Numerical Evaluation of Climate Scatter Performance of a Cycloidal Wave Energy Converter

Q3 Engineering

International Marine Energy Journal Pub Date : 2022-12-19 DOI:10.36688/imej.5.315-326

Kedar Chitale, C. Fagley, A. Mohtat, S. Siegel

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引用次数: 4

Abstract

Ocean waves offer an uninterrupted, rich resource of globally available renewable energy. However, because of their high cost and low power production, commercial wave energy converters are not operational at present. In this paper, we numerically evaluated the performance of a novel feedback-controlled lift-based cycloidal wave energy converter (CycWEC) at various sea states of the Humboldt Bay wave climate. The device comprised of two hydrofoils attached eccentrically to a shaft at a radius, submerged at a distance under the ocean surface. The pitch of the blades was feedback-controlled based on estimation of the incoming wave. The simulations were performed for regular waves and irregular waves approximated with a JONSWAP spectrum. Climate data from Humboldt Bay, CA was used to estimate the yearly power generation. The results underline the importance of a well-tuned control algorithm to maximize the annual energy production. The estimated annual energy production of the CycWEC was 3000MWh from regular wave simulations and 1800MWh from irregular wave simulations, showing that it can be a commercially viable means of electricity production from ocean waves.

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摆线波能量转换器气候散射性能的数值评估

海浪提供了不间断的、丰富的全球可再生能源资源。然而，由于其高成本和低功率生产，商业波浪能转换器目前还不能运行。在本文中，我们数值评估了一种新型的基于反馈控制升力的摆线波能量转换器（CycWEC）在洪堡湾波浪气候的各种海况下的性能。该装置由两个水翼组成，它们偏心地连接在半径一定的轴上，淹没在海面下一段距离。叶片的桨距是基于对入射波的估计进行反馈控制的。对用JONSWAP谱近似的规则波和不规则波进行了模拟。来自加利福尼亚州洪堡湾的气候数据被用来估计每年的发电量。研究结果强调了调整良好的控制算法对最大化年度能源生产的重要性。根据规则波浪模拟，CycWEC的年发电量估计为3000MWh，不规则波浪模拟为1800MWh，这表明它可以成为一种商业上可行的海浪发电方式。

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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