柔性膜波能转换器的物理模型测试:膜操作的视频测量分析

Jarrah Orphin , Alan Fleming , Cam Algie
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引用次数: 2

摘要

在波浪能变换器(WECs)的小规模测试中,重点是表征一次变换器和模拟功率输出系统之间的相互依存关系。如果一次转换是通过柔性材料的变形进行的,则该任务通常需要非接触式测量。在本文中,我们介绍了一种水下非接触测量技术的发展,即视频测量,以及它在表征柔性膜WEC一次转炉操作中的新应用。这项工作是Bombora Wave Power概念验证波槽1:15比例测试的一部分。详细介绍了WEC及其工作原理,然后深入介绍了水下视频测量的应用。从吸收的能量和产生的能量两方面对规则波情况下膜的运行进行了定性和定量分析。在这个分析中比较了两个数据集。一组数据来自视频测量,另一组是气流测量数据(系统中由于膜变形引起的气流将波能转化为机械能)。这种比较量化了视频测量的准确性,也有助于验证用于确定整个测试过程中WEC性能指标的气流测量结果。结果比较合理。讨论了视频测量不确定度的来源,并提出了改进建议。提供了在波能实验中应用视频测量的初步最佳实践。
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Physical scale model testing of a flexible membrane wave energy converter: Videogrammetric analysis of membrane operation

In small-scale testing of wave energy converters (WECs), a key focus is on characterising the interdependent relationship between the primary converter and simulated power take-off system. If primary conversion is via the deformation of a flexible material, this task often requires non-contact measurement. In this paper, we introduce the development of an underwater non-contact measurement technique called videogrammetry, and its novel application to characterise the primary converter operation of a flexible membrane WEC. The work was part of Bombora Wave Power’s concept validation wave tank tests at 1:15 scale. Details of the WEC and how it works is followed by an in depth description on applying underwater videogrammetry. A qualitative and quantitative analysis of membrane operation in a regular wave case is provided and discussed in terms of absorbed energy and power production. Two data sets are compared in this analysis. One data set is from videogrammetry and the other is airflow measurement data (airflow induced in the system due to membrane deformation converts wave energy to mechanical energy). This comparison quantifies the accuracy of videogrammetry, and also serves to verify airflow measurements that were used to determine performance indicators of the WEC throughout the entire test campaign. The results compare reasonably well. Sources of uncertainty for videogrammetry are discussed and improvements suggested. Preliminary best practices for applying videogrammetry in wave energy experiments are provided.

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Editorial Board Physical scale model testing of a flexible membrane wave energy converter: Videogrammetric analysis of membrane operation A comparison of control strategies for wave energy converters Predicted power performance of a submerged membrane pressure-differential wave energy converter Ocean power technology design optimization
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