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Scramjet整机流场的非结构网格并行数值模拟 被引量:3

Numerical parallel simulations of whole scramjet flowfields on unstructured grids
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摘要 为了得到某支板喷氢超燃冲压发动机内流场的细节,采用非结构网格CFD隐式解算器,耦合求解Na-vire-Stokes方程、组分连续方程和M enter的k-ω应力剪切传输(SST)湍流模型,对整机模型的冷流和三个当量油气比的湍流反应流进行了三维并行模拟。给出了流线和水的分布云图,分析了支板附近旋涡和推进流道一维质量加权平均的马赫数、静温、组分质量分数及燃烧效率等参数随当量油气比的变化,并将壁面压力和实验值进行了比较,吻合较好。除=0.8在支板附近出现了小范围亚声速外,其余状态整个内流道超声速占主流。 An unstructured CFD solver which employs an implicit finite volume method to solve the complete Navire-Stokes,species and Menter s k-ω Shear Stress Transport(SST) equations in a fully coupled manner was applied to the 3-D parallel simulations of the cold and turbulent reacting flows of three fuel/air equivalence ratios  of a whole hydrogen fueled scramjet engine to get the flow information.Streamlines and H2O contours distributions were gained.Variations of vortexes near the strut and 1-D mass-weighted par...
作者 王兰 吴颖川 乐嘉陵
机构地区 中国空气动力研究与发展中心
出处 《推进技术》 EI CAS CSCD 北大核心 2009年第1期34-40,共7页 Journal of Propulsion Technology
关键词 超燃发动机 非结构网格 支板 湍流反应流 并行计算 旋涡 Scramjet Unstructured grid Strut Turbulent reacting flow Parallel simulations Vortex
分类号 V235.21 [航空宇航科学与技术—航空宇航推进理论与工程]
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同被引文献34

  • 1黄生洪,徐胜利,刘小勇.煤油超燃冲压发动机两相流场数值研究 (Ⅲ)煤油在超燃流场中的多步化学反应特征[J].推进技术,2005,26(2):101-105. 被引量:20
  • 2刘欧子,蔡元虎,胡欲立,刘敬华,凌文辉.凹槽火焰稳定器结构对煤油超声速燃烧的影响[J].推进技术,2005,26(4):354-359. 被引量:7
  • 3Oevermann M. Numerical Investigation of Turbulent Hy- drogen Combustion in a Scramjet Using Flamelet Modeling [ J]. Aerospace Science and Technology, 2000, 4 : 463- 480.
  • 4Battista F, Cutrone L, Amabile S, et al. Supersonic Combustion Models Application for Scramjet Engines [ R]. AIAA 2009-7207.
  • 5Kodcra M, Sunami T, Itoh K. Numerical Simulation of a Scramjet Engine for JAXA' s Flight Experiment Using Hy- Shot[ R]. AIAA 2005-3355.
  • 6Gerlinger P, Stoll P, Kindler M, et al. Numerical Inves- tigation of Mixing and Combustion Enhancement in Super- sonic Combustors by Strut Induced Streamwise Vorticity [J]. Aerospace Science and Technology, 2008, 12: 159- 168.
  • 7Edwards J R, Boles J A, Baurle R A. Large-Eddy/Reyn- olds-Averaged Navier - Stokes Simulation of a Supersonic Reacting Wall Jet [ J ]. Combustion and Flame, 2012, 159 : 1127-1138.
  • 8Kumaran K, Behera P R, Babu V. Numerical Investiga- tion of the Supersonic Combustion of Kerosene in a Strut-Based Combustor[J]. Journal of Propulsion and Power, 2010,26 (5) : 1084-1091.
  • 9Kumaran K, Babu V. Mixing and Combustion Character- istics of Kerosene in a Model Supersonic Combustor[J]. Journal of Propulsion and Power, 2009, 25 ( 3 ) : 583- 592.
  • 10Manna P, Behera R, Chakraborty D. Liquid-Fueled Strut-Based Scramjet Combustor Design: a Computational Fluid Dynamics Approach[J]. Journal of Propulsion and Power,2008,24(2) : 274-281.

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推进技术
2009年 第1期

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