| 半封闭煤火演化过程的动力学特征 |
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| 引用本文: | 赵婧昱,张廷豪,宋佳佳,郭涛,张宇轩,邓军.半封闭煤火演化过程的动力学特征[J].西南交通大学学报,2023,58(1):117-124, 149. |
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| 作者姓名: | 赵婧昱 张廷豪 宋佳佳 郭涛 张宇轩 邓军 |
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| 作者单位: | 1.西安科技大学安全科学与工程学院,陕西 西安7100542.西安科技大学陕西省煤火灾害防治重点实验室,陕西 西安7100543.陕西省西安高新区应急管理局,陕西 西安7100654.陕西煤业化工技术研究院有限责任公司,陕西 西安 710065 |
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| 基金项目: | 国家自然科学基金(52174202) |
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| 摘 要: | 为研究松散煤体自然发火过程中氧气及温度阶段性的演化规律,搭建了半封闭煤火演化实验系统,探究煤体从常温到燃点过程中氧气浓度及温度变化情况,建立松散煤体自燃蔓延过程自然吸氧强度模型,分析自燃过程中氧气分布特征和温度场水平与纵向阶段性移动特征.结果表明:半封闭煤火演化实验系统能够较好地再现煤自燃“自然吸氧”过程,验证了自然吸氧效应为煤体自燃蔓延提供动力;煤体自然发火过程中,温度变化时间滞后于氧气浓度变化时间,其滞后时间差随煤层纵深变化的增加而增加;在水平方向上高温区域迁移趋势主要受煤体内部裂隙与孔隙分布的影响;自然吸氧强度与测点峰值温度随煤体纵深增加而降低,未发生自燃区域的下方氧气浓度大于其上层氧气浓度.研究成果对开采、运输、储存状态下的松散煤体自然发火的防治提供理论基础.
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| 关 键 词: | 松散煤体 自然吸氧效应 高温区域 温度特征 氧气浓度 |
| 收稿时间: | 2021-11-10 |
Dynamic Characteristics for Evolution Process of Semi-closed Coal Fire |
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| ZHAO Jingyu,ZHANG Tinghao,SONG Jiajia,GUO Tao,ZHANG Yuxuan,DENG Jun.Dynamic Characteristics for Evolution Process of Semi-closed Coal Fire[J].Journal of Southwest Jiaotong University,2023,58(1):117-124, 149. |
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| Authors: | ZHAO Jingyu ZHANG Tinghao SONG Jiajia GUO Tao ZHANG Yuxuan DENG Jun |
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| Institution: | 1.School of Safety Science and Engineering, Xi’an University of Science and Technology, Xi’an 710054, China2.Shaanxi Key Laboratory of Prevention and Control of Coal Fire, Xi’an University of Science and Technology, Xi’an 710054, China3.Shaanxi Engineering Research Center for Industrial Process Safety & Emergency Rescue, Xi’an 710065, China4.Shaanxi Coal Chemical Industry Technology Research Institute Co., Ltd., Xi’an 710065, China |
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| Abstract: | In order to study the evolution law of oxygen and temperature in the process of spontaneous combustion of loose coal, an experimental system for semi-closed coal fire evolution was built to explore the changes of oxygen concentration and temperature in the process of coal from normal temperature to ignition point, and to establish the natural oxygen absorption intensity model for the spontaneous combustion process of loose coal. The model analyzes the characteristics of oxygen distribution and the horizontal and longitudinal phase movement characteristics of the temperature field during the spontaneous combustion. The results show that the semi-closed coal fire evolution experimental system can better reproduce the natural oxygen absorption process in coal spontaneous combustion, which proves that the natural oxygen absorption effect contributes to the spontaneous combustion of coal mass. During the spontaneous combustion of coal mass, the temperature change time lags behind oxygen concentration change time, and the lag time difference increases with the coal seam depth. The migration trend in the high-temperature area in the horizontal direction is mainly affected by the distribution of cracks and pores at coal body. The natural oxygen absorption intensity and the peak temperature at measuring points decrease with the coal body depth growing, and the oxygen concentration in the lower area without spontaneous combustion is greater than that in the upper layer. The research results provide a theoretical basis for the prevention and control of spontaneous combustion of loose coal under mining, transportation and storage conditions. |
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