Numerical simulation test research on pressure relief effect of expansion-induced fracturing in shock-hazardous coal seams
Chen Changpeng1, Wang Jianhua2
1. School of Energy and Mining Engineering, Shandong University of Science and Technology, Qingdao 266590, China;
2. Xiaoyun Mine, Jining Mining Group Co., Ltd., Jining 272000, China
Abstract: In order to solve the problems of insufficient pressure relief capacity of the deep coal body in the roadway and limited improvement of the pressure relief effect in the existing large-diameter boreholes for pressure relief, based on the basis of analyzing the coal powder monitoring data before and after the pressure relief of conventional large-diameter boreholes in No. 1318 Face of Xiaoyun Coal mine, a pressure relief method caused by expansion and fracturing was proposed and improved the pressure relief technology of large-diameter holes. By means of numerical simulation, the pressure relief effects of expansion-induced fracturing under different expansion forces were compared and analyzed from the perspectives of the distribution of plastic zone and the stress difference of coal after expansion-induced fracturing. Finally, it was concluded that the implementation of expansion-induced fracturing pressure relief could effectively improve the pressure relief effect of coal body with the roadway side depth of 5 - 10 m. Compared with the conventional large diameter drilling, the pressure relief ability was increased by 136 %, and the pressure relief effect was obvious.
陈长鹏1,王建华2. 冲击危险煤层膨胀致裂卸压效果的数值模拟试验研究[J]. 煤炭与化工, 2022, 45(8): 29-32.
Chen Changpeng1, Wang Jianhua2. Numerical simulation test research on pressure relief effect of expansion-induced fracturing in shock-hazardous coal seams. CCI, 2022, 45(8): 29-32.
