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Performance Assessment of a Hybrid Wave Energy Converter Integrated into a Harbor Breakwater

Tomás Calheiros-Cabral, Daniel Clemente, Paulo Rosa-Santos, Francisco Taveira-Pinto, Tiago Morais, Filipe Belga, Henrique Cestaro

2020Energies46 citationsDOIOpen Access PDF

Abstract

Seaports are highly energy demanding infrastructures and are exposed to wave energy, which is an abundant resource and largely unexploited. As a result, there has been a rising interest in integrating wave energy converters (WEC) into the breakwaters of seaports. The present work analyzes the performance of an innovative hybrid WEC module combining an oscillating water column (OWC) and an overtopping device (OWEC) integrated into a rubble mound breakwater, based on results of a physical model study carried out at a geometrical scale of 1:50. Before the experimental tests, the device’s performance was numerically optimized using ANSYS Fluent and WOPSim v3.11. The wave power captured by the hybrid WEC was calculated and the performance of the two harvesting principles discussed. It was demonstrated that hybridization could lead to systems with higher efficiencies than its individual components, for a broader range of wave conditions. The chosen concepts were found to complement each other: the OWEC was more efficient for the lower wave periods tested and the OWC for the higher. Consequently, the power production of the hybrid WEC was found to be less dependent on the wave’s characteristics.

Topics & Concepts

BreakwaterOscillating Water ColumnMarine engineeringRubbleWave energy converterEngineeringRange (aeronautics)Power (physics)Energy (signal processing)FluentWork (physics)Geotechnical engineeringComputer simulationMechanical engineeringSimulationAerospace engineeringPhysicsQuantum mechanicsWave and Wind Energy SystemsCoastal and Marine DynamicsFluid Dynamics and Vibration Analysis