[1] ABEL F A. Contributions to the history of explosive agents[J]. Philadelphia Translation Science,1869,159: 489-516. [2] BERTHELOT M, PIERRE V. On the velocity of propagation of explosive processes in gases[J]. Hebd, Sceances,1881,93:18-21. [3] 萨文科[苏联].井下空气冲击波[M].丁亚伦,译.北京:冶金工业出版社,1979: 66-75. [4] EDWARDS D H, FEARNLEY P, NETTLRTON M A. Shock diffraction in channels with 90 deg bends[J].Journal of Fluid Mechanics,1983,132: 257-270. [5] MOEN I O, BJERKETVEDT D, RJNNAN A, et al. Diffraction of detonation from tubes into a large fuel-anti-explosive-cloud[J]. Symposium(International) on Combustion,1982,41: 635-644. [6] MASRI A R, BRAHIM S, NEHZAT J et al. Experimental study of premixed flame propagation over various solid obstructions[J]. Experimental Thermal & Fluid Science,2000,21(3): 109-116. [7] 吴红波,陆守香,张立.障碍物对瓦斯煤尘火焰传播过程影响的实验研究[J].矿业安全与环保,2004,31(3): 6-8. WU Hongbo, LU Shouxiang, ZHANG Li. Experimental study of influence of obstacle object upon propagation of gas and coal-dust explosion flame[J]. Mining Safety & Environmental Protection,2004,31(3): 6-8. [8] 刘玉姣.管道属性对瓦斯爆炸冲击波传播影响规律模拟研究[D].阜新:辽宁工程技术大学, 2013. LIU Yujiao. Simulation Study on the influence of pipeline attributes on gas explosion shock wave propagation[D]. Fuxin: Liaoning Technical University,2013. [9] 王海燕.煤矿瓦斯爆炸冲击波衰减规律研究与应用[J].煤炭学报,2009,34(6): 778-782. WANG Haiyan. Research and application of attenuation law about gas explosion shock wave in coal mine[J]. Journal of China Coal Society, 2009,34(6): 778-782. [10] 郗雪辰,张树海,苟瑞君,等.障碍物位置对瓦斯爆炸火焰传播影响的数值模拟[J].中北大学学报:自然科学版, 2015,36(1): 61-66. XI Xuechen, ZHANG Shuhai, GOU Ruijun, et al. Numerical simulation of the influence of obstacles position on flame propagation of gas explosion[J]. Journal of North University of China: Natural Science Edition, 2015,36(1): 61-66. [11] 余明高,万少杰,徐永亮,等.荷电细水雾对管道瓦斯爆炸超压的影响规律研究[J].中国矿业大学学报,2015,44(2):227-232,261. YU Minggao, WAN Shaojie, XU Yongliang, et al. Study on the overpressure of gas explosion in the pipeline affected by charged water mist[J]. Journal of China University of Mining & Technology,2015, 44(2):227-232,261. [12] 林柏泉,桂晓宏.瓦斯爆炸过程中火焰厚度测定及其温度场数值模拟分析[J].实验力学,2002,17(2): 227-233. LIN Baiquan, GUI Xiaohong. Computer simulation on the temperature field of gas explosion and lab measurement for the flame thickness[J]. Journal of Experimental Mechanics,2002,17(2): 227-233. [13] 庞磊,张奇,马秋菊.瓦斯浓度对煤矿巷道内瓦斯爆炸冲击波的影响[C].2012(沈阳)国际安全科学与技术学术研讨会论文集, 2012: 68-73. PANG Lei, ZHANG Qi, MA Qiuju. The influence of gas explosion shock wave in coal mine roadway on gas concentration[C]. 2012(Shenyang)Proceedings of the International Symposium on Safety Science and Technology,2012: 68-73. [14] 徐景德,杨庚宇.置障条件下的矿井瓦斯爆炸传播过程数值模拟研究[J].煤炭学报,2004, 29(1): 53-56. XU Jingde, YANG Gengyu. Numerical simulation of mine gas explosion propagation under barrier condition[J]. Journal of China Coal Society,2004, 29(1):53-56. [15] 刘玉姣,高科,贾进章.基于HLLC算法的连通器瓦斯爆炸模拟研究[J].中国安全科学学报,2018,28(12): 65-70. LIU Yujiao, GAO Ke, JIA Jinzhang. Numerical simulation of gas explosion in enclosed interconnected vessel based on HLLC algorithm[J]. China Safety Science Journal,2018,28(12): 65-70. [16] 张英浩,王志杰.管道内瓦斯爆炸压力的传播研究[J].工业安全与环保,2009,35(1): 43-44. ZHANG Yinghao, WANG Zhijie. Study on the propagation of gas explosion pressure in pipeline[J]. Industrial Safety and Environmental Protection,2009,35(1): 43-44. [17] 白岳松.受限空间瓦斯爆炸传播规律数值模拟研究[D].太原:太原理工大学,2012. BAI Yuesong. Numerical simulation of gas explosion propagation in confined space[D].Taiyuan:Taiyuan University of Technology,2012. |