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Fully Nonlinear Simulation of the Hydrodynamic Performance of a Submerged Cylindrical Wave Energy Converter in the Presence of Current

Yihui Xia, Bin Zhang, Changxin Tao, Lixian Wang

2025Journal of Marine Science and Engineering19 citationsDOIOpen Access PDF

Abstract

A potential flow theory-based fully nonlinear 2D NWT is developed in the time domain to investigate the hydrodynamic performance of a submerged circular cylindrical WEC device under combined wave–current conditions. The hydrodynamic force on the submerged cylinder is evaluated using the acceleration potential method coupled with the desingularized boundary integral equation method (DBIEM). The impacts of the wave height, current speed, and parameters of the power take-off mechanism on the extracted power capability of the WEC device are investigated. The results show that for the scenario of an opposing current, the dimensionless mean extracted power is reduced by as much as 14.3% with increasing wave height. Except for long waves, the extracted power under a co-flowing current exceeds that of the current-free case and an opposing current yields lower power. In contrast to the current-free scenario, the peak power extraction point shifts to slightly higher values of the spring and damper constants when the current is co-flowing, whereas the opposite trend is observed for the opposing current.

Topics & Concepts

MechanicsCurrent (fluid)Dimensionless quantityCylinderPower (physics)PhysicsNonlinear systemPotential flowAccelerationSpring (device)Boundary value problemFlow (mathematics)RADIUSTime domainBoundary element methodVelocity potentialPeak currentWork (physics)Extraction (chemistry)Boundary (topology)Energy (signal processing)Control theory (sociology)Stagnation pointAmplitudePoint (geometry)Boundary layerWave powerElectricity generationWave energy converterConstant (computer programming)DamperFlow velocityWave and Wind Energy SystemsFluid Dynamics and Vibration AnalysisWind Energy Research and Development
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