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WANG Wencai, ZHANG Pei, WANG Xinzhou, ZHAO Jingwen, LIANG Boshuai, ZHANG Genyuan. Judgment of Combustion State in Coalfield Outcrop Fire Area[J]. Safety in Coal Mines, 2016, 47(4): 48-51.
Citation: WANG Wencai, ZHANG Pei, WANG Xinzhou, ZHAO Jingwen, LIANG Boshuai, ZHANG Genyuan. Judgment of Combustion State in Coalfield Outcrop Fire Area[J]. Safety in Coal Mines, 2016, 47(4): 48-51.
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Judgment of Combustion State in Coalfield Outcrop Fire Area

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  • Published Date: April 19, 2016
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    • Abstract
  • Based on the analysis of related data in coalfield outcrop fire area, MTLT-100 type coalfield outcrop fire similar simulation experiment device was designed independently, and the similar simulation experiment was carried out. Through the determination analysis of the gases including O2, CO, C2H6, C3H8, C2H4 and C2H2, the followed results show that: when coalfield outcrop fire coefficient R2 increased to 0.5, coalfield outcrop fire is developed from low temperature oxidation preheating process to the high temperature accelerated oxidation preheating process; when R2 increased to 0.8, fire is developed from high temperature accelerated oxidation preheating process to stable smoldering process; when the R2 is in a state of decline, fire is in the process of smoldering suffocation. When fire is in the process of stable smoldering, the fire area temperature is generally about 300 ℃, and it is below 300 ℃ in the rest of process.
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    • References (8)
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