三个刚性耦合结构组成的单浮标点吸收波能转换器性能分析

Q3 Engineering

International Marine Energy Journal Pub Date : 2021-01-01 DOI:10.36688/imej.4.37-45

Aldo Ruezga, José M. Cañedo C., M. Verduzco-Zapata, F. Ocampo-Torres

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引用次数: 1

摘要

为了提高单体点吸收系统在有限水深下的吸能性能，对其进行了分析。所提出的波浪能转换器由一个单独的浮体和一个放置在海床上的直接驱动动力输出系统组成。大吃水圆柱形浮标的结构由三个结构刚性耦合组成的单一体改变，减小了其体积，提高了其频率相关的静水参数，这些参数通过NEMOH数值分析工具得到。将振荡系统的无阻尼固有频率调谐到指定的波周期，并假设为线性功率输出系统，得到了WEC系统的性能。在时域上，WEC器件在规则(正弦)和不规则入射波剖面下的性能进行了测试。对比使用圆柱形浮标和拟议浮标的WEC系统的性能，结果表明，拟议浮标的系统能够从更宽频率范围的入射波中吸收更多的能量，而振荡系统则尽可能保持简单。

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Performance analysis of a point-absorber wave energy converter with a single buoy composed of three rigidly coupled structures

A single-body point absorber system is analysed to improve its power absorption at a finite water depth. The proposed wave energy converter consists of a single floating body coupled to a direct-drive power take-off system placed on the seabed. The structure of a cylindrical buoy with large draft is changed by a single body composed of three structures rigidly coupled, reducing its volume and improving its frequency-dependent hydrostatic parameters that are obtained through a numerical analysis tool called NEMOH. The undamped natural frequency of the oscillating system is tuned to a specified wave period and the performance of the WEC system is obtained assuming a linear Power Take-Off system. In time domain, the performance of the WEC device is carried-out under a regular (sinusoidal) and irregular incident wave profile. Comparing the performance of the WEC system using the cylindrical and the proposed buoy outcomes that the system with the proposed buoy is able to absorb more energy from incident waves with a wider frequency range, whereas the oscillating system is kept as simple as possible.

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来源期刊

International Marine Energy Journal Engineering-Ocean Engineering

CiteScore

1.70

自引率

0.00%

发文量

审稿时长

12 weeks