Strongly nonlinear models for internal waves: an application for the dam-break problem
Fluid Dynamics
2017-03-28 v2
Abstract
Strongly nonlinear models of internal wave propagation for incompressible stratified Euler fluids are investigated numerically and analytically to determine the evolution of a class of initial conditions of interest in laboratory experiments. This class of step-like initial data severely tests the robustness of the models beyond their strict long-wave asymptotic validity, and model fidelity is assessed by direct numerical simulations (DNS) of the parent Euler system. It is found that the primary dynamics of near-solitary wave formation is remarkably well predicted by the models for both wave and fluid properties, at a fraction of the computational costs of the DNS code.
Cite
@article{arxiv.1606.07319,
title = {Strongly nonlinear models for internal waves: an application for the dam-break problem},
author = {Shengqian Chen},
journal= {arXiv preprint arXiv:1606.07319},
year = {2017}
}
Comments
This paper has been withdrawn because of authorship issues