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《Coal Science and Technology》 2017-01
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Simulation on ignition source evolution features of large scale coal spontaneous combustion experiment

Yu Zhijin;Wen Hu;Chen Xiaokun;Zhai Xiaowei;School of Safety Science and Engineering,Xi'an University of Science and Technology;MOE Key Lab of Mining and Disaster Prevention in Western Mine;  
In order to make up the shortage that the repeatability poor of the large spontaneous combustion experiment and to master the fire source evolution features of the coal spontaneous combustion process under different external environment,with the application of the numerical simulation method and the establishment of the boundary condition same to the experiment environment,the major features of the fire source evolution in the furnace during the spontaneous combustion process were obtained.With the variation of the model parameters,the paper had a study on the heat radiation environment and the air leakage affected to the fire source distribution and temperature.The results showed that during the development process of the fire source location steadily forward to the air surface,the air leakage volume increased would not only obviously expand the high temperature scope,but the fire source location would be in a deep depth of the air surface under the same temperature.The environment heat radiation volume reduced would cause the fire source area to be expanded radially and would cause the coal temperature gradient reduced in the whole area.The air leakage condition would be mainly affect the coal temperature rising speed at the high temperature stage and the heat radiation volume increased would obviously expand the low temperature oxidation process of coal.
【Fund】: 国家自然科学基金青年基金资助项目(51404195);; 陕西省教育厅科研计划资助项目(14JK1476)
【CateGory Index】: TD752.2
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