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多孔介质中的预混燃烧发展现状 被引量:24

Investigation on Premixed Combustion in Porous Medium Burner
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摘要 论述了多孔介质燃烧技术机理、优点和应用前景,对多孔介质的材料、特别是泡沫陶瓷进行了讨论,回顾了对几种多孔介质的热物理特性和传输特性的一些研究。还介绍了气体在多孔介质中燃烧的研究现状、组合多孔介质和多级燃烧方式在该技术中的应用及其与燃烧规律相匹配的渐变型多孔介质燃烧器的设想。 The combustion mechanism of premixed combustion in porous medium is discussed both with its strong virtues and broad application. Researches and investigations on thermo physical and transportation characteristics of porous medium materials are reviewed. From such as radiation sendout, stability of combustion, combustion velocity and waste emission, researches on premixed combustion of gas fuels in porous medium burner are discussed in detail. It also reviews the investigations on non-homogeneous porous medium burner and staged combustion burner, and present an idea of designing a Gradually-varied Porous Media burner, which is more matched with combustion discipline.
作者 吴学成 程乐鸣 王恩宇 骆仲泱 岑可法
机构地区 浙江大学
出处 《电站系统工程》 北大核心 2003年第1期37-40,共4页 Power System Engineering
基金 国家自然科学基金资助项目(50176043)
关键词 多孔介质 预混燃烧 热物理特性 传输特性 气体燃料 porous media premixed combustion gas fuels
分类号 TK16 [动力工程及工程热物理—热能工程]
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参考文献19

  • 1S Moβbauer, O Pickenacker, K Pickenacker, et al. Application of the Porous Burner Technology in Energy- and Heat- Engineering [C].Fifth International Conference on Technologies and Combustion for a Clean Environment (Clean Air V), Lisbon, 1999, Volume Ⅰ: 519~523.
  • 2Pickenacker, K Pickenacker, K Wawrzinek, et al. Innovative Ceramic Materials For Porous-Medium Burners [J]. Interceram, 1999, 48(5/6).
  • 3Hsu P F, Howell J R. Measurements of thermal conductivity and optical properties of porous partially stabilized zirconia [J].Experimental Heat Transfer, 1993(5), 293~313.
  • 4Hendricks T J, Howell J R. Absorption/scattering coefficients and scattering phase functions in reticulated porous ceramics [J]. J. Heat Trans., 1996, 118 (1).
  • 5Viskanta R. Convective heat transfer in consolidated porous materials:A Perspective in Symposium on Thermal Science and Engineering [C]. Chang-Lin Tien, U. of California, Berkeley, 1995.
  • 6X Fu, R Viskanta , J P Gore. Prediction of Effective Thermal Conductivity of Cellular Ceramics [J]. Int. Comm. Heat Mass Transfer, 1998, 25(2): 151~160.
  • 7Doermann D, Sacadura J F. Heat Transfer in Open Cell Foam Insulation [J]. J. Heat Transfer, 1996, 118(1): 88~93.
  • 8Tong T W, Sathe S B. Heat transfer characteristics of porous radiant burners [J]. ASME HTD, 1988, 104, 147~155.
  • 9Kulkarni M R, Peck R E. Analysis of a Bilayered Porous Radiant Burner [C]. Presented at the 1992 Fall Meeting of the Western States Section of The Combustion Institute, Berkeley, 1992:12~13.
  • 10Sathe S B, Kulkarni M R, Peck R E, et al. An experimental and theoretical study of porous radiant burner performance [C]. 23th Symposium (International) on Combustion, The Combustion Institute,Pittsburgh, 1990:1011~1018.

二级参考文献4

  • 1吕兆华 孙思诚.中段进气低排放多孔介质燃烧器的实验研究[J].中国学术期刊文摘,1998,2:239-241.
  • 2吕兆华,中国学术期刊文摘,1998年,2卷,239页
  • 3Hsu P F,Combustion Science Technology,1993年,90卷,149页
  • 4Xiong Tiangyu,Presentedat AFRC 1991 Spring Members Only Meeting,1991年

共引文献17

同被引文献217

引证文献24

二级引证文献85

电站系统工程
2003年 第1期

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