Riverbed variation analysis using discontinuous Galerkin method in two-dimensional shallow water flow

Reo Matsumoto; Seizo Tanaka; Mitsuteru Asai

doi:10.11421/jsces.2024.20241006

Riverbed variation analysis using discontinuous Galerkin method in two-dimensional shallow water flow

Reo Matsumoto, Seizo Tanaka, Mitsuteru Asai

Structural Analysis and Earthquake Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

The discontinuous Galerkin (DG) method is effective and promising tool for the hyperbolic equations with discontinuities. In recent years, the DG method has been applied and shown to be effective in the analysis of shallow water equations (SWEs), which are widely used for river flooding, storm surge, tsunami, and other natural disaster simulations. In this study, the DG method is applied to the governing equations for riverbed variation, which are coupling of the SWEs and equilibrium sediment transport equation, and wetting-drying treatment and numerical flux are discussed for our purpose. The proposed method has been verified with numerical analysis such as erodible dam-break flow and sandbar migration simulation. The numerical results have shown that the proposed method is effective for riverbed variation analysis.

Original language	English
Article number	20241006
Journal	Transactions of the Japan Society for Computational Engineering and Science
Volume	2024
Issue number	1
DOIs	https://doi.org/10.11421/jsces.2024.20241006
Publication status	Published - 2024

All Science Journal Classification (ASJC) codes

General Computer Science
General Engineering

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10.11421/jsces.2024.20241006

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title = "Riverbed variation analysis using discontinuous Galerkin method in two-dimensional shallow water flow",

abstract = "The discontinuous Galerkin (DG) method is effective and promising tool for the hyperbolic equations with discontinuities. In recent years, the DG method has been applied and shown to be effective in the analysis of shallow water equations (SWEs), which are widely used for river flooding, storm surge, tsunami, and other natural disaster simulations. In this study, the DG method is applied to the governing equations for riverbed variation, which are coupling of the SWEs and equilibrium sediment transport equation, and wetting-drying treatment and numerical flux are discussed for our purpose. The proposed method has been verified with numerical analysis such as erodible dam-break flow and sandbar migration simulation. The numerical results have shown that the proposed method is effective for riverbed variation analysis.",

author = "Reo Matsumoto and Seizo Tanaka and Mitsuteru Asai",

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AU - Matsumoto, Reo

AU - Tanaka, Seizo

AU - Asai, Mitsuteru

PY - 2024

Y1 - 2024

N2 - The discontinuous Galerkin (DG) method is effective and promising tool for the hyperbolic equations with discontinuities. In recent years, the DG method has been applied and shown to be effective in the analysis of shallow water equations (SWEs), which are widely used for river flooding, storm surge, tsunami, and other natural disaster simulations. In this study, the DG method is applied to the governing equations for riverbed variation, which are coupling of the SWEs and equilibrium sediment transport equation, and wetting-drying treatment and numerical flux are discussed for our purpose. The proposed method has been verified with numerical analysis such as erodible dam-break flow and sandbar migration simulation. The numerical results have shown that the proposed method is effective for riverbed variation analysis.

AB - The discontinuous Galerkin (DG) method is effective and promising tool for the hyperbolic equations with discontinuities. In recent years, the DG method has been applied and shown to be effective in the analysis of shallow water equations (SWEs), which are widely used for river flooding, storm surge, tsunami, and other natural disaster simulations. In this study, the DG method is applied to the governing equations for riverbed variation, which are coupling of the SWEs and equilibrium sediment transport equation, and wetting-drying treatment and numerical flux are discussed for our purpose. The proposed method has been verified with numerical analysis such as erodible dam-break flow and sandbar migration simulation. The numerical results have shown that the proposed method is effective for riverbed variation analysis.

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Riverbed variation analysis using discontinuous Galerkin method in two-dimensional shallow water flow

Abstract

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