Please use this identifier to cite or link to this item: https://doi.org/10.15480/882.109
Fulltext available Open Access
Publisher DOI: 10.1002/zamm.200510280
Title: Comparison study of some finite volume and finite element methods for the shallow water equations with bottom topography and friction terms
Language: English
Authors: Medviďová-Lukáčová, Mária 
Teschke, Ulf 
Keywords: well-balanced schemes, steady states, systems of hyperbolic balance laws, shallow water equations, evolution Galerkin schemes
Issue Date: Mar-2005
Source: Preprint. Published in: Z. angew. Math. Mech. (ZAMM), 86(11), 2006, 874–891
Part of Series: Preprints des Institutes für Mathematik 
Volume number: 87
Abstract (english): We present a comparison of two discretization methods for the shallow water equations, namely the finite volume method and the finite element scheme. A reliable model for practical interests includes terms modelling the bottom topography as well as the friction effects. The resulting equations belong to the class of systems of hyperbolic partial differential equations of first order with zero order source terms, the so-called balance laws. In order to approximate correctly steady equilibrium states we need to derive a well-balanced approximation of the source term in the finite volume framework. As a result our finite volume method, a genuinely multidimensional finite volume evolution Galerkin (FVEG) scheme, approximates correctly steady states as well as their small perturbations (quasi-steady states). The second discretization scheme, which has been used for practical river flow simulations, is the finite element method (FEM). In contrary to the FVEG scheme, which is a time explicit scheme, the FEM uses an implicite time discretization and the Newton-Raphson iterative scheme for inner iterations. We compare the accuracy and performance of both scheme through several numerical experiments, which demonstrate the reliability of both discretization techniques and correct approximation of quasisteady states with bottom topography and friction.
URI: http://tubdok.tub.tuhh.de/handle/11420/111
DOI: 10.15480/882.109
Institute: Mathematik E-10 
Type: Preprint (Vorabdruck)
License: In Copyright In Copyright
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