On numerical stabilization in the solution of Saint-Venant equations using the finite element method |
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Authors: | Fatemeh Zarmehi Majid Rahimpour |
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Affiliation: | a Department of Mathematics, Vali-e-Asr University of Rafsanjan, Iranb Department of Water Engineering, Shahid Bahonar University of Kerman, Iran |
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Abstract: | Solving the Saint-Venant equations by using numerical schemes like finite difference and finite element methods leads to some unwanted oscillations in the water surface elevation. The reason for these oscillations lies in the method used for the approximation of the nonlinear terms. One of the ways of smoothing these oscillations is by adding artificial viscosity into the scheme. In this paper, by using a suitable discretization, we first solve the one-dimensional Saint-Venant equations by a finite element method and eliminate the unwanted oscillations without using an artificial viscosity. Second, our main discussion is concentrated on numerical stabilization of the solution in detail. In fact, we first convert the systems resulting from the discretization to systems relating to just water surface elevation. Then, by using M-matrix properties, the stability of the solution is shown. Finally, two numerical examples of critical and subcritical flows are given to support our results. |
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Keywords: | Hyperbolic partial differential equation Saint-Venant equations Finite element method M-matrix |
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