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原文发表在《工矿自动化》2019年第11期,欢迎品读。
瓦斯爆炸事故是最严重的矿井事故之一,一旦发生往往会造成重大人员伤亡与财产损失。当前国内外学者针对瓦斯爆炸特性做了大量实验与分析探究。但现有研究大多从单组分气体或部分组分混合气体角度对瓦斯爆炸极限进行了分析,但对于煤自燃过程中不同阶段产生的混合气体对瓦斯爆炸极限的影响分析不足,对煤自燃与瓦斯爆炸的耦合致灾开展的实验研究较少。而矿井煤自燃诱发瓦斯爆炸事故,通常是煤自燃气体产物与瓦斯耦合爆炸致灾,煤自燃不同阶段生成的多组分混合气体对瓦斯爆炸极限的影响机制较为复杂。为了研究煤自燃不同阶段的气体成分特征及其对瓦斯爆炸下限的影响,本文通过模拟煤自燃实验装置研究了煤自燃过程中的气体生成特征规律;收集了煤自燃实验各个阶段的气体,采用20 L球形爆炸装置研究了煤自燃气体对瓦斯爆炸下限的影响。通过配入煤自燃实验各个阶段产生的混合气体与瓦斯进行爆炸实验,探究其爆炸压力与爆炸下限的变化,研究结果可为矿井煤自燃与瓦斯爆炸耦合致灾提供一定的实验和理论依据。
引用格式
顾周杰,刘贞堂,刘浩雄,等.煤自燃气体特征及其对瓦斯爆炸下限影响实验研究[J].工矿自动化,2019,45(11):59-64.
GU Zhoujie, LIU Zhentang, LIU Haoxiong, et al. Experimental research on characteristics of coal spontaneous combustion and its influence on lower limits of gas explosion[J].Industry and Mine Automation,2019,45(11):59-64.
作者联系方式
顾周杰(1996-),男,江苏泰兴人,硕士研究生,研究方向为瓦斯煤尘爆炸及防治,E-mail:1344618736@qq.com。
责任编辑联系方式
张强,E-mail:zhangqiang@cari.com.cn
煤自燃气体特征及其对瓦斯爆炸下限影响实验研究
Experimental research on characteristics of coal spontaneous combustion and its influence on lower limits of gas explosion
【作者】 顾周杰1,2,刘贞堂1,2,刘浩雄3,钱继发1,2,林松1,2,李晓亮1,2
【Author】 GU Zhoujie1,2,LIU Zhentang1,2,LIU Haoxiong3,QIAN Jifa1,2,LIN Song1,2,LI Xiaoliang1,2
【作者机构】1.中国矿业大学 安全工程学院, 江苏 徐州221116;2.中国矿业大学 煤矿瓦斯与火灾防治教育部重点实验室, 江苏 徐州221116;3.中国铁路上海局集团有限公司 徐州工务段, 江苏 徐州221005
【Unit】1.School of Safety Engineering, China University of Ming and Technology, Xuzhou 221116, China; 2.Key Laboratory of Coal Methane and Fire Control of Ministry of Education, China University of Mining and Technology, Xuzhou 221116, China; 3.Xuzhou Works Section, China Railway Shanghai Bureau Group Co., Ltd., Xuzhou 221005, China
【摘要】现有研究大多从煤自燃单组分气体或部分组分混合气体角度对瓦斯爆炸极限进行分析,而对煤自燃过程中不同阶段产生的混合气体对瓦斯爆炸极限的影响分析不足,对煤自燃与瓦斯爆炸的耦合致灾开展的实验研究较少。针对上述问题,通过模拟煤自燃实验装置研究了煤自燃过程中气体生成特征规律;采用20 L球形爆炸装置对瓦斯混合煤自燃各个阶段生成气体进行实验,研究了煤自燃气体对瓦斯爆炸下限的影响。实验结果表明,实验煤样自燃过程中产生的可燃性气体主要为CH4,CO,C2H4,C2H6,C2H2等,其中CH4和CO体积分数最高,最高体积分数分别为0.75%和0.37%;煤自燃不同阶段产生的可燃性气体含量随自燃时间的增加和温度的升高均呈现增大趋势,煤自燃加热初期,温度小于80 ℃主要产生了CH4,CO可燃性气体,CO可以作为煤自燃缓慢氧化阶段的标志气体;随着自燃时间的持续,温度超过80 ℃后,开始产生C2H4和C2H6,随后逐渐产生C3H8气体,C2H4的出现表明煤氧化进入了加速阶段;煤氧化自燃后期,大约到220 ℃时出现C2H2,此时煤进入激烈氧化阶段;低体积分数的CO能抑制瓦斯爆炸,高体积分数CO能促进瓦斯爆炸,导致爆炸压力变大,爆炸下限降低;煤自燃过程中产生的混合气体增大了瓦斯爆炸压力,爆炸下限最大降低了0.55%,瓦斯爆炸的危险性变大。
【Abstract】Most of existing research analyze gas explosion limit from single component gas or parial component mixed gas of coal spontaneous combustion, while analysis of gas explosion limit from mixed gas produced at different stages of coal spontaneous combustion is insufficient, and there are few experimental research on coal spontaneous combustion and gas explosion coupling disaster. In view of the above problems, the characteristic laws of gas generation in process of coal spontaneous combustion were researched by simulating experimental device of coal spontaneous combustion.The 20 L spherical explosion device was used to conduct the experiment about methane mix gas from coal spontaneous combustion at different stages,and effects of coal spontaneous combustion on the lower limits of gas explosion were studied.The experiment results show that main flammable gases of the coal sample spontaneous combustion are CH4, CO, C2H4, C2H6, C2H2, etc. Among these gases, CH4 and CO have the highest volume fraction, and the maximum volume fraction can reach 0.75% and 0.37% respectively. The content of flammable gases produced in different stages of coal spontaneous combustion is increased with the increase of spontaneous combustion time and temperature. CH4 and CO flammable gases are mainly produced at temperatures below 80 ℃ at the initial of coal spontaneous combustion, CO can be used as a marker gas for the slow oxidation stage of coal spontaneous combustion. As the time of spontaneous combustion continues,it starts to produce C2H4 and C2H6 after the temperature exceeds 80 ℃, and then C3H8 gas is gradually produced. At this time, the appearance of C2H4 indicates that the oxidation of coal has entered the acceleration stage. C2H2 is produced on the temperatures of 220 ℃ after the late stage of coal spontaneous combustion, at this point, the coal enters the intense oxidation stage. Low concentration of CO inhibits gas explosion, however, high concentration of CO promotes gas explosion, explosion pressure becomes larger, and lower explosion limit decreases. The mixed gas produced during the spontaneous combustion of coal increases the pressure of gas explosion, decreases the lower explosion limit by 0.55%,so increases the risk of gas explosion.
【关键词】 煤自燃气体特征;煤自燃与瓦斯爆炸耦合致灾; 瓦斯爆炸极限;瓦斯爆炸压力;瓦斯爆炸下限
【Keywords】gas characteristics of coal spontaneous combustion; coal spontaneous combustion and gas explosion coupling disaster; gas explosion limit; gas explosion pressure; lower limit of gas explosion
【基金项目】江苏高校优势学科建设工程资助项目
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