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基于波传播算法的火焰不稳定性 被引量:4

A Study of Flame Instability with Wave Propagation Algorithm
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摘要 基于波传播算法构造了多组分反应流的数值格式,利用CH4空气基元反应动力学模型,并采用分离算法,对CH4空气混合物中,入射激波与火焰的相互作用,以及反射激波与火焰的二次作用过程进行了数值模拟.根据计算结果,讨论了激波诱导火焰失稳的发展过程及其特点.结果表明,Helmholtz不稳定、RichtmyerMeshkov不稳定以及反应放热速率对火焰失稳过程有重要影响.计算结果与实验结果进行了比较,对数值方法的有效性进行了验证. Based on the wave propagation algorithm, a numerical scheme of muhi-component reactive system is constructed. The interaction between the incident shock wave and the flame bubble, and between the reflected shock wave and distorted flame of the CH4/air mixture are investigated numerically in the CH4/air elementary, reaction model and the splitting method. The evolution and properties of the flame instability induced by incident and reflected shock waves are discussed. The computation indicates that the Helmhohz instability, Richtmyer-Meshkov instability and chemical heat release rate play important roles in the interaction between shock waves and the flame. The calculated results are compared with experimental ones, and an agreement is shown.
出处 《计算物理》 CSCD 北大核心 2005年第4期371-376,共6页 Chinese Journal of Computational Physics
基金 国家自然科学基金(10172047) 中科院社会公益研究专项资金(2001DIA40035)资助项目
关键词 激波 火焰 不稳定性 数值计算 shock wave flame instability numerical simulation
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  • 1陈坚强.超声速燃烧流动及旋涡运动的数值模拟:博士学位论文[M].,1995..
  • 2[1]Miller J A,Bowman C T.Mechanism and modeling of nitrogen chemistry in combustion[J].Prog.Energy Combust.Sci.,1989,15:287-338
  • 3[2]Glarborg P,Alzueta M U Dun-Johansen K et al.Kinetic modeling of hydrocarbon/nitric oxide interactions in a flow reactor[J].Combust.Flame,1998,115:1-27
  • 4[3]Westbrook C K,Dryer F L.Chemical kinetic modeling of hydrocarbon combustion[J].Prog.Energy Combust.Sci.,1984,10:1-57
  • 5[4]Sher E,Refael S.A simplifie reaction scheme for the combustion of hydrogen enriched methane/air flame[J].Combust.Sci.Tech.,1988,59:371-389
  • 6[5]Miller J A,Kee R J,Westbrook C K.Chemical kinetics and combustion modeling[J].Annu.Rev.Phys.Chem.,1990,41:345-387
  • 7[6]Glarborg P,Miller J A,Kee R J.Kinetic modeling and sensitivity analysis of nitrogen oxide formation in well-stirred reactors[J].Combust.Flame,1986,65:177-202
  • 8[7]Grcar J F,Kee R J,Smooke M D et al.A hybrid newton/time-integration procedure for the solution of stead,laminar,one-dimensional,premixed flames[R].21st Symp.(inter.) Combust.,the Combust.Inst.Pittsburgh,1986.1773-1782
  • 9[8]Andrews G E,Bradley D.Determination of burning velocity by double ignition in a closed vessel[J].Combust.Flame,1973,20:77-89
  • 10[9]Gunther R,Janish G.Measurements of burning velocity in a flat flame front[J].Combust.Flame,1972,19:49-53

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  • 1董刚,于陆军,唐敖,范宝春.环形火焰引发爆震的数值研究[J].推进技术,2005,26(4):348-353. 被引量:6
  • 2Khokhlov AM,Oran ES,Chtchelkanova AY,et al.Interaction of a shock wave with a sinusoidally perturbed Flame.Combustion and Flame,1999,117(1-2):99-116
  • 3Khokhlov AM.Oran ES,Thomas GO.Numerical simulation of deflagration-to-detonation transition,the role of shock-flame interactions in turbulent flames.Combustion and Flame,1999,117(1-2):323-339
  • 4Leveque RJ.Wave propagation algorithms for multidimensional hyperbolic systems.J Computational Physics,1997,131(2):327-353
  • 5Markstein GH.Nonsteady Flame Propagation.New York:MacMillan,1964
  • 6Thomas G,Bambrey R'Brown C.Experimental observations of flame acceleration and transition to detonation following shockflame interaction.Combust Theory Modeling,2001,5(4):573-594
  • 7Law C K.Comprehensive description of chemistry in combustion modelingg[J].Combustion Science and Technology,2005,177(5):845-870.
  • 8Massias A,Diamantis D,Mastorakos E,et al.An algorithm for the construction of global reducd mechanisms with CSP data[J].Combustion and Flame,1999,117(4):685-708.
  • 9Nafe J,Maas U.Hierarchical generatio of ILDMs of higher hydrocarbons[J].Combustion and Flame,2006,135(1/2):17-26.
  • 10Jones W P,Rigopoulos S.Reduced chemistry for hydrogen and methanol premixed flames via RCCCE[J].Combustion Theory and Modelling,2007,11(5):755-780.

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