EI、Scopus 收录
中文核心期刊

质量比对D形截面柱体流致振动的影响

THE INFLUENCE OF MASS RATIO ON FLOW-INDUCED VIBRATION OF D-SECTION PRISMS

  • 摘要: 利用涡激振动进行海流能收集的VIVACE装置是新能源领域的研究热点. 应用FLUENT软件采用k-ω SST湍流模型和Newmark-β法, 通过数值模拟探究了四个质量比(2, 5, 7和10)在迎流角90°下D形截面柱体的流致振动响应, 系统分析了D形截面柱体在横流向上的振动幅值、频率、平衡位置偏移量、尾涡脱落模式以及能量转化效率. 所模拟的雷诺数范围为288 ~ 2880, 对应的约化速度为2 ~ 20. 结果表明, 质量比对D形截面柱体流致振动的影响明显, 质量比会改变D形截面柱体流致振动的响应分支. 质量比越大, D形截面柱体进入驰振对应的约化速度越低; 质量比增大, D形截面柱体平衡位置偏移量相对减小. 随着约化速度的增大, D形截面柱体出现了涡激振动、涡激振动-驰振及完全驰振等响应分支. 在所模拟的范围内, D形截面柱体高能量转化效率出现在涡激振动分支, 而不是在驰振分支; 在质量比为10且约化速度为4.5时, 一级能量转化效率达到最大值44%. 相关研究可为VIVACE装置的振子选型提供参考.

     

    Abstract: The utilization of vortex-induced vibration for harvesting oceanic kinetic energy with VIVACE device has emerged as a research hotspot in the field of renewable energy. Utilizing FLUENT software with k-ω SST turbulence model and Newmark-β method, the flow-induced vibration characteristics of a D-section prism were investigated at an incident flow angle of 90° with four different mass ratios (2, 5, 7, and 10). The study systematically analyzed the vibration amplitude, frequency, average displacement, shedding modes of wake vortices, and energy conversion efficiency of the D-section prism. Simulations were conducted over a Reynolds number range of 288 to 2880, corresponding to reduced velocities of 2 to 20. Results revealed that the mass ratio can significantly influence the flow-induced vibration response of the D-section prism. As the mass ratio increases, the cylinder is more prone to galloping. With increasing mass ratio, the cylinder exhibited phenomena such as vortex-induced vibration, vortex-induced vibration-gallop, and lock-in galloping. Moreover, it was observed that the device achieves higher energy conversion efficiency when the cylinder was in the vortex-induced vibration branch other than the galloping branch. The first-stage energy conversion efficiency reaches a maximum value of 44% at mass ratio of 10 and reduced velocity of 4.5. These findings provide insights into oscillator selection for VIVACE devices.

     

/

返回文章
返回