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一维湍流模型对He平面羽流和CH_4/H_2/N_2射流火焰的数值模拟 被引量:2

Simulation of He Plumes and CH_4/H_2/N_2Flames With One Dimensional Turbulence Model
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摘要 本文采用一维湍流模型(ODT)对氦气平面羽流和CH_4/H_2/N_2射流火焰进行数值模拟,和前人的实验结果进行定量地对比。结果表明,ODT模型能够准确地预测平面羽流基本特征,湍流涡团的分布同流场拉伸率之间具有密切的关系,涡团强度的分布能够直观地表明当地的湍流强度。ODT模型埘CH_4/H_2/N_2瞬态火焰的模拟定性反应了火焰特性及其与湍流作用的规律,对温度-混合分数的预测值和实测值进行比较,发现甲烷火焰燃烧在富燃料侧并未达到平衡状态,因而基元反应对火焰特性的预测具有重要作用。 In this paper, a He plane plume and CH4/H2/N2 jet flame are simulated with the One-Dimensional Turbulence (ODT) model. The predicted results are quantitatively compared with the experimental data. The results show that ODT simulation can correctly predicted the flow field of the He plane plume. The distribution of the turbulent eddies has a close relationship with the strain rate, and the eddy intensity indicates the local turbulence intensity. The simulation results of instantaneous CH4/H2/N2 flames based on ODT can qualitatively reveals the flame characteristics and its interaction with turbulence. The comparison between ODT prediction and the measured temperature-mixture fraction shows that the reaction doesn't reach equilibrium at the fuel-rich side. The detailed reactions mechanism shall be considered in order to acquire a correct result.
出处 《工程热物理学报》 EI CAS CSCD 北大核心 2012年第6期1073-1076,共4页 Journal of Engineering Thermophysics
基金 国家自然基龠咨勖项目(No.51006062:No.51076081)
关键词 一维湍流模型(ODT) 平面羽流 甲烷射流火焰 s One-Dimensional Turbulence (ODT) plane plume CH4 jet flame
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参考文献12

  • 1罗坤,刘小云,樊建人,岑可法.高雷诺数气固湍流射流的直接数值模拟[J].工程热物理学报,2004,25(3):431-434. 被引量:8
  • 2John R. Schmidt,Jost O. L. Wendt,Alan R. Kerstein.Non-equilibrium Wall Deposition of Inertial Particles in?Turbulent Flow[J].Journal of Statistical Physics.2009(2)
  • 3Rouse H,Yih C S,Humphreys H W.Gravitational convection from a boundary source[].Tellus.1952
  • 4W. T. Ashurst,A. R. Kerstein.One-Dimensional Turbulence: Variable-density formulationand application to mixing layers[].The Physics of Fluids.2005
  • 5Tarek Echekki,Alan R Kerstein,Thomas D. Dreeben,Jyh-yuan Chen.’’One-Dimensional Turbulence’’Simulation of Turbulent Jet Diffusion Flames:Model Formulation and Illustrative.Applications[].Combustion and Flame.2001
  • 6Reynolds W.C."the Element Potential Method for Chemical Equilibrium Analysis:Implementation in the Interactive program STANJAN"[]..1986
  • 7Kotsovinos,NE,List,EJ.Plane turbulent buoyant jets. Part I. Integral properties[].Journal of Fluid Mechanics.1977
  • 8Ramaprian,B.R.,Chandrasekhara,M.S.Measurements in vertical plane turbulent plumes[].Trans ASME J Fluid Eng.1989
  • 9Kerstein A R.One-dimensional turbulence:model formulation and application to homogeneous turbulence,shear flows[].Journal of Fluid Mechanics.1999
  • 10MEIER W,BARLOW R S,CHEN Y-L,et al.Raman/Rayleigh/LIF Meas-urements in a Turbulent CH4/H2/N2Jet Diffusion Flame:ExperimentalTechniques and Turbulent-Chemistry Interaction[].Combustion and Flame.2000

二级参考文献10

  • 1Gutmark E, Wygnanski I. The Planar Turbulent Jet. J.Fluid Mech., 1976, 73(3): 465-495
  • 2Cervantes de Gortari J C, Goldschmidt V W. The apparent Flapping Motion of a Turbulent Plane Jet-Further Experimental Results. J. Fluids Engr., 1981, 103(1):119-126
  • 3Melville W K, Bray K N C. A Model of the Two-Phase Turbulent Jet. Int. J. Heat Mass Transfer, 1979, 22:647-656
  • 4Chung J N, Troutt T R. Simulation of Particle Dispersion in an Axisymmetric Jet. J. Fluid Mech., 1988, 186:199-222
  • 5Thompson K W. Time Dependent Boundary Conditions for Hyperbolic Systems. J. Comput. Phys., 1987, 68:1-24
  • 6Berenger J P. A Perfectly Matched Layer for the Absorption of Electromagnetic Waves. J. Comput. Phys., 1994,114:185-200
  • 7Fan J R, Zheng Y Q, Yao J, et al. Direct Simulation of Particle Dispersion in a Three-Dimensional Temporal Mixing Layer. In: Proc. R Soc. Lond A, 2001, 457: 2151-2166
  • 8Wen F, Kamalu N, Chung J N, et al. Particle Dispersion by Vortex Structures in Plane Mixing Layers. J. Fluids Engr., 1992, 114:657-666
  • 9Albertson M L, Dai Y B, Jenson R A, et al. Diffusion of Submerged Jets. Trans. Am. Soc. Civ. Eng., 1950, 115:639-664
  • 10Bradbury L J S. The Structure of a Self-Preserving Turbulent Plane Jet. J. Fluid Mech., 1965, 23(1): 31-64

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