Experimental Analysis of the Space Ratio Influence on the Excitation Frequencies of One and Two Cylinders Free to Vibrate in Tandem Arrangement

IF 1.9 Q3 ENGINEERING, MECHANICAL
Vibration Pub Date : 2022-11-07 DOI:10.3390/vibration5040045
R. Neumeister, A. P. Petry, S. Möller
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引用次数: 1

Abstract

The present study aims to investigate the dominant frequency ranges of a cylinder free to vibrate transversally to the flow positioned in the first, the second or in both positions of the tandem assembly for L/D = 1.26, 1.4, 1.6, and 3.52 with the increase in the flow velocity. Accelerometers and hot wire anemometers were the experimental tools applied in this study. The range of study encompassed the reduced velocity with values from 6 to 72 and Reynolds number from 7.1 × 103 to 2.4 × 104. Fourier transform, continuous wavelet transform, magnitude-square coherence, and wavelet coherence were applied to analyze the cylinder acceleration results for all L/D and wake velocity values studied. The results show that the amplitudes of vibration are below 1.5% of the diameter for all the cases, except for the lower L/D, where the amplitude increases. The first cylinder free to vibrate presents the highest amplitudes observed. Fourier and continuous wavelet analysis showed high energy associated with the two natural frequencies of the system and a third frequency, which may be associated with the flow excitation. In the second cylinder free to vibrate, energy spreads across the monitored spectrum, justifying the smaller amplitudes but the energy level increases with increasing L/D and may be associated with wake-induced vibration. The cases with both cylinders free to vibrate show that the relation between the assembly parameters of each cylinder is relevant to the vibration response and the excitation frequency range. The results showed that even with a clear excitation in a higher frequency, the main energy in the vibration signals is in the natural frequency range.
空间比对串列自由振动一、二缸激励频率影响的实验分析
本研究旨在研究当L/D=1.26、1.4、1.6和3.52时,随着流速的增加,位于串联组件的第一、第二或两个位置的圆柱体在横向于流体自由振动的主频率范围。加速度计和热线风速计是本研究中应用的实验工具。研究范围包括6至72的减速和7.1×103至2.4×104的雷诺数。应用傅立叶变换、连续小波变换、幅度平方相干性和小波相干性分析了所研究的所有L/D和尾流速度值的圆柱体加速度结果。结果表明,除较低的L/D振幅增加外,所有情况下的振动振幅都低于直径的1.5%。第一个自由振动的圆柱体呈现出观察到的最高振幅。傅立叶和连续小波分析显示,高能量与系统的两个固有频率和第三个频率有关,第三个固有频率可能与流动激励有关。在第二个自由振动的圆柱体中,能量分布在监测的频谱上,证明振幅较小,但能级随着L/D的增加而增加,并且可能与尾流引起的振动有关。两个气缸都自由振动的情况表明,每个气缸的装配参数之间的关系与振动响应和激励频率范围有关。结果表明,即使在较高频率下有明显的激励,振动信号中的主要能量也在固有频率范围内。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.20
自引率
0.00%
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审稿时长
10 weeks
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