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不同孔隙泡沫陶瓷的导热性抑制瓦斯爆炸的实验研究 被引量:2

Effect of thermal conductivity of different pore foam ceramics' suppression of gas explosion
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摘要 为了研究不同孔隙泡沫陶瓷的导热性对抑制瓦斯爆炸的影响,通过对15 mm厚的细孔和中孔泡沫陶瓷在断面为200mm×200 mm的方形管道内进行爆炸实验,并对其进行导热系数的测定,以及其三维结构进行了微观分析.实验结果得出,细孔泡沫陶瓷的导热系数小于中孔泡沫陶瓷,细孔泡沫陶瓷对瓦斯爆炸的抑制效果比中孔泡沫陶瓷的好;结果表明,同一材质的抑爆材料,其导热性能越差,则其对瓦斯爆炸的抑制效果相对越好.研究结果对探索煤矿瓦斯爆炸抑制材料及其灾害防治具有重要的理论意义和实用价值. To study the effect of thermal conductivity of different pore foam ceramics' suppression gas explosion, in this paper, different pore foam ceramics of 15 mm thickness were carried out experiment in square pipe of 200 mm ×200 mm cross - section, their thermal conductivity were evaluated, and their three - dimensional microcosmic structure were analyzed. The results show that the thermal conductivity of pore foam ceramics is smaller than that of medium pore foam ceramics, the effect of pore foam ceramics' suppression gas explosion is better than that of foam ceramics with medium hole, for explosion suppression material of the same material, its thermal conductivity is worse, then its effect of its suppression on gas explosion is relatively better. The results of study have importantly theoretical significance and practical value to explore materials that suppress gas explosion and prevent disaster in coal mine.
作者 张巨峰 武元 梁建军 杨振东 李文忠 谷家涛 李倩
机构地区 靖远煤业集团有限责任公司魏家地煤矿 大同煤矿集团王坪煤电有限责任公司 中国矿业大学(北京)资源与安全工程学院
出处 《矿业工程研究》 2012年第2期44-48,共5页 Mineral Engineering Research
关键词 泡沫陶瓷 导热系数 瓦斯爆炸 抑制 foam ceramic thermal conductivity gas explosion suppression
分类号 TD712.7 [矿业工程—矿井通风与安全]
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  • 1喻健良,孟伟,王雅杰.多层丝网结构抑制管内气体爆炸的试验[J].天然气工业,2005,25(6):116-118. 被引量:26
  • 2王宇新,顾元宪,孙明.冲击载荷作用下多孔材料复合结构防爆理论计算[J].兵工学报,2006,27(2):375-379. 被引量:41
  • 3Kinoshita I, Kamiuto K, Hasegawa S. Study of simultaneous conductive and radiative heat transfer in hgigh porosity materials [J]. Proceedings of the 7th International Heat Transfer Conference, New York, 1982(2): 505-510.
  • 4Mujeebua M A, Abdullah a M Z, Abubakar b M Z, et al. Applications of porous media combustion technology: a review[J]. Applied Engeries, 2009, 86(9): 1365-1375.
  • 5Howell J R, Hall M J, Ellzey J L. Combustion of hydrocarbon fuels within porous inert media[J]. Progress Energy Combustion Science, 1996, 22(2): 121-145.
  • 6Trimis R, Durst F. Combustion in porous medium advances and appLications[J]. Combustion Science and Technology, 1996, 121(1): 153-168.
  • 7Barra A J, Ellzey J L. Heat recirculation and heat transfer in porous burners[J]. Combustion and Flame, 2004, 137(12): 230-241.
  • 8Sivashinsky G, Brailovsky I. On propagation limits in porous media combustion[J]. Combustion Theory and Modelling, 2002, 6(4): 595-605.
  • 9Tsotsas E, Martin H. Thermal conductivity of packed beds: a review [J ]. Chemical Engineering and Processing, 1987, 22( 1 ) :19-37.
  • 10Yagi S, Kunii D, Wakao N. Studies on axial effective thermal conductivities in packed beds[J]. AIChE Journal, 2004, 6(4):543-546.

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矿业工程研究
2012年 第2期

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