1148 工程科学学报,第42卷,第9期 实验研究.煤炭学报,2015,40(3):596) analysis method of index gas growth-rate.Coal Sci Technol,2014, [27]Zhu L Q,Deng Y,Wang F S.Index gas optimization of coal 42(7):49 spontaneous combustion with different metamorphic degree.Coal (邓军,赵婧昱,张嫵妮.基于指标气体增长率分析法测定煤自 Technol,2019,38(9):71 燃特征温度.煤炭科学技术,2014,42(7):49) (朱令起,邓毅,王福生,不同变质程度煤自燃指标气体优选.煤 [31]Li G H,Bi J Y,Zhang H,et al.Study on natural ignition 炭技术,2019,38(9):71) characteristic test of No.13 coal seam.Coal Chem Ind,2018, [28]Zhao J Y,Deng J,Song J J,et al.Effectiveness of a high- 41(4:111 temperature-programmed experimental system in simulating (李国辉,毕建乙,张辉,等.斜沟煤矿13号煤层自然发火特性试 particle size effects on hazardous gas emissions in bituminous 验研究.煤炭与化工,2018,41(4):111) coal.Saf Sci,2019,115:353 [29]Zhao J Y,Deng J,Wang T,et al.Assessing the effectiveness of a [32]Deng J,Zhao J Y,Xiao Y,et al.Thermal analysis of the pyrolysis and oxidation behaviour of 1/3 coking coal.J Therm Anal high-temperature-programmed experimental system for simulating the spontaneous combustion properties of bituminous coal through Calorim,2017,129(3):1779 thermokinetic analysis of four oxidation stages.Energy,2019,169: [33]Zhao J Y,Deng J,Chen L,et al.Correlation analysis of the 587 functional groups and exothermic characteristics of bituminous [30]Deng J,Zhao J Y,Zhang Y N.Study on determination of coal coal molecules during high-temperature oxidation.Energy,2019, spontaneous combustion characteristic temperature based on 181:136实验研究. 煤炭学报, 2015, 40(3):596) Zhu L Q, Deng Y, Wang F S. Index gas optimization of coal spontaneous combustion with different metamorphic degree. Coal Technol, 2019, 38(9): 71 (朱令起, 邓毅, 王福生. 不同变质程度煤自燃指标气体优选. 煤 炭技术, 2019, 38(9):71) [27] Zhao J Y, Deng J, Song J J, et al. Effectiveness of a hightemperature-programmed experimental system in simulating particle size effects on hazardous gas emissions in bituminous coal. Saf Sci, 2019, 115: 353 [28] Zhao J Y, Deng J, Wang T, et al. Assessing the effectiveness of a high-temperature-programmed experimental system for simulating the spontaneous combustion properties of bituminous coal through thermokinetic analysis of four oxidation stages. Energy, 2019, 169: 587 [29] Deng J, Zhao J Y, Zhang Y N. Study on determination of coal spontaneous combustion characteristic temperature based on [30] analysis method of index gas growth-rate. Coal Sci Technol, 2014, 42(7): 49 (邓军, 赵婧昱, 张嬿妮. 基于指标气体增长率分析法测定煤自 燃特征温度. 煤炭科学技术, 2014, 42(7):49) Li G H, Bi J Y, Zhang H, et al. Study on natural ignition characteristic test of No.13 coal seam. Coal Chem Ind, 2018, 41(4): 111 (李国辉, 毕建乙, 张辉, 等. 斜沟煤矿13号煤层自然发火特性试 验研究. 煤炭与化工, 2018, 41(4):111) [31] Deng J, Zhao J Y, Xiao Y, et al. Thermal analysis of the pyrolysis and oxidation behaviour of 1/3 coking coal. J Therm Anal Calorim, 2017, 129(3): 1779 [32] Zhao J Y, Deng J, Chen L, et al. Correlation analysis of the functional groups and exothermic characteristics of bituminous coal molecules during high-temperature oxidation. Energy, 2019, 181: 136 [33] · 1148 · 工程科学学报,第 42 卷,第 9 期