154 / 2023-07-01 22:13:51
The multiple index response law of wave velocity for the risk of coal seam outburst: experiment and case study
coal seam stress field,seismic wave CT,wave velocity gradient,wave velocity anomaly coefficient
Draft Accepted
Liming Qiu / University of Science and Technology Beijing
Yi Zhu / University of Science and Technology Beijing
Dazhao Song / University of Science and Technology Beijing
Jianguo Zhang / Pingdingshan Tianan Coal Mining Co., Ltd.
Man Wang / Pingdingshan Tianan Coal Mining Co., Ltd.
Xueqiu He / University of Science and Technology Beijing
Qiang Liu / University of Science and Technology Beijing
Qinglin Bao / Guizhou Panjiang Coal Power Group Technology Research Institute Co., Ltd.
Yingjie Zhao / University of Science and Technology Beijing
Anhu Wang / University of Science and Technology Beijing
Yujie Peng / University of Science and Technology Beijing
Gang Yang / University of Science and Technology Beijing
Cheng Yang / Guizhou Panjiang Coal Power Group Technology Research Institute Co., Ltd.
Coal and gas outburst seriously affect the safety of deep coal mine. Seismic wave CT detection is a new technology for detecting regional stress field. The research on the relationship between wave velocity derivative index and regional stress field is conducive to the further development of this technology. In our work, wave velocity, wave velocity anomaly coefficient and wave velocity gradient are applied to seismic wave CT detection to identify areas with large variation of stress disturbance in coal seams. The results show that the three indexes of wave velocity are positively correlated with stress, but the changes of wave velocity outliers and gradient indexes are more gently, and the correlation with stress is better. Due to the influence of geological structure such as valley, wave velocity Vp and wave velocity anomaly coefficient An of 11224 working face have large high-value abnormal areas. By comparing the distribution of gradient anomaly coefficient VG of wave velocity change, it can be concluded that this high-value area is not a dangerous area. Hydraulic fracturing can reduce the stress in coal seam area, and the boundary of pressure relief zone can be determined by using wave velocity index. The comparative analysis of the three indexes of wave velocity proposed in this paper can reveal the stress distribution of coal seam more accurately. Combined with the actual geological structure characteristics of coal seam, it can realize the accurate identification of the stress disturbance region of coal seam, and achieve the purpose of predicting coal and gas outburst.
Important Date
  • Conference Date

    Aug 18

    2023

    to

    Aug 20

    2023

  • Jul 07 2023

    Draft paper submission deadline

  • Aug 20 2023

    Registration deadline

Sponsored By
International Committee of Mine Safety Science and Engineering
Organized By
Heilongjiang University of Science and Technology
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