Study on Gas Control Methods Optimization for Mining Safety

Liwen He,Chunshan Zheng,Baiqing Han,Sheng Xue,Xin Guo,Yingcheng Dai,Peng Liu

doi:10.1155/2021/4594330

Liwen He, Chunshan Zheng + Show 5 more

Open Access

https://doi.org/10.1155/2021/4594330

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Abstract

Effective gas control is of significance for safe efficient coal mining in Haizi Coal Mine and other mines with similar geological conditions. This study concentrates on gas control theories and techniques in multiple coal seams of Haizi Coal Mine (No. 7, No. 8, No. 9, and No. 10 coal seam from top to bottom). To minimize risk of high gas emission and outburst hazard, No. 10 seam was mined first as a protective seam prior to the mining of its overlying outburst-prone No. 7, No. 8, and No. 9 seam. Four gas drainage measures were determined for gas control, including cross-measure boreholes into overlying coal seams, surface goaf wells, roof boreholes, and roof gas drainage roadway. These gas control measures, if implemented through entire coal seam extraction, would be possibly uneconomic. An investigation was undertaken to analyze effects of those four measures on gas emission, methane concentration, and gas drainage quantity in No. 2 1024 mining panel of No. 10 seam. Results indicate that the highly expensive gas drainage measure of a roof roadway has poor drainage performance and could be effectively replaced by roof boreholes. When adopting the optimized combination of gas drainage measures, drainage efficiency of No. 7 seam, No. 8 seam, and No. 9 seam could reach 58.64% and decrease gas pressure to be below 0.74 MPa. Outcomes of this study could provide beneficial guidance not only for gas drainage design optimization in Haizi Coal Mine but also for other multiple-seam mines with similar mining and geological conditions, for increasing gas drainage efficiency and guaranteeing mining safety.

Highlights

Due to the specific conditions of energy demand in Chinese economic development, coal has been and will continue to be the dominant energy resource in China
3985 gas incidents occurred in Chinese coal mines in the period from 2001 to 2013 when coal industry developed rapidly [1]. erefore, preventing the occurrence of gas disasters is of great necessity
Taking Haizi Coal Mine as an example, this study discusses on-site investigation results of optimization of gas drainage measures combined with the multiple-seam protective mining method, for providing references on conducting safe efficient gas drainage and coal mining in large amount of coal mines similar to Haizi Coal Mine

Summary

Introduction

Due to the specific conditions of energy demand in Chinese economic development, coal has been and will continue to be the dominant energy resource in China. Starting in the 1970s, Chinese coal mines adopted the protective mining method with various gas drainage measures depending on localized geological and mining conditions, e.g., cross-measure boreholes were used to drain gas from relieved protected seams in No 4 Mine of Yangquan Coal Group in Shanxi Province, Wudanggou Coal Mine in Advances in Civil Engineering. The protective mining method combined with various gas drainage measures has been studied and applied in various coal seam conditions [14,15,16,17,18,19]. Taking Haizi Coal Mine as an example, this study discusses on-site investigation results of optimization of gas drainage measures combined with the multiple-seam protective mining method, for providing references on conducting safe efficient gas drainage and coal mining in large amount of coal mines similar to Haizi Coal Mine

Site Conditions

Gas Drainage Design of No 2 1024 Panel

Findings

Gas Drainage Design Optimization in No 2 1024 Mining Panel