原文传递
Galloping Mechanism of a Closely Tuned 3-DOF System Considering Aerodynamic Stiffness
| 题名: | Galloping Mechanism of a Closely Tuned 3-DOF System Considering Aerodynamic Stiffness |
| 正文语种: | eng |
| 作者: | Zuopeng Wen;Wenjuan Lou;Jiang Yu;Haiwei Xu |
| 作者单位: | Zhejiang Univ.;Zhejiang Univ.;Zhejiang Univ.;Zhejiang Univ. |
| 摘要: | Abstract The galloping problem of a three-degree-of-freedom (3-DOF) system with strongly coupled vertical-horizontal-torsional motions has drawn wide attention due to the high risk of galloping and subsequent serious damages caused, but the galloping mechanism remains unclear because of the complex interaction of structural coupled motion and aerodynamic forces. In the present work, a 3-DOF system with close frequencies in three directions was analyzed to reveal the galloping mechanism under a strongly coupled motion. Based on quasi-steady theory, theoretical models of a 3-DOF system with a single section and multiple subsections were studied by using a perturbation method based on order analysis, and a galloping stability criterion considering aerodynamic stiffness and small-frequency detuning was established. This criterion reveals the promoting mechanism of aerodynamic stiffness on galloping initiation. Galloping tests on a segmental 3-DOF model of an eight-bundled conductor with D-shaped ice accretion were conducted to examine the validity of the theoretical model and proposed galloping stability criterion under various wind conditions. For the strongly coupled system in the tests, aerodynamic stiffness was able to trigger galloping even under positive aerodynamic damping in all directions, which could be explained by the proposed criterion. Numerical examples were also employed to validate the proposed galloping stability criterion under attack angles of 0°–180°. The numerical study showed that aerodynamic stiffness can promote galloping regardless of attack angles, especially under high wind speeds. The results reveal the galloping mechanism of a strongly coupled 3-DOF system initiated by aerodynamic stiffness and provide a new insight into the prediction of galloping. |
| 出版年: | 2023 |
| 期刊名称: | Journal of structural engineering |
| 卷: | 149 |
| 期: | 4 |
| 页码: | 1-13 |
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