Ocean Wave Energy Harvesting via Scotch Yoke-based Rotational Generation

AIUB Journal of Science and Engineering (AJSE) Pub Date : 2022-12-31 DOI:10.53799/ajse.v21i3.503

Md. Zahir Hossain, H. Illias

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Abstract

Harvesting energy from ocean wave is a promising renewable energy source due to its high efficiency, carbon-free, it is not affected by depletion of fossil fuels, and it is replenished constantly. The existing generators used in wave energy harvesting such as linear generator and slider crank mechanism have some limitations, which include lower efficiency and technologically challenging. Thus, in this work, wave energy harvesting technique using rotational generator based on scotch yoke mechanism is proposed. A typical slider crank to convert linear motion into rotational motion is replaced by scotch yoke mechanism to yield higher efficiency. A comparison of the performance of wave energy system between employing slider crank and scotch yoke is made to evaluate the superiority of the proposed mechanism. From the results obtained in this work, it is found that the output voltage of rotational generator employing scotch yoke mechanism is higher compared to that of rotational generator employing slider crank for the same input power. Thus, rotational generator by employing scotch yoke mechanism can be one of the alternative methods for ocean wave energy harvesting.

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通过苏格兰约克旋转发电海浪能量收集

从海浪中获取能量是一种很有前途的可再生能源，因为它效率高，无碳，不受化石燃料枯竭的影响，并且可以不断补充。现有用于波浪能收集的发电机如直线发电机和曲柄滑块机构存在效率较低和技术难度较大的局限性。因此，本文提出了一种基于scotch yoke机构的旋转发电机波浪能收集技术。一个典型的滑块曲柄转换成旋转运动的直线运动是由苏格兰轭机构取代，以产生更高的效率。通过对采用滑块曲柄和斜轭的波浪能系统性能的比较，评价了该机构的优越性。结果表明，在相同的输入功率下，采用斜轭式旋转发电机的输出电压要高于采用滑块曲柄旋转发电机的输出电压。因此，采用苏格兰轭机构的旋转发电机可以成为海浪能量收集的替代方法之一。

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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AIUB Journal of Science and Engineering (AJSE)

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