Coal and Gas Outburst Prevention Technology and Management System for Chinese Coal Mines: A Review

Abstract: Abstract. Based on the gas-geology rules of Chinese coalmines, the outburst accidents are characterized and the main reasons are found out on serious coal and gas outbursts in China. The development history of coal and gas outburst prevention and control are briefly introduced, and various related technologies and management system for outburst prevention were discussed in detail. The problems and development trends of outburst prevention and control in China were put forward in this paper. The results show th… Show more

“…According to the geological survey, 61.14% of deep coal reserves are greater than 1000 m (Tang et al, 1999). There are currently more than 40 coal mines mining at depths greater than 1000 m, and the deepest mining depth is 1501 m. With increasing mining depth, the methane induced coal mine disasters are more pronounced because of the high CMM gas content and pressure, which also attributes the coal and gas outburst during mining activity (Lama and Bodziony, 1998;Hao et al, 2014). Thus, a majority of state-of-the-art coal seam degasification techniques are developed to lower the coal seam methane content and pressure (Cheng et al, 2004;Wang, 2006;Yi, 2007;Yang et al, 2008;Jiang et al, 2008;Li et al, 2011;Wang, 2012;Karacan et al, 2011;Zabetakis et al, 1973;Noack et al, 1998;Hyman et al, 1987).…”

Temperature-dependent diffusion process of methane through dry crushed coal

“…According to the geological survey, 61.14% of deep coal reserves are greater than 1000 m (Tang et al, 1999). There are currently more than 40 coal mines mining at depths greater than 1000 m, and the deepest mining depth is 1501 m. With increasing mining depth, the methane induced coal mine disasters are more pronounced because of the high CMM gas content and pressure, which also attributes the coal and gas outburst during mining activity (Lama and Bodziony, 1998;Hao et al, 2014). Thus, a majority of state-of-the-art coal seam degasification techniques are developed to lower the coal seam methane content and pressure (Cheng et al, 2004;Wang, 2006;Yi, 2007;Yang et al, 2008;Jiang et al, 2008;Li et al, 2011;Wang, 2012;Karacan et al, 2011;Zabetakis et al, 1973;Noack et al, 1998;Hyman et al, 1987).…”

Temperature-dependent diffusion process of methane through dry crushed coal

“…In recent years, China has developed fast excavation equipment that integrates coal cutting, anchoring support, and transportation, effectively addressing the problems of high manual support intensity and slow speed, thus enabling parallel excavation and anchoring operations and improving single-entry efficiency. This paper takes a threeheart arch-shaped working face as an example and proposes an efficient excavation process and solution for parallel anchoring operations [1][2][3][4][5].…”

Research on Digging Anchor Parallel Operation Efficient Excavating Technology and Equipment

“…Cheng et al [21] established a gas-solid coupling model considering fracture gas seepage, permeability evolution, and coal deformation to analyze the influence of diffusion and seepage on gas transport and investigate the mechanism of negative pressure in the gas extraction process. Hao et al [22] developed a fluid-structure interaction model that accounted for coal creep effects to determine the effective radius of boreholes at different burial depths. Wang et al [23] established a dynamic permeability change model of coal seams considering effective stress, gas desorption, and coal matrix shrinkage effects, simulating the penetration changes based on different coal seam gas pressures.…”

Study on the Influence Mechanism of Air Leakage on Gas Extraction Effect—A Numerical Case Study of the Coal Mine Site in Anhui