从环境流-结构相互作用推断风速。第2部分。利用不稳定运动学

IF 2.8 Q2 MECHANICS
Jennifer L. Cardona, J. Dabiri
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引用次数: 5

摘要

图形摘要摘要这项工作探索了风速和与时间相关的结构运动响应之间的关系,作为利用流-结构相互作用中可见的丰富信息进行风速测量的一种手段。我们以Cardona、Bouman和Dabiri最近的工作为基础(Flow,第1卷,2021,E4),该工作提出了一种使用平均结构弯曲的方法。在这里,我们将动态结构摇摆的振幅作为一种替代信号,当平均弯曲很小或不便于测量时,可以使用该信号。与瞬时载荷和瞬时挠度相关的力平衡产生了入射风速和结构摇摆幅度之间的关系。该物理模型应用于两个现场数据集,该数据集包括暴露于环境风条件下的4个不同物种的13棵树。通过相对于参考条件的归一化来实现对不同测试结构的模型泛化。该模型与当地风速的实验测量结果一致,表明树木摇摆幅度可以用作平均风速的间接测量,适用于各种不同的树木。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wind speed inference from environmental flow–structure interactions. Part 2. Leveraging unsteady kinematics
Graphical Abstract Abstract This work explores the relationship between wind speed and time-dependent structural motion response as a means of leveraging the rich information visible in flow–structure interactions for anemometry. We build on recent work by Cardona, Bouman and Dabiri (Flow, vol. 1, 2021, E4), which presented an approach using mean structural bending. Here, we present the amplitude of the dynamic structural sway as an alternative signal that can be used when mean bending is small or inconvenient to measure. A force balance relating the instantaneous loading and instantaneous deflection yields a relationship between the incident wind speed and the amplitude of structural sway. This physical model is applied to two field datasets comprising 13 trees of 4 different species exposed to ambient wind conditions. Model generalization to the diverse test structures is achieved through normalization with respect to a reference condition. The model agrees well with experimental measurements of the local wind speed, suggesting that tree sway amplitude can be used as an indirect measurement of mean wind speed, and is applicable to a broad variety of diverse trees.
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来源期刊
CiteScore
2.40
自引率
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