带肋圆筒的涡流诱导振动和流动控制研究

Dongmei Huang, Shuguang Yang, Yue Wang, Lufeng Yang, Shuang Wu, Haobo Liang
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引用次数: 0

摘要

本研究探讨了高质量比例气缸上肋条的涡抑制性能和机理。通过风洞试验和数值模拟,探讨了不同带肋气缸的表面风压分布特性和气流分离现象,分析了带肋气缸模型涡流诱导振动的跨度相关性和非线性振动特性。主要结论如下:肋板改变了边界层分离点的位置,左右分离涡的大小差异引起压力跳跃现象,改变了分段模型的风压分布,降低了风压,导致肋板圆柱体的锁定风速增加。肋片后方会形成复杂的分离涡,影响尾流涡旋的大小,降低分段模型在锁定风速下的稳定性。在 0° 和 45° 定位角下,带有四根肋条的圆柱体具有良好的涡流诱发振动抑制性能。此外,安装了四根肋条的圆柱体表现出两个锁定风速区域,每个区域都呈现出不同的运动状态:在一级锁定风速下,它们主要表现出准周期振动和退化的准周期振动,而在二级锁定风速下,主要处于以高频谐波成分为主的混沌状态。这些研究成果对今后的研究和实际工程应用具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study on the vortex-induced vibration and flow control of ribbed circular cylinder
This work investigates the vortex suppression performance and mechanism of ribs on high-quality ratio cylinders. Through wind tunnel tests and numerical simulations, the surface wind pressure distribution characteristics and flow separation phenomena of different ribbed cylinders are explored, and the spanwise correlation and nonlinear vibration characteristics of vortex-induced vibrations of ribbed cylinder models are analyzed. The main conclusions are as follows: ribs change the position of the boundary layer separation point, and the difference in size of left and right separated vortices causes a pressure jump phenomenon, altering the wind pressure distribution of the segment model and reducing the wind pressure, resulting in an increase in the locked wind speed of the ribbed cylinder. Complex separated vortices form behind the ribs, affecting the size of the wake vortex and reducing the stability of the segment model at locked wind speeds. Cylinders with four ribs exhibit good vortex-induced vibration suppression performance at 0° and 45° positioning angles. In addition, the cylinder with four installed ribs cylinders exhibits two locked wind speed regions, each showing different motion states: at the primary locked wind speed, they mainly demonstrate quasi-periodic vibrations and degraded quasi-periodic vibrations, while at the secondary locked wind speed, primarily in a chaotic state dominated by high-frequency harmonic components. These research findings have significant implications for future studies and practical engineering applications.
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