Risk analysis of spontaneous coal combustion in steeply inclined longwall gobs using a scaled-down experimental set-up

•An inclination-adjustable working face gob model was developed.•The oxygen concentration in steeply inclined longwall gobs was analyzed.•The spontaneous coal combustion risk zones in steeply inclined longwall gobs were drawn.•A simple practical method was proposed for risk analysis. Spontaneous coa...

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Bibliographic Details
Published in:Process safety and environmental protection 2017-10, Vol.111, p.1-12
Main Authors: Su, Hetao, Zhou, Fubao, Song, Xiaolin, Qiang, Ziying
Format: Article
Language:English
Subjects:
Air flow
Airflow direction
Coal
Coal mines
Coal mining
Combustion
Concentration gradient
Ecological risk assessment
Inclination
Longwall mining
Maximum width
Oxygen
Oxygen concentration
Quantitative analysis
Quantitative risk analysis
Risk analysis
Risk assessment
Risk zone
Underground mining
Ventilation
Ventilation rate
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Summary:•An inclination-adjustable working face gob model was developed.•The oxygen concentration in steeply inclined longwall gobs was analyzed.•The spontaneous coal combustion risk zones in steeply inclined longwall gobs were drawn.•A simple practical method was proposed for risk analysis. Spontaneous coal combustion in longwall gobs which are formed via underground mining is responsible for the loss of coal resources and impairs the ecological environment. Few studies are focused on risk analysis of spontaneous coal combustion in steeply inclined longwall gobs with experiments. In this work, an inclination-adjustable longwall gob model was developed to analyze the effects of airflow direction and ventilation rate on the oxygen concentration in steeply inclined longwall gobs (inclination angles of ±55°). According to the oxygen concentration gradients, the Spontaneous Coal Combustion Risk Zone (SCCRZ) was drawn. Furthermore, a simple practical method was proposed to quantitatively determine the risk of spontaneous coal combustion in steeply inclined longwall gobs. The results show that the SCCRZ mainly focuses on the lower side regardless of airflow direction. When the working face airflow direction is from the lower side to the upper side, the risk of spontaneous coal combustion tends to be stable with increasing ventilation rate. In case of the opposite airflow direction, the risk of spontaneous coal combustion increases significantly with increasing ventilation rate.
ISSN:0957-5820
1744-3598
DOI:10.1016/j.psep.2017.06.001