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In this study the evolution of internal solitary waves shoaling onto a shelf is considered. The results of high resolution two-dimensional numerical simulations of the incompressible Euler equations are compared with the predictions of several weakly-nonlinear shoaling models of the Korteweg–de Vries family including the Gardner equation and the cubic regularized long wave (or Benjamin–Bona–Mahoney)...
A direct phase-resolved simulation tool for nonlinear ocean surface wave-field evolution, which is named SNOW (simulation of nonlinear ocean wave-fields), is applied to under the dynamics and to obtain a reliable prediction of realistic ocean waves. Unlike the phase-averaged approach, SNOW solves the primitive Euler equation, preserves the phases of the wave-field during its nonlinear evolution, and...
A direct phase-resolved simulation tool for large-scale nonlinear ocean wavefield evolution, which is named SNOW, has been developed. Unlike the phase-averaged model, it solves the primitive Euler equation and preserves the phases of the wavefield during its nonlinear evolution. Therefore, the detailed descriptions of the free surface and the kinematics of the wavefield are obtained. To provide realistic...
A direct phase-resolved simulation tool for largescale nonlinear ocean wavefield evolution has been developed. Unlike the phase-averaged model, it solves the primitive Euler equation and preserves the phase of the wavefield during its nonlinear evolution, therefore the detailed descriptions of the free surface and the kinematics of the wavefield are obtained. Using the direct simulation capability...
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