利用边界层控制方法控制低雷诺数条件下厚翼面的空气动力特性

IF 1.8 Q3 MECHANICS Fluids Pub Date : 2024-01-17 DOI:10.3390/fluids9010026
Pavel Bulat, Pavel Chernyshov, Nikolay Prodan, Konstantin Volkov
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引用次数: 0

摘要

文章探讨了低雷诺数下厚翼面周围的流动行为,以及应用能量方法操纵流场以增加升力和减少阻力的可能性。研究以一组推进翼面为基础,采用解决空气动力学逆问题和应用随机全局优化方法相结合的方法进行计算。计算考虑了从层流到湍流的过渡,这对升力和机翼阻力有很大影响。讨论了不同湍流模型在低雷诺数情况下对机翼建模的适用性,数值模拟结果确定了升力系数与攻角的关系,以及每个攻角下从机翼表面获取的最佳空气流速。通过比较数值模拟结果和物理实验数据,分析了不同湍流模型的准确性。
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Control of Aerodynamic Characteristics of Thick Airfoils at Low Reynolds Numbers Using Methods of Boundary Layer Control
The article explores flow behavior around thick airfoils at low Reynolds numbers and the potential application of energy methods to manipulate the flow field for increased lift and reduced drag. The study relies on a set of propulsion airfoils calculated using a combined approach of solving the inverse problem of aerodynamics and applying stochastic global optimization methods. The calculations consider the transition from laminar to turbulent flow regimes, which significantly affects lift and airfoil drag. The suitability of different turbulence models for airfoil modeling in low Reynolds numbers is discussed, and numerical simulation results determine the lift coefficient dependence on angle of attack and the optimal air flow rate taken from the airfoil surface for each angle of attack. The accuracy of different turbulence models is analyzed by comparing numerical simulation results to physical experiment data.
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来源期刊
Fluids
Fluids Engineering-Mechanical Engineering
CiteScore
3.40
自引率
10.50%
发文量
326
审稿时长
12 weeks
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