Open AccessHigh-Resolution Wave Propagation Method for Stratified Flows
Author(s) -
Nashat N. Ahmad
Publication year - 2018
Publication title -
nasa sti repository (national aeronautics and space administration)
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2018-3498
Subject(s) - computer science , resolution (logic) , stratified flows , stratified flow , geology , mechanics , physics , artificial intelligence , turbulence
The implementation of the multidimensional f-waves Riemann solver for the timedependent, three-dimensional, nonhydrostatic, mesoand microscale atmospheric flows is described in detail. The Riemann solver employs flux-based wave decomposition (f-waves) for the calculation of Godunov fluxes in which the flux differences are written directly as the linear combination of the right eigenvectors of the hyperbolic system. The scheme incorporates the source term due to gravity without introducing discretization errors which is an important property in the context of atmospheric flows. The resulting flow solver is conservative, accurate, stable, and well-balanced. The implementation of the solver is evaluated using benchmark test cases for atmospheric dynamics.
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