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Hydrodynamic analysis of one-way energy capture by an oscillating water column wave energy device

Bárður Joensen, Harry B. Bingham, Robert Read, Kim Dremstrup, Jokin Brito Trevino

2023Energy Reports14 citationsDOIOpen Access PDF

Abstract

This work evaluates the hydrodynamic performance of an oscillating water column wave energy converter, with a focus on comparing conventional two-way energy capture to one-way energy capture where only the up- or down-stroke is used drive the turbine. Small-scale model test experiments are performed, and numerical calculations are made using weakly-nonlinear potential flow theory. The air turbine is represented experimentally by an orifice plate with a flow area equal to about 1% of the internal-chamber water-plane area. One-way energy capture by the experimental model is realized by incorporating a passive, low-inertia, non-return valve which vents the air inside the chamber on one half-cycle of the internal water-column oscillation. In the numerical calculations, there is little difference between the two venting configurations, due to the simplified weakly non-linear model. However, the experimental results show that up-stroke venting generally yields a higher power absorption than down-stroke venting and the two-way energy capture generally yields a higher power absorption compared to the one-way energy capture. The calculations agree well with the experiments for two-way absorption, but substantially over-predict the absorbed power in the one-way configuration. This is mainly attributed to the imperfect venting system in the physical model, but further tests and/or CFD calculations are needed to confirm this conclusion.

Topics & Concepts

MechanicsOscillating Water ColumnWork (physics)TurbineInertiaBody orificeEnergy (signal processing)Absorption (acoustics)Power (physics)PhysicsEnvironmental scienceAcousticsMechanical engineeringEngineeringClassical mechanicsThermodynamicsWave energy converterQuantum mechanicsWave and Wind Energy SystemsFluid Dynamics and Vibration AnalysisWind Energy Research and Development
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