Abstract
To accurately and reliably predict the time of spontaneous combustion of fractured coal around a borehole induced by gas drainage along the seam, this study performed an orthogonal test taking the No. 10 Coal Mine of Pingdingshan as the research object, in terms of the suction negative pressure and coal seam buried depth. COMSOL Multiphysics was used to model the orthogonal test results, and a multielement statistical analysis of four factors and their relationships with the spontaneous combustion of coal around the borehole and a single-factor analysis in line with the site conditions were performed on the modeling results through multiple regression. The results showed a nonlinear regression relationship between the sealing hole length, sealing hole depth, negative pressure, and coal seam depth and the spontaneous combustion of the coal around the gas drainage borehole; the prediction regression model is significant. Taking the field gas drainage in the No. 10 Coal Mine of Pingdingshan as an example, the relationship between the time of spontaneous combustion of gas drainage and the drainage pressure follows a power of two. When the drainage negative pressure is less than 45 kPa, the coal around the borehole is more likely to undergo spontaneous combustion with increasing pressure, and the sealing hole length has a positive linear correlation with the time of spontaneous combustion of the coal around the borehole. When the sealing hole length is 23 m, the time of spontaneous combustion of the coal around the gas drainage hole is >500 days, and the coal around the borehole does not easily undergo spontaneous combustion. When the sealing depth is 15 m, the time of spontaneous combustion of the coal around the gas drainage hole is 76 days, which is most likely to cause spontaneous combustion.
Highlights
Coal is a basic form of energy in China, and gas leakage has been the main factor threatening the safety of coal production with increasing mining depth
Prolonging the extraction time of gas drainage borehole increases the oxidation time for coal spontaneous combustion. e spontaneous combustion of the surrounding coal due to gas drainage boreholes seriously affects the smooth progress of projects and poses a safety risk to miners working in the coal mining face
Based on the actual gas drainage situation of Pingdingshan No 10 Mine, we study and analyze the relationships between the drainage negative pressure, plugging length, plugging depth, and drainage time and help select the optimum drainage and sealing parameters. e hole parameters provide a theoretical basis for preventing the spontaneous combustion of coal around gas drainage boreholes
Summary
Coal is a basic form of energy in China, and gas leakage has been the main factor threatening the safety of coal production with increasing mining depth. It can be concluded that the sealing depth and length of the gas drainage borehole affect the spontaneous combustion of the coal around the borehole and that these parameters can be used as indicators of the natural combustion time of coal. If the negative pressure applied during coal seam drainage is constant, to reflect the different drainage from the coal body around the drilling holes under negative pressure changes over time, we conducted a simulation based on COMSOL software on the 24130 mining face under a hole sealing depth of 18 m, sealing hole length of 10 m, and drainage pressures of 15, 20, 23, 28, and 35 kPa to study the spontaneous combustion situation around the borehole. E growth rate increases; the negative pressure of drainage is another important factor affecting the spontaneous combustion of coal around gas drainage boreholes
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