Experimental study on inhibition of spontaneous combustion of coal by gas mixture
白刚王硕硕兰天伟周西华辛天宇
BAI Gang;WANG Shuoshuo;LAN Tianwei;ZHOU Xihua;XIN Tianyu
辽宁工程技术大学 鄂尔多斯研究院辽宁工程技术大学 安全科学与工程学院
为了研究混合气体(O2/N2和O2/N2/CO2)对煤自燃特性的影响,利用同步热分析仪、程序升温-气相色谱联用仪/红外光谱仪研究煤在混合气体下的特征温度、热效应/标志气体及官能团变化。结果表明:O2/N2气体氛围(简称气氛)下,随着N2体积分数的增加,特征温度点滞后,TG、DTG、DSC均向高温偏移,放热量减少,燃烧阶段活化能升高,煤的最终耗氧量和CO体积分数均降低,煤中羟基增加,脂肪烃、含氧官能团、芳香烃的含量呈减少趋势;O2/N2/CO2气氛下,随着CO2体积分数的增加,特征温度点后移,放热量下降,燃烧阶段活化能减小,耗氧量、CO体积分数均降低,羟基、脂肪烃增加,含氧官能团的含量减少;当O2体积分数相同时,O2/N2/CO2混合气体中的失重率峰值、耗氧量与CO体积分数均小于O2/N2混合气体;−OH易被氧化发生脱水反应,煤在反应初期放热量较少,后期放热量快速增加,CO主要由−C=O生成。
In order to investigate the influence of gas mixture (O2/N2 and O2/N2/CO2) on the spontaneous combustion characteristics of coal, synchronous thermal analyzers, temperature programmed gas chromatography/infrared spectrometers were used to study the characteristic temperature, thermal effect/indicator gas, and functional group changes of coal under gas mixture. The results show that under O2/N2 atmosphere, with the increase of N2 volume fraction, the characteristic temperature point lags behind, TG, DTG, DSC all shift towards high temperature, heat release decreases, activation energy during combustion stage increases, final oxygen consumption and CO volume fraction of coal decrease, hydroxyl groups in coal increase, and the content of aliphatic hydrocarbons, oxygen-containing functional groups, and aromatic hydrocarbons shows a decreasing trend; under O2/N2/CO2 atmosphere, as CO2 increases, the characteristic temperature point shifts backward, the heat release decreases, the activation energy during the combustion stage decreases, the oxygen consumption and CO volume fraction both decrease, hydroxyl and fatty hydrocarbons increase, and the content of oxygen-containing functional groups decreases; when the volume fraction of O2 is the same, the peak weight loss rate, oxygen consumption, and CO volume fraction in the O2/N2/CO2 mixture are all lower than those in O2/N2; −OH is easily oxidized and undergoes dehydration reaction. Coal releases less heat in the initial stage of the reaction, but rapidly increases in the later stage. CO is mainly generated by −C=O.
煤自燃特征温度标志气体低温氧化官能团
coal spontaneous combustion;characteristic temperature;indicator gas;low temperature oxidation;functional group
主办单位:煤炭科学研究总院有限公司 中国煤炭学会学术期刊工作委员会