A synthesis of numerical methods for modeling wave energy converter-point absorbers
Ye Li,Yi Hsiang Yu +1 more
TL;DR: In this paper, the authors extensively review the methods for modeling point absorbers to assist the development of wave energy conversion (WEC) technologies, including analytical methods, boundary integral equation methods and Navier-Stokes equation methods.
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Abstract: During the past few decades, wave energy has received significant attention for harnessing ocean energy. Industry has proposed many technologies and, based on their working principle, these technologies generally can be categorized into oscillating water columns, point absorbers, overtopping systems, and bottom-hinged systems. In particular, many researchers have focused on modeling the point absorber, which is thought to be the most cost-efficient technology to extract wave energy. To model such devices, several modeling methods have been used such as analytical methods, boundary integral equation methods and Navier–Stokes equation methods. The first two are generally combined with the use of empirical solution to represent the viscous damping effect, while the last one is directly included in the solution. To assist the development of wave energy conversion (WEC) technologies, this paper extensively reviews the methods for modeling point absorbers.
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Citations
Geometrical Evaluation on the Viscous Effect of Point-Absorber Wave-Energy Converters
TL;DR: In this paper, the viscous effect is expressed as the added mass and damping solved by the free-decay method, and the computational fluid dynamics (CFD) method is employed for the calculation of the motion and flow field around the floater.
A Comparison Study of a Generic Coupling Methodology for Modeling Wake Effects of Wave Energy Converter Arrays
TL;DR: In this paper, a generic coupling methodology is developed to model both near-field and far-field wake effects caused by floating (e.g., WECs, platforms) or fixed offshore structures.
Design optimization and experimental validation of a two-body wave energy converter with adjustable power take-off parameters
TL;DR: In this article, a two-body Wave Energy Converter (WEC) with a novel configurable electromechanical Power-Take-Off (PTO) that allows setting its parameters for optimal power output according to wave conditions is proposed.
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Nonlinear hydrodynamic effects on a generic spherical wave energy converter
TL;DR: In this paper, the authors apply Reynolds averaged Navier-Stokes (RANS) computational fluid dynamics (CFD) model to simulate the diffraction and radiation problems for a single submerged spherical WEC operating in both heave and surge.
25
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