Evaluation of the energy extraction of a small-scale wave energy converter

Pub Date : 2019-04-04 DOI:10.1590/2318-0331.241920180030

Carla de Abreu D’Aquino, C. C. Scharlau, Leonardo Casagrande Dalla Vecchia

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引用次数: 1

Abstract

ABSTRACT This work aims to focus on proposals that could stimulate the development of small scale integrated devices for the global challenge to provide electric energy from renewable alternative resources without major interventions. It presents an evaluation of a small-scale wave energy extraction system that can be installed in marine near shore structures, such as fishing piers. The system is characterized by a small oscillating-water-column (OWC) converter composed by tubes tied to the pillars of the structure. A mathematical model of the OWC device was developed. The model relies on two main components. The first uses linear wave theory to describe the water level variation inside the tube as a result of a wave passing by. The second considers the air flux converted to mechanical torque using Wells turbine equations. The simulations were carried out for different water depths and wave parameters, to evaluate the ratio between the input and output energy throughout the year. For the case study presented in this paper, the performance would be better as long as the device is placed in a position where the waves are less influenced by the bottom friction, but it still has the necessary increment of the wave height.

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小型波浪能转换器能量提取的评价

这项工作的目的是关注能够刺激小型集成设备发展的建议，以应对全球挑战，在没有重大干预的情况下，从可再生替代资源中提供电能。本文介绍了一种小型波浪能提取系统，该系统可以安装在海洋近岸结构，如渔业码头。该系统的特点是一个小型的振荡水柱(OWC)转化器，由绑在结构柱上的管组成。建立了OWC装置的数学模型。该模型依赖于两个主要组成部分。第一种方法使用线性波动理论来描述由于波浪经过而导致的管内水位变化。第二种是利用威尔斯涡轮方程考虑空气通量转化为机械扭矩。在不同水深和波浪参数下进行了模拟，以评估全年输入和输出能量的比例。在本文的案例研究中，只要将装置放置在波浪受底部摩擦影响较小的位置，但仍有必要的波高增量，性能就会更好。

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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