Influence of Air Supply on Coal Spontaneous Combustion During Support Withdrawal in Fully Mechanized Coal Mining and its Prevention

Abstract: It is important to study the oxidation characteristics of coal samples under different air supply rates to prevent spontaneous combustion of coal, particularly when the air supply rate at the working face needs to be changed during support withdrawal. In this work a self-designed temperature-programmed experimental device was used to study the change laws of various index gases released during the spontaneous combustion of coal under various air supply conditions. The study focused on the analysis of the low-t… Show more

“…Yang Junzhe [4] compared the change curve of oxygen concentration in the corner of return air of working face with atmospheric pressure and temperature, and concluded that oxygen concentration in the corner of return air decreased with the decrease of atmospheric pressure. Zhang Lihui [5], under the negative pressure "U" type ventilation condition of working face with air leakage cracks, caused a large amount of low-oxygen gas already formed in the goaf to rush to the working face for air return through some air leakage cracks. Wenyong Lu et al [6] used SF 6 tracer gas air leakage detection method to find that the gas in the overlying goaf migrated to the goaf of the coal seam through some fissures, resulting in increased content of low-oxygen gas in the coal seam and easy to gouge out of the working face.…”

Study on the Cause of Hypoxia in the Corner of Return Air of Shallow Buried Flammable Coal Seam Group Mining Face and the Coordinated Prevention and Control of Coal Spontaneous Combustion

“…Yang Junzhe [4] compared the change curve of oxygen concentration in the corner of return air of working face with atmospheric pressure and temperature, and concluded that oxygen concentration in the corner of return air decreased with the decrease of atmospheric pressure. Zhang Lihui [5], under the negative pressure "U" type ventilation condition of working face with air leakage cracks, caused a large amount of low-oxygen gas already formed in the goaf to rush to the working face for air return through some air leakage cracks. Wenyong Lu et al [6] used SF 6 tracer gas air leakage detection method to find that the gas in the overlying goaf migrated to the goaf of the coal seam through some fissures, resulting in increased content of low-oxygen gas in the coal seam and easy to gouge out of the working face.…”

Study on the Cause of Hypoxia in the Corner of Return Air of Shallow Buried Flammable Coal Seam Group Mining Face and the Coordinated Prevention and Control of Coal Spontaneous Combustion