Calculation of wing-body junction flow using Gao-Yong turbulence equations
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摘要: Gao-Yong湍流方程基于侧偏统计平均方法保留了湍流脉动量的一阶统计信息,并引入加权漂移速度对称性及正交各向异性,导出漂移流连续方程、动量方程和机械能方程,最后依据湍流物理的唯象论,使用动量传输链概念模化封闭了整个方程组.大量算例验证了此方程对广泛范围的复杂湍流问题的适定性.为了进一步的工程应用,将其加入开源计算流体力学软件OpenFOAM(Open Field Operation and Manipulation)中,并就翼体角偶流动进行了数值模拟.翼体角偶流动具有三维分离、马蹄涡等十分复杂的流动特征,通过与实验测量结果的对比研究表明,Gao-Yong湍流方程不论在定性还是定量上,都成功捕捉到这类复杂流动现象的主要特征,得到了令人满意的结果.
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关键词:
- 计算流体力学 /
- 湍流模化 /
- Gao-Yong湍流方程 /
- 翼体角偶流动
Abstract: The derivation of Gao-Yong turbulence equations was based on a partial statistical average scheme proposed in the past by the first author in an attempt to capture the drift flow, a first-order statistical moment of turbulent fluctuations. Continuity and momentum equations of turbulent fluctuations were obtained as a result of this valuable first statistical information. Orthotropic turbulence and momentum transfer chain were formulated in the modeling of correlation terms, eventually, led to a complete set of equations of turbulent flow with no empirical coefficients and wall functions. Numerical simulations in the past preliminarily verified the adaptability of Gao-Yong equations to a wide range of complex benchmark turbulent flows. In order to further application of these equations to engineering flows, the Gao-Yong turbulence equations were implemented into OpenFOAM and applied to the calculation of wing-body junction flow. The wing-body junction flow involves very complex feathers, such as a 3-D separation and a horseshoe vortex. The results of numerical simulation of this flow compared to experimental data show that all these main characteristics have been captured, both qualitatively and quantitatively. -
[1] Devenport W J,Simpson R L.Time-dependent and time-averaged turbulence structure near the nose of a wing-body junction [J].Journal of Fluid Mechanics,1990,210:23-55 [2] Apsley D D,Leschziner M A.Investigation of advanced turbulence models for the flow in a generic wing-body junction [J].Flow,Turbulence and Combustion,2001,67:25-55 [3] Fu Song,Xiao Zhixiang,Chen Haixin,et al.Simulation of wing-body junction flows with hybrid RANS/LES methods [J].International Journal of Heat and Fluid Flow,2007,28:1379-1390 [4] Gao Ge,Yong Yan.Partial-average-based equations of incompressible turbulent flow [J].International Journal of Non-Linear Mechanics,2004,39(9):1407-1419 [5] Weller H,Tabor G,Jasak H,et al.A tensorial approach to computational continuum mechanics using object-oriented techniques[J].Computers in Physics,1998,12(6):620-631 [6] 江立军,高歌,张常贤.三维斜掠后台阶数值模拟[J].北航学报,2010,36(1):87-90 Jiang Lijun,Gao Ge,Zhang Changxian.Numerical simulation of a swept backward-facing step flow[J].Journal o f Beijing University of Aeronautics and Astronautics,2010,36(1):87-90(in Chinese) [7] 高歌,熊焰. 侧偏平均湍流方程研究综述[J].中国力学文摘,2008,22(2):1-20 Gao Ge,Xong Yan.A review on the research development of Gao-Yong equations of turbulent flows[J].Chinese Mechanics Abstracts,2008,22(2):1-20(in Chinese) -
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