Wind tunnel effects on gust-interaction simulations

IF 2.2 3区 工程技术 Q2 MECHANICS
Diederik Beckers, Jeff D. Eldredge
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引用次数: 0

Abstract

Large-amplitude flow disturbances, or gusts, can drastically alter the aerodynamic forces on an airfoil and are regularly investigated through wind tunnel (or water tunnel) experiments. The gusts generated in those experiments are often further analyzed using numerical simulations, but usually without fully accounting for the wind tunnel walls or gust generator. The current work investigates the wind tunnel effects on the predicted lift response and flow field using a computational framework that models the viscous flow around the airfoil but treats the tunnel walls and gust generation as inviscid boundary conditions. We apply this model to three examples and compare the predicted gust response with the responses predicted by a free-space viscous model and a classical unsteady aerodynamics model to highlight the wind tunnel effects. We find that the wind tunnel modeling introduces non-negligible effects depending on the airfoil and gust configurations. These effects include the confinement effect of the wind tunnel walls and the triggering of flow separation when it does not occur in the corresponding free-space model. In the last example, we also note that this virtual counterpart of an actual wind tunnel can be paired with experiments through data assimilation to increase the accuracy of the gust response or perform parameter estimation.

Abstract Image

风-相互作用模拟中的风洞效应
大振幅的气流扰动,或阵风,可以极大地改变翼型上的空气动力,并定期通过风洞(或水洞)实验进行调查。在这些实验中产生的阵风通常使用数值模拟进行进一步分析,但通常没有充分考虑风洞壁或阵风发生器。目前的工作是研究风洞对预测升力响应和流场的影响,使用一个计算框架来模拟翼型周围的粘性流动,但将风洞壁和阵风产生作为非粘性边界条件。我们将该模型应用于三个实例,并将预测的阵风响应与自由空间粘性模型和经典非定常空气动力学模型预测的阵风响应进行比较,以突出风洞效应。我们发现,风洞模型引入了不可忽略的影响取决于翼型和阵风配置。这些影响包括风洞壁面的约束效应和在相应的自由空间模型中不发生流动分离时触发的流动分离。在最后一个例子中,我们还注意到,这个实际风洞的虚拟对应物可以通过数据同化与实验配对,以提高阵风响应的准确性或进行参数估计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
5.80
自引率
2.90%
发文量
38
审稿时长
>12 weeks
期刊介绍: Theoretical and Computational Fluid Dynamics provides a forum for the cross fertilization of ideas, tools and techniques across all disciplines in which fluid flow plays a role. The focus is on aspects of fluid dynamics where theory and computation are used to provide insights and data upon which solid physical understanding is revealed. We seek research papers, invited review articles, brief communications, letters and comments addressing flow phenomena of relevance to aeronautical, geophysical, environmental, material, mechanical and life sciences. Papers of a purely algorithmic, experimental or engineering application nature, and papers without significant new physical insights, are outside the scope of this journal. For computational work, authors are responsible for ensuring that any artifacts of discretization and/or implementation are sufficiently controlled such that the numerical results unambiguously support the conclusions drawn. Where appropriate, and to the extent possible, such papers should either include or reference supporting documentation in the form of verification and validation studies.
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