Three-dimensional numerical modelling of a U-Oscillating Water Column array

2019 Offshore Energy and Storage Summit (OSES) Pub Date : 2019-07-01 DOI:10.1109/OSES.2019.8867329

G. Malara, C. Ruzzo, F. Arena

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Abstract

This article proposes the numerical modeling of a plant composed by an array of U-Oscillating Water Columns (U-OWC). The U-OWCs are wave energy converters, commonly embodied in vertical breakwaters, belonging to the family of Oscillating Water Columns. Their particular feature is that they utilize a small vertical duct for connecting the water column to the open wave field. Calculating the system response of these system requires the solution of a system of integro-differential equations involving the determination of the plant hydrodynamic parameters. The article describes the implementation of a numerical model in the ANSYS AQWA® environment. Such a model is used for estimating the radiation damping of the system and its added mass. The numerical results are compared against data based on a semi-analytical approach. It is shown that numerical and analytical models provide similar results, although discrepancies are observed in case of U-OWC with small transversal widths of the openings, due to the different distribution of the pressure field on the U-OWC inlets. However, these differences do not affect significantly the power output estimates.

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u型振荡水柱阵列的三维数值模拟

本文提出了一种由一系列u型振荡水柱(U-OWC)组成的植物的数值模拟方法。U-OWCs是波浪能转换器，通常体现在垂直防波堤中，属于振荡水柱族。它们的特点是利用一个小的垂直管道将水柱连接到开放的波场。计算这些系统的系统响应需要求解一个涉及装置流体动力参数确定的积分微分方程组。本文介绍了在ANSYS AQWA®环境下数值模型的实现。该模型用于估计系统的辐射阻尼及其附加质量。数值结果与基于半解析方法的数据进行了比较。结果表明，数值模型和解析模型给出了相似的结果，尽管在开口横向宽度较小的U-OWC情况下观察到差异，这是由于U-OWC入口压力场的分布不同。但是，这些差异不会显著影响功率输出估计值。

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2019 Offshore Energy and Storage Summit (OSES)

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