A wall-boundary-natural transitional Reynolds-stress model for high-order wing-body simulations

湍流 机械 物理 雷诺应力 雷诺数 翼型 层流 湍流模型 雷诺应力方程模型 边值问题 湍流动能 经典力学 K-omega湍流模型 量子力学
作者
Shunshun Wang,Shengye Wang,Xiang Fu,Xiaogang Deng
出处
期刊:Physics of Fluids [American Institute of Physics]
卷期号:36 (8) 被引量:3
标识
DOI:10.1063/5.0219939
摘要

The precise simulation of full-size wing-body configuration in real flight conditions is still a challenge in computational fluid dynamics in which transition and flow separation are the most crucial issues. To predict these problems robustly by high-order numerical methods, this paper proposes a new transitional Reynolds-stress model, which combines λ-scale (λ=τ8)-based SSG (Speziale, Sarkar, and Gatski)/LRR (Launder, Reece, and Rodi) model with γ−Reθt transition model. Compared with the ω-scale, the λ-scale variable has a natural boundary condition on the wall (helpful for numerical stability) and avoids an additional modification during the transition from laminar to turbulent flow. The T3 series plates with/without pressure gradient, 30P-30N multi-element airfoil, and DLR (German Aerospace Center) 6:1 prolate spheroid are carried out to validate the reliability of the new nine-equation transition model. Furthermore, the new model is applied to the analysis of National Aeronautics and Space Administration juncture flow . Numerical results show that the new transitional model has an obvious advantage in the prediction of Reynolds stresses over the traditional γ−Reθt SST(shear stress transport) k−ω (k is the turbulence kinetic energy, ω is the specific dissipation rate) model, and then, more physical junction separation as well as transition onset can be obtained.

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