波浪能转换器效率的解析分析

2022 International Engineering Conference on Electrical, Energy, and Artificial Intelligence (EICEEAI) Pub Date : 2022-11-06 DOI:10.1109/EICEEAI56378.2022.10050463

Sebastian Sorek, W. Sulisz

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引用次数: 0

摘要

研究了波与振荡波能量转换器的相互作用问题，并导出了确定器件效率的解析解。结果表明，该装置捕获的波能随波长的增加而增加，达到最大值后减小。在浅水和中水中，效率随装置刚度的减小而增加。在深水中，效率随着刚度的增加而增加，直到局部最大值，然后下降。此外，在浅水和中水中，效率随装置质量的增加而增加。在深水中，变流器的效率随着装置质量的增加而降低。分析公式表明，电能捕获的最高效率水平不能超过50%。功率输出优化分析确定了波浪能转换器效率接近最大值的波浪条件谱。

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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Analytical Analysis of The Efficiency of Wave Energy Converter

The problem of the interaction of waves with an oscillating wave energy converter was investigated and an analytical solution was derived to determine the efficiency of a device. The results show that the wave power captured by the device increases with increasing wavelengths until a maximum and then decreases. The efficiency increases with decreasing stiffness of the device in shallow and intermediate waters. In deep water, the efficiency increases with increasing stiffness until a local maximum and then decreases. Moreover, the efficiency increases with increasing the mass of the device in shallow and intermediate waters. In deep water, the efficiency of a converter decreases with increasing the mass of the device. The analytical formula shows that the top efficiency level of power capturing cannot exceed 50 %. The power take-off optimization analysis identifies the spectrum of wave conditions for which the efficiency of the wave energy converter is close to the maximum.

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2022 International Engineering Conference on Electrical, Energy, and Artificial Intelligence (EICEEAI)

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