Your search keyword '"Higher Order Spectral method"' showing total 2 results

1. A framework for efficient irregular wave simulations using Higher Order Spectral method coupled with viscous two phase model

Author

Inno Gatin, Vuko Vukčević, and Hrvoje Jasak

Subjects

Higher Order Spectral method, Irregular waves, Extreme waves, CFD, Foam-extend, Ocean engineering, TC1501-1800

Abstract

In this paper a framework for efficient irregular wave simulations using Higher Order Spectral method coupled with fully nonlinear viscous, two-phase Computational Fluid Dynamics (CFD) model is presented. CFD model is based on solution decomposition via Spectral Wave Explicit Navier–Stokes Equation method, allowing efficient coupling with arbitrary potential flow solutions. Higher Order Spectrum is a pseudo-spectral, potential flow method for solving nonlinear free surface boundary conditions up to an arbitrary order of nonlinearity. It is capable of efficient long time nonlinear propagation of arbitrary input wave spectra, which can be used to obtain realistic extreme waves. To facilitate the coupling strategy, Higher Order Spectrum method is implemented in foam-extend alongside the CFD model. Validation of the Higher Order Spectrum method is performed on three test cases including monochromatic and irregular wave fields. Additionally, the coupling between Higher Order Spectrum and CFD is validated on three hour irregular wave propagation. Finally, a simulation of a 3D extreme wave encountering a full scale container ship is shown.

Published

2017

2. A framework for efficient irregular wave simulations using Higher Order Spectral method coupled with viscous two phase model

Author

Vuko Vukčević, Inno Gatin, and Hrvoje Jasak

Subjects

Environmental Engineering, Wave propagation, lcsh:Ocean engineering, 020101 civil engineering, Ocean Engineering, 02 engineering and technology, Computational fluid dynamics, Oceanography, 01 natural sciences, 010305 fluids & plasmas, 0201 civil engineering, Irregular waves, 0103 physical sciences, lcsh:TC1501-1800, Boundary value problem, Rogue wave, Higher Order Spectral method, Extreme waves, CFD, Foam-extend, Mathematics, Coupling, business.industry, Mechanics, Nonlinear system, Classical mechanics, Potential flow, business, Spectral method

Abstract

In this paper a framework for efficient irregular wave simulations using Higher Order Spectral method coupled with fully nonlinear viscous, two-phase Computational Fluid Dynamics (CFD) model is presented. CFD model is based on solution decomposition via Spectral Wave Explicit Navier–Stokes Equation method, allowing efficient coupling with arbitrary potential flow solutions. Higher Order Spectrum is a pseudo-spectral, potential flow method for solving nonlinear free surface boundary conditions up to an arbitrary order of nonlinearity. It is capable of efficient long time nonlinear propagation of arbitrary input wave spectra, which can be used to obtain realistic extreme waves. To facilitate the coupling strategy, Higher Order Spectrum method is implemented in foam-extend alongside the CFD model. Validation of the Higher Order Spectrum method is performed on three test cases including monochromatic and irregular wave fields. Additionally, the coupling between Higher Order Spectrum and CFD is validated on three hour irregular wave propagation. Finally, a simulation of a 3D extreme wave encountering a full scale container ship is shown.

Published

2017