TY - CHAP TI - Navier-Stokes Modelling of Fluid Flow and Related Sediment Transport in the Near Field of an Oscillating Water Column Wave Energy Converter AU - Rameliarison, V AU - Astruc, D AU - Chapalain, G T2 - Estuaries and Coastal Zones in Times of Global Change AB - The fluid dynamics around and inside an OWC-type wave energy device is studied using Direct Numerical Simulations of the multiphase air-water two-dimensional vertical Navier-Stokes equations. A schematic rectangular shaped OWC device placed against the vertical ending wall of the numerical rectilinear wave flume is considered. Owing to numerical constraints, reduced scale simulations are carried out with a focus on the near field of the device over a couple of wavelengths. The power take-off system is simply modelled by an opening through the roof of the device. A parametric study on incident wave period is performed to determine the fluid-structure interactions. Beyond the efficiency predictions, which agree fairly well with different values found in the literature, specific behaviours related with an enhancement of free-surface non-linearities around the resonance frequency are observed. Water flow vorticity is found mainly produced in the vicinity of the end of the semi-immersed frontal wall of the device. Significant energy dissipation results from shear-layer and vorticity associated with the air flow passing through the turbine opening. A one-dimensional vertical analytical model is used to compute the instantaneous bottom shear stress and the induced-bedload sediment transport rate which appears impacted by OWC device. CY - Singapore DA - 2020/02// PY - 2020 SP - 161 EP - 176 PB - Springer UR - https://link.springer.com/chapter/10.1007/978-981-15-2081-5_11 U1 - TechnopĂ´le Brest-Iroise LA - English KW - Marine Energy KW - Wave KW - Changes in Flow KW - Physical Environment KW - Sediment Transport ER -