁平衡所需支架具备的支撑能 力;基于厚冲积层冒落拱与拱脚高耸岩梁复合承载机理,提出了液压支架强度-刚度双参量选型方 法和覆岩突水溃沙通道快速识别方法,实测结果表明赵固二矿 14030 工作面支架选型基本合理,突 水溃沙通道识别则为顶板注浆钻孔参数确定提供了指导


  • Abstract

    Deep coal seam with an overburden of thin bedrock and thick alluvium is affluent in Jiaozuo coalfield. Due to the special composition of overburden,roof movement is active and surface subsidence coefficient is large. Min- ing activity is threatened by strong mining pressure and water-sand inrush accident. The fracture and water are ob- served at the surface of mined-out area, which destroys buildings and agricultural land. In order to improve ground control in such longwall panels, overburden fracture development, structure formation and its bearing mechanism are analyzed by taking No. 14030 longwall panel in the second coal mine of the Zhaogu mining area as the background. Based on the results from laboratory test,theoretical analysis and field measurement,the overburden de- formation is divided into four stages,including initial static,slow increase,quick increase and catastrophe increase sta- ges. The overburden is stable in the first two stages. It becomes instable due to deformation localization in the third stage and a fracture development appears due to discontinuous deformation in the last stage. Mining induced fracture initiates in the thick alluvium,propagating downward into the bedrock. Full-thick rupture of the bedrock leads to the formation of overburden structure composed of caving arch and towering roof beam. Overburden movement is dominated by the key stratum in the continuous stage,which becomes dominated by the fracture propagation of the al- luvium in the discontinuous stage. Fracture initiation is explained based on the deformation characteristics of the key stratum. The energy principle is used for explaining the fracture penetration phenomenon at the bedding plane. Full-thick shear rupture condition for the bedrock is deduced from fracture mechanics. After that, the mechanical model is established for the overburden structure composed of caving arch and towering roof beam. Load- bearing capacity and actual load transmitted onto the caving arch are determined,which reveals the structural instabili- ty condition of the arch. Mining induced stress rotation makes overburden load be transmitted toward the skew back of the arch,which greatly improves the arch stability. Load-bearing capacity of the towering roof beam is calculated by assigning constant normal stuffiness condition to the rupture fracture of the bedrock and moreover,the support capaci- ty necessary to keep the balance of towering roof beam is determined. Based on the bearing mechanisms of the com- bined overburden structure,a double parameter method,including strength and stiffness,is proposed for support design and a flowing path identification method for water-sand inrush is also put forward. Field measurements indicate that the support type is basically reasonable in No. 14030 longwall panel. Accurate identification of water and sand flowing path provides an effective guidance for the parameter determination of the grouting borehole in roof strata.

  • 关键词

    薄基岩厚冲积层覆岩裂隙冒落拱高耸岩梁承载机理

  • KeyWords

    thin bedrock;thick alluvium;overburden fracture;caving arch;towering rock beam;load-bearing mecha- nism

  • 引用格式
    王兆会,唐岳松,李猛,等.深埋薄基岩采场覆岩冒落拱与拱脚高耸岩梁复合承载结构形成机理与应用[J].煤炭学报,2023,48(2):563-575.
    WANG Zhaohui,TANG Yuesong, LI Meng,et al.Development and application of overburden structure composed of caving arch and towering roof beam in deep longwall panel with thin bedrock[J].Journal of China Coal Socie- ty,2023,48(2):563-575.
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    • 赵固二矿14030工作面地质条件与开采特征

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