Unsteady load mitigation through passive pitch

IF 3.4 2区工程技术 Q1 ENGINEERING, MECHANICAL Journal of Fluids and Structures Pub Date : 2024-11-21 DOI:10.1016/j.jfluidstructs.2024.104216

Yabin Liu , Riccardo Broglia , Anna M. Young , Edward D. McCarthy , Ignazio Maria Viola

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Abstract

Mitigation of load fluctuations due to flow unsteadiness is critical in a broad range of applications, including wind/tidal turbines, and aerial/underwater vehicles. While the use of active control systems is an established practice in engineering, passive systems are not well understood, and the limits of their efficacy are yet to be ascertained. To this end, the present study aims to provide new insights into the effectiveness of passive pitching in the mitigation of lift fluctuations in the most demanding case of fast, high-amplitude variations of the free stream speed and direction. We perform fluid-structure interaction simulations of a two-dimensional free-to-pitch rigid foil. Our study reveals that the lift amplitude of the force fluctuations can be decreased by at least two-thirds through passive pitching. The efficacy of the unsteady load mitigation is only weakly dependent on the exact pitching axis location, and the optimal position is upstream and close to the axis of the foil. These results may inform the design of passive control systems of wind/tidal turbines and aerial/underwater vehicles and provide new insights into interpreting the control strategy of natural flyers such as insects and birds.

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通过被动俯仰减轻不稳定载荷

在包括风力/潮汐涡轮机和航空/水下航行器在内的多种应用中，减缓因流动不稳定性引起的负载波动至关重要。虽然使用主动控制系统是工程领域的惯例，但人们对被动系统的了解并不多，其功效的局限性也有待确定。为此，本研究旨在对被动俯仰系统在自由流速度和方向快速、高振幅变化的最苛刻情况下减缓升力波动的有效性提供新的见解。我们对二维自由俯仰刚性箔片进行了流固耦合模拟。我们的研究表明，通过被动俯仰，力波动的升力振幅至少可以降低三分之二。减轻非稳定载荷的效果只与俯仰轴的具体位置有微弱的关系，最佳位置在箔片轴线的上游和附近。这些结果可为风力/潮汐涡轮机和空中/水下飞行器被动控制系统的设计提供参考，并为解读昆虫和鸟类等自然飞行器的控制策略提供新的见解。

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来源期刊

Journal of Fluids and Structures 工程技术-工程：机械

CiteScore

6.90

自引率

8.30%

发文量

173

审稿时长

65 days

期刊介绍： The Journal of Fluids and Structures serves as a focal point and a forum for the exchange of ideas, for the many kinds of specialists and practitioners concerned with fluid–structure interactions and the dynamics of systems related thereto, in any field. One of its aims is to foster the cross–fertilization of ideas, methods and techniques in the various disciplines involved. The journal publishes papers that present original and significant contributions on all aspects of the mechanical interactions between fluids and solids, regardless of scale.