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基于DRG和QSSA方法的煤油详细燃烧机理简化 被引量:14

Reduction of kerosene detailed combustion reaction mechanism based on DRG and QSSA
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摘要 利用直接关系图DRG和准稳态假设法QSSA发展了一套详细燃烧机理的简化程序。采用DRG对209组分1 673个反应的煤油详细燃烧动力学机理进行简化,取阈值0.6得到了包含84组分的骨架机理,并对骨架机理和详细机理的结果进行了对比和分析;在骨架机理的基础上采用QSSA方法,进一步得到了包含24组分20方程的简化反应模型。计算表明:84组分的骨架机理在较宽的参数范围内得到的良搅拌反应器(PSR)结果和点火延迟数据都与详细机理一致;采用24组分20方程的总包反应模型得到的点火延迟、组分等数据都与详细机理结果非常接近。总包反应的组分数量满足CFD计算的要求,具有较好的工程应用前景。 A program for detailed combustion mechanism reduction was developed based on Direct Relation Graph(DRG) and Quasi Steady State Approximation(QSSA) method.By setting parameter to 0.6 in DRG,84 species skeletal mechanisms were obtained for kerosene combustion containing 209 species and 1 673 reactions.Comparison and analysis was done between detailed and skeletal mechanisms.Then 24 species and 20 reactions reduced reaction model was generated by QSSA based on the skeletal mechanism.It demonstrated that PSR results and ignition delay time of 84 species skeletal mechanism agreed well with detailed mechanism over a wide range.The ignition delay and species data of 24 species and 20 reactions reduced model show good consistency with detailed model.The species number of global reaction model satisfies the need of CFD computation,so gives good perspective for engineering application.
作者 刘建文 熊生伟 马雪松
机构地区 中国航天科工集团三十一研究所高超声速冲压发动机技术重点实验室
出处 《推进技术》 EI CAS CSCD 北大核心 2011年第4期525-529,549,共6页 Journal of Propulsion Technology
关键词 煤油 燃烧机理 直接关系图法 准稳态假设 骨架机理 Kerosene Combustion mechanism DRG QSSA Skeletal mechanism
分类号 O643 [理学—物理化学]
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参考文献20

  • 1Vajda S, Valko P, Turanyi T. Princpal component analysis of kinetic models[ J ]. International Journal of Chemical Kinetics, 1989,21 ( 1 ) :83-99.
  • 2Turanyi T. Application of sensitivity analysis of combustion chemistry [ J ]. Reliability Engineering and System Safety, 1997, 57(1): 41-48.
  • 3Turanyi T. Sensitivity analysis of complex kinetic systems:tools and application[J]. J. Math Chem, 1990, 5 ( 3 ) :203-248.
  • 4Lu T F, Law C K. On the applicability of directed relation graphs to the reduction of reaction mechanisms[ J]. Combustion and Flame, 2006,146 (3) :472-483.
  • 5Lu T, Law C K , Chen J. Development of non-stiff reduced mechanisms for direct numerical simulations [ D ]. USA:46th AIAA Aerospace Sciences Meeting and Exhibit including The New Horizons Forum and Aerospace Exposition ,2008.
  • 6Pepiot P, Pitsch H. Systematic reduction of large chemical mechanisms[ D]. PA : 4th Joint Meeting of the US Sections of the Combustion Institute Philadelphia, 2005.
  • 7Zheng X L, Lu T F,Law C K. Experimental counterflow ignition temperatures and reaction mechanisms of 1,3-butadiene [ J ]. Proeedings of Combustion Institute, 2007, 31 : 367 -375.
  • 8Niemeyer Kyle E, Raju Mandhapati P, Chih Jen Sung. Skeletal mechanisms generation of surrogate fuels using directed relation graph with error propagation and sensitivity analysis[ R]. A1AA 2009-5495.
  • 9Wenting Sun, Zheng Chen, Xiaolong Gou, et al. A path flux analysis method for the reduction of detailed chemical kinetic mechanisms [ J ]. Combustion and Flame, 2010, 157(7) :1298-1307.
  • 10Montgomery C J, Cannon S M, Mawid M A, et al, Reduced chemical kinetic mechanisms for JP-8 combustion [ R]. AIAA 2002-0336.

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推进技术
2011年 第4期

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