Shock-unsteadiness model applied to oblique shock wave/turbulent boundary-layer interaction

Pasha AA; Sinha K

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Shock-unsteadiness model applied to oblique shock wave/turbulent boundary-layer interaction

机译：激波不稳定模型应用于斜激波/湍流边界层相互作用

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Reynolds-averaged Navier-Stokes prediction of shock wave/turbulent boundary layer interactions can yield significant error in terms of the size of the separation bubble. In many applications, this can alter the shock structure and the resulting surface properties. Shock-unsteadiness modification of Sinha et al. (Physics of Fluids, Vol.15, No.8, 2003) has shown potential in improving separation bubble prediction in compression corner flows. In this article, the modification is applied to oblique shock wave interacting with a turbulent boundary layer. The challenges involved in the implementation of the shock-unsteadiness correction in the presence of multiple shock waves and expansion fans are addressed in detail. The results show that a robust implementation of the model yields appreciable improvement over standard k-omega turbulence model predictions.

机译：雷诺平均对冲击波/湍流边界层相互作用的Navier-Stokes预测可能会在分离气泡的大小方面产生很大的误差。在许多应用中，这可能会改变冲击结构和最终的表面性能。 Sinha等人的冲击非稳态修正。（Physics of Fluids，Vol.15，No.8，2003）显示了改进压缩角流中分离气泡预测的潜力。在本文中，此修改适用于与湍流边界层相互作用的倾斜冲击波。详细解决了在存在多个冲击波和膨胀风扇的情况下实施冲击不稳定校正的挑战。结果表明，与标准的k-ω湍流模型预测相比，该模型的稳健实现产生了可观的改进。

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《International journal of computational fluid dynamics》 |2008年第8期|共14页
作者
Pasha AA; Sinha K;
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正文语种 eng
中图分类力学;
关键词
high-speed flows; turbulent boundary layer; shock-unsteadiness; separation bubble; turbulence modelling; NAVIER-STOKES EQUATIONS; TURBULENCE MODELS; INTERACTION FLOWS; LINE RELAXATION; HEAT-FLUX;

机译：高速流动;湍流边界层;冲击不稳定;分离气泡;湍流建模;NAVIER-STOKES方程;湍流模型;相互作用流;线松弛;热通量;

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1. Shock-unsteadiness model applied to oblique shock wave/turbulent boundary-layer interaction [J] . Pasha AA, Sinha K International journal of computational fluid dynamics . 2008,第8期

机译：激波不稳定模型应用于斜激波/湍流边界层相互作用
2. Algebraic turbulence modeling for swept shock-wave/turbulent boundary-layer interactions [J] . Argryis G.Panaras AIAA Journal . 1997,第3期

机译：扫掠波/湍流边界层相互作用的代数湍流建模
3. Oblique-Shock-Wave/Boundary-Layer Interaction Using Near-Wall Reynolds Stress Models [J] . G. A. Gerolymos, E. Sauret, I. Vallet AIAA Journal . 2004,第6期

机译：斜波-波/边界层相互作用的近壁雷诺应力模型
4. Numerical Investigation of Oblique Shock-Wave/Turbulent Boundary-Layer Interaction Control Using Plasma Actuators [C] . Michael Atkinson, Jonathan Poggie, Jose Camberos 41st AIAA fluid dynamics conference and exhibit 2011 . 2011

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5. Assessment of Wilcox κ - ω Turbulence Model in Regions of Shock-Wave Turbulent Boundary-Layer Interaction [D] . Alviani, Robert A. 2018

机译：冲击波湍流边界层相互作用区域中Wilcoxκ - ω湍流模型的评估
6. Experimental Studies on Wave Interactions of Partially Perforated Wall under Obliquely Incident Waves [O] . Jong-In Lee, Young-Taek Kim, Sungwon Shin -1

机译：斜入射波作用下部分孔壁波相互作用的实验研究
7. Turbulence modeling for sharp-fin-induced shock wave/turbulent boundary-layer interactions [O] . Horstman C. C. 1991

机译：湍流模型，用于锐鳍诱发的冲击波/湍流边界层相互作用
8. Calculations of Oblique Shock Wave/Turbulent Boundary-Layer Interactions With New Two-Equation Turbulence Models [R] . Liou, William W., Huang, P. G. 1996

机译：用新的双方程湍流模型计算斜冲击波/湍流边界层相互作用

Shock-unsteadiness model applied to oblique shock wave/turbulent boundary-layer interaction

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