海洋水动能收集中多缸协同流致振荡

Volume 10: Ocean Renewable Energy Pub Date : 2019-11-11 DOI:10.1115/omae2019-96671

S. Hai, M. Bernitsas, Cheng Zhiyun

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引用次数: 2

摘要

通过适当的间距增加水动能的利用，可以增强柱串的流致振荡。在多缸串联的农场中，干扰对利用效率的影响问题出现了。在密歇根大学海洋可再生实验室的三年开发过程中，对一个孤立的圆柱体以及两个和三个串联的圆柱体进行了系统实验，结果表明，协同FIO实际上可以增强近距离圆柱体的振荡。两个气缸串联可以利用2.5-13.5倍的水动力比一个孤立的气缸。三缸串联可以利用一个孤立缸的3.4-26.4倍的水动力。

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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Synergistic Flow Induced Oscillation of Multiple Cylinders in Harvesting Marine Hydrokinetic Energy

Flow Induced Oscillations (FIO) of cylinders in tandem can be enhanced by proper spacing to increase hydrokinetic energy harnessing. In a farm of multiple cylinders in tandem, the issue of the effect of interference on harnessing efficiency arises. Over the course of three years of development in the Marine Renewable Laboratory of the University of Michigan, systematic experiments on an isolated cylinder, and two and three cylinders in tandem have revealed that synergistic FIO can actually enhance oscillations of cylinders in close proximity. Two cylinders in tandem can harness 2.5–13.5 times the hydrokinetic power of one isolated cylinder. Three cylinders in tandem can harness 3.4–26.4 times the hydrokinetic power of one isolated cylinder.

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Volume 10: Ocean Renewable Energy

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