Dominic Chandar scite author profile

Computational fluid dynamics (CFD) based numerical wave tanks are valuable tools for the development and evaluation of energy maximising control systems for wave energy converters (WECs). However, the exaggerated body motion amplitude, which can be induced by the energy maximising control system, challenges the commonly applied mesh morphing method in CFD, due to the resulting mesh distortion and subsequent numerical instability. A more advanced mesh motion method is the overset grid method, which can inherently handle large amplitude body motions and has recently become freely available in the open source CFD software OpenFOAM. The overset grid method can, therefore, potentially eliminate the mesh distortion problem, hindering the simulation of WECs under controlled conditions. To evaluate the capability of the overset grid method for control studies of WECs in an OpenFOAM numerical wave tank, this paper presents a detailed comparison of the overset grid and mesh morphing methods, considering five test cases of increasing complexity. The test cases range from a static equilibrium test to the modelling of a controlled WEC, and good agreement is demonstrated between the two mesh motion methods, except for the case of the controlled WEC, when the device motion becomes

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Computational Study of Unsteady Low-Reynolds-Number Airfoil Aerodynamics Using Moving Overlapping Meshes

Chandar

Damodaran

2008

AIAA Journal

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Tightly Coupled CFD/Multibody Analysis of Flapping-Wing Micro-Aerial Vehicles

Masarati

Morandini

Quaranta

et al. 2011

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Dominic Chandar

On overset interpolation strategies and conservation on unstructured grids in OpenFOAM

A Comparative Study of Different Overset Grid Solvers Between OpenFOAM, StarCCM+ and Ansys-Fluent

Evaluation of the overset grid method for control studies of wave energy converters in OpenFOAM numerical wave tanks

Computational Study of Unsteady Low-Reynolds-Number Airfoil Aerodynamics Using Moving Overlapping Meshes

Tightly Coupled CFD/Multibody Analysis of Flapping-Wing Micro-Aerial Vehicles

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