Oscillating Water Column Motion Inside Circular Cylindrical Structures

Volume 10: Ocean Renewable Energy Pub Date : 2019-11-11 DOI:10.1115/omae2019-96048

Daniel de Oliveira Costa, Joel Sena Sales Junior, A. C. Fernandes

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引用次数: 1

Abstract

A non-linear mathematical model is presented for the Equation of Motion of the Water Column inside circular cylindrical structures in different cases, comparing to previous models in literature. Experimental model tests were carried out investigating the water column decay under given initial conditions, and an analysis is performed for each cycle showing the dynamic behaviour of OWC evolving in time. The results show asymmetric pattern in the time series acquired in the decay tests as a consequence of variations of the Added Length and quadratic viscous damping as the direction of the flow changes, as observed in previous studies. A general procedure is proposed to assess the unknown parameters including the quadratic damping viscous coefficients through the concept of “equivalent linear harmonic” as a linearisation of such terms, enlightening its dependence on the motion amplitude as well as the water column draft. Experimental data for the OWC response under a set of incoming regular waves is also presented, comparing the results to numerical simulation through a solver based on the estimation of the damping coefficients obtained in the decay tests.

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圆柱结构内的振荡水柱运动

对不同情况下圆柱结构内部水柱运动方程建立了非线性数学模型，并与已有的模型进行了比较。对给定初始条件下的水柱衰减进行了实验模型试验，并对每个循环进行了分析，显示了OWC随时间演变的动态行为。结果表明，随着流动方向的变化，随着附加长度和二次粘性阻尼的变化，衰减试验中获得的时间序列呈现不对称模式，这与以往的研究结果一致。通过“等效线性谐波”的概念，提出了一种一般的方法来评估未知参数，包括二次阻尼粘性系数，作为这些项的线性化，启发其对运动幅度和水柱吃水的依赖。给出了一组规则波下OWC响应的实验数据，并通过基于衰减试验中得到的阻尼系数估计的求解器将结果与数值模拟结果进行了比较。

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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来源期刊

Volume 10: Ocean Renewable Energy

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