外部空气动力学中的欧拉-拉格朗日混合求解器:机翼失速建模与分析

R. Pasolari, C. J. Ferreira, A. van Zuijlen
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引用次数: 0

摘要

融合欧拉方法和拉格朗日方法的混合计算求解器正在成为计算流体动力学,特别是外部空气动力学的强大工具。这些求解器依靠两种方法的优势:欧拉方法能有效处理边界层,而拉格朗日方法则能减少流动对流中的数值扩散。我们之前开发了一种二维混合求解器,结合了 OpenFOAM 和涡旋粒子法,本文在此基础上将其应用扩展到低雷诺数下机翼失速的复杂现象。具体而言,我们研究了美国国家航空咨询委员会(NACA)机翼系列 0012(NACA0012)在各种攻角和振荡频率下的静态和动态失速条件,并将结果与已有数据进行了比较。研究结果证明了欧拉-拉格朗日混合求解器在复制已知失速行为方面的准确性,凸显了其在先进空气动力学研究方面的潜力。这项工作不仅证实了混合求解器在精确模拟具有挑战性的流动方面的能力,还为其在外部空气动力学领域的进一步应用铺平了道路。
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Eulerian–Lagrangian hybrid solvers in external aerodynamics: Modeling and analysis of airfoil stall
Hybrid computational solvers that integrate Eulerian and Lagrangian methods are emerging as powerful tools in computational fluid dynamics, particularly for external aerodynamics. These solvers rely on the strengths of both approaches: Eulerian methods efficiently handle boundary layers, while Lagrangian methods excel in reducing numerical diffusion in flow convection. Building on our prior development of a two-dimensional hybrid solver that combines OpenFOAM with vortex particle method, this paper extends its application to the complex phenomena of airfoil stall at low Reynolds numbers. Specifically, we examine both static and dynamic stall conditions of a National Advisory Committee for Aeronautics (NACA) airfoil series 0012 (NACA0012) across a wide range of attack angles and oscillation frequencies, comparing our results with established data. The findings demonstrate the accuracy of hybrid Eulerian–Lagrangian solvers in replicating known stall behaviors, underscoring their potential for advanced aerodynamic studies. This work not only confirms the capability of hybrid solvers in accurately modeling challenging flows but also paves the way for their increased involvement in the field of external aerodynamics.
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