摘要
According to spontaneous combustion propensity,the longwall gob is divided into three zones,including heat dissipation zone,self-heating zone and the choking zone.Only in the self-heating zone can temperature of coal rise due to oxidation.Studying the distribution of the "Three Zones" in gob is important for predicting and preventing spontaneous combustion in coalmine.In normal mining operations,temperature of coal is roughly constant.The process of mass transfer in the gob is considered to be steady.Based on mass conservation,gas species conservation,darcy's law,Ficks law of diffusion and coal oxidation 1-grade reaction rule,governing equation for air leakage intensity and species concentration are deduced.With critical value of coal spontaneous combustion and the size of longwall workface as basic dimension,a dimensionless steady coupled model of air flow diffusion and chemical reaction in loose coal of Fully Mechanized Top-Coal Caving Mining Workface(FMTCCMW) is setup.By solving the model numerically,regulation of three zones' distribution and spontaneous combustion in the gob can be obtained.The results can be easily popularized to prediction of spontaneous combustion in other coalmines' longwall gob.
According to spontaneous combustion propensity, the longwall gob is divided into three zones, including heat dissipation zone, self-heating zone and the choking zone. Only in the self-heating zone can temperature of coal rise due to oxidation. Studying the distribution of the "Three Zones" in gob is important for predicting and preventing spontaneous combustion in coalmine. In normal mining operations, temperature of coal is roughly constant. The process of mass transfer in the gob is considered to be steady. Based on mass conservation, gas species conservation, darcy' s law, Ficks law of diffusion and coal oxidation 1-grade reaction rule, governing equation for air leakage intensity and species concentration are deduced. With critical value of coal spontaneous combustion and the size of longwall workface as basic dimension, a dimensionless steady coupled model of air flow diffusion and chemical reaction in loose coal of Fully Mechanized Top-Coal Caving Mining Workface (FMTCCMW) is setup. By solving the model numerically, regulation of three zones' distribution and spontaneous combustion in the gob can be obtained. The results can be easily popularized to prediction of spontaneous combustion in other coalmines' longwall gob.
出处
《西安科技大学学报》
CAS
北大核心
2011年第6期649-654,共6页
Journal of Xi’an University of Science and Technology
基金
Supported by the National Natural Science Foundatin of China(10972178)
