• 论文
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
厚煤层一次采全高低位厚硬岩层垮落致冲机理与防治
  • Title

    Mechanism and prevention of rock burst caused by the collapse of low level thick hard rock strata at full height mining face in thick coal seam

  • 作者

    张俊文董续凯柴海涛宋治祥范文兵王黔吕玉磊 郑波白俊杰刘志高贾乐乐

  • Author

    ZHANG Junwen,DONG Xukai,CHAI Haitao,SONG Zhixiang,FAN Wenbing,WANG Qian,Lv Yulei,ZHENG Bo,BAI Junjie,LIU Zhigao,JIA Lele

  • 单位

    中国矿业大学(北京)能源与矿业学院煤炭科学技术研究院有限公司 安全分院中煤西北能源公司乌审旗蒙大矿业国家卫生健康委职业安全卫生研究中心

  • Organization
    School of Energy and Mining,China University of Mining and Technology-Beijing;Mine Safety Technology Branch of China Coal Research Institute;Wushenqi Mengda Minging Co. Ltd.,China Coal Northwest Onergy Co. Ltd.,;National Center For Occupational Safety and Health
  • 摘要

    基于某矿31103工作面煤层及顶板的基本参数,结合该工作面已发生冲击事件,发现低位厚硬岩层垮落是该矿发生冲击地压的主要原因。为此,以防治低位厚硬岩层垮落诱发冲击地压为目的,选取该矿31103回采工作面顶板垮落控制为工程背景,采用现场调研、理论分析等方法,研究了厚煤层一次采全高低位顶板支托层与随动层的运动规律,建立了采空区侧向支承压力力学计算模型,揭示了低位厚硬岩层垮落诱冲机理。所获主要结论如下:1)确定了工作面低位顶板岩层的基本参数,并计算得出了工作面低位岩层中较厚的协同垮落岩层。在工作面开采过程中,随动层随支托层运动发生同步变形,当工作面顶板发生大面积悬顶垮落时容易造成大能量动力现象;2)建立了采空区侧向支承压力力学计算模型,得到了采空区侧向支承压力峰值位置距采空区边缘约为45m,影响范围约为90m,支承压力峰值约为55MPa,31103工作面回风顺槽处于采空区侧向高支承压力影响范围。在工作面开采过程中,回风顺槽围岩应力已达到发生冲击地压的应力水平;3)揭示了低位厚硬岩层垮落致冲机理:采空区侧向支承压力形成的高应力静载是主要冲击力源,回采工作面厚硬支托层与其随动层同时垮落造成的扰动动载是主要诱发力源,两者叠加作用导致冲击地压事故;4)提出了针对性的防治措施:在本工作面同时采用水力压裂技术与爆破切顶技术;在下一临侧工作面则采取小煤柱护巷布置方式,并在采空区侧进行爆破断顶;基于上述卸压措施,在工作面继续推采过程中微震事件总体呈现为频次降低、单次能量减小、总能量减小的特征。

  • Abstract

    Based on the basic parameters of coal seam and roof in No. 31103 working face of a mine,combined with the rockburst events occurred in the working face,it is found that the collapse of low level thick hard rock strata is the main reason of rockburst occurred in the mine. Therefore,in order to prevent and control the rockburst induced by the collapse of low level thick hard rock strata,the roof collapse control of No. 31103 working face in the mine was selected as the engineering background. The motion law of the full height roof support layer and follow up layer in the thick coal seam mining was studied by field investigation and theoretical analysis. The mechanical calculation model of the side abutment pressure in the goaf was established,and the mechanism of the rockburst induced by the collapse of low level thick hard strata was revealed. The main results are as follows:① the basic parameters of the low level roof strata of the working face are determined,and the thick cooperative caving strata in the low level strata of the working face are calculated. In the mining process of working face,the follow up layer deforms synchronously with the movement of the support layer,and leads to large energy dynamic phenomenon when the roof of working face falls in large area. ② The mechanical calculation model of side abutment pressure in goaf is established,and the peak position of side abutment pressure in goaf is about 45 m from the edge of goaf,the influence range is about 90 m,and the peak value of side abutment pressure is about 55 MPa. The return roadway of No. 31103 working face is in the influence range of high side abutment pressure in goaf. In the mining process of working face,the stress of surrounding rock in return roadway has reached the stress level of rockburst.③ The mechanism of rockburst in low thick hard rock strata is revealed. The high static load formed by the side abutment pressure in the mining area is the main force source of rockburst,and the disturbance dynamic load caused by the simultaneous collapse of thick hard support layer and its follow up layer is the main inducing force source,and the both superimposed influence causes the rockburst. ④ Targeted prevention and control measures are proposed. Hydraulic fracturing technology and blasting roof cutting technology are used simultaneously in the working face. In the next neibourghing working face,the layout of small coal pillar roadway protection is adopted,and blasting roof cutting is conducted on the goaf side. Based on the above relief pressure measures,the micro seismic events in the continuous mining process of the working face are characterized by frequency reduction,single energy reduction and total energy reduction.

  • 关键词

    厚煤层临空工作面厚硬支托岩层冲击地压

  • KeyWords

    thick coal seams;full height mining face;working face along goaf;thick hard supported rock seams;rock burst

  • 基金项目(Foundation)
    国家自然科学基金资助项目(52034009,51974319);越崎杰出学者资助项目(2020JCB01)
  • 文章目录

    1 工程概况

       1.1 工作面概况

       1.2 已发生冲击事件案例

    2 厚煤层一次采全高低位厚硬岩层垮落致冲机理

       2.1 顶板岩层力学性质

       2.2 工作面顶板支托层及随动层分析

       2.3 顶板垮落充填程度计算

       2.4 顶板垮落步距分析验算

       2.5 采空区侧向支承压力分布研究

       2.6 低位厚硬岩层垮落冲击机理

    3 厚煤层一次采全高低位厚硬岩层垮落致冲防治措施

       3.2 冲击地压防治措施效果检验

    4 结论

  • 引用格式
    张俊文,董续凯,柴海涛,等.厚煤层一次采全高低位厚硬岩层垮落致冲机理与防治[J].煤炭学报,2022,47(2):734-744.
    ZHANG Junwen,DONG Xukai,CHAI Haitao,et al.Mechanism and prevention of rock burst caused by the collapse of low level thick hard rock strata at full height mining face in thick coal seam[J].Journal of China Coal Society,2022,47(2):734-744.
  • 相关文章
  • 相关专题
  • 图表
    •  
    •  
    • 工作面概况

    图(15) / 表(0)

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

©版权所有2015 煤炭科学研究总院有限公司 地址:北京市朝阳区和平里青年沟东路煤炭大厦 邮编:100013
京ICP备05086979号-16  技术支持:云智互联