Numerical simulation of flood due to dam-break flow using an implicit method

Majid Galoie; Gerald Zenz; Saeid Eslamian; Artemis Motamedi

doi:10.1504/IJHST.2012.047429

Numerical simulation of flood due to dam-break flow using an implicit method

Majid Galoie^*, Gerald Zenz, Saeid Eslamian, Artemis Motamedi

^*Corresponding author for this work

Institute of Hydraulic Engineering and Water Resources Management (2130)

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

Abstract

In this paper, the depth-averaged 2D shallow water equations in the non-conservative form are solved based on the 'Beam and Warming' implicit method by means of the finite difference method (FDM) having a second-order accurate on time and first-order accurate on space. Variations in each time step are calculated considering equations in both x and y directions. Due to solving an equation system in any row, a special algorithm, so-called block-tridiagonal system of equations algorithm, is utilised. To solve the aforementioned dam break equations, a computer programme based on the numerical equations has been developed. Finally, this programme has been validated against the analytical and numerical solutions of some problems obtained from the literature and comparison between this method and other solutions shows a good agreement.

Original language	English
Pages (from-to)	117-137
Number of pages	21
Journal	International Journal of Hydrology Science and Technology
Volume	2
Issue number	2
DOIs	https://doi.org/10.1504/IJHST.2012.047429
Publication status	Published - 2012

Keywords

Block-tridiagonal system of equations
Dam break flow
Seiche test
Shallow water equations
The beam and warming implicit method

ASJC Scopus subject areas

Environmental Engineering
Water Science and Technology
Waste Management and Disposal
Earth and Planetary Sciences (miscellaneous)

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10.1504/IJHST.2012.047429

Cite this

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title = "Numerical simulation of flood due to dam-break flow using an implicit method",

abstract = "In this paper, the depth-averaged 2D shallow water equations in the non-conservative form are solved based on the 'Beam and Warming' implicit method by means of the finite difference method (FDM) having a second-order accurate on time and first-order accurate on space. Variations in each time step are calculated considering equations in both x and y directions. Due to solving an equation system in any row, a special algorithm, so-called block-tridiagonal system of equations algorithm, is utilised. To solve the aforementioned dam break equations, a computer programme based on the numerical equations has been developed. Finally, this programme has been validated against the analytical and numerical solutions of some problems obtained from the literature and comparison between this method and other solutions shows a good agreement.",

keywords = "Block-tridiagonal system of equations, Dam break flow, Seiche test, Shallow water equations, The beam and warming implicit method",

author = "Majid Galoie and Gerald Zenz and Saeid Eslamian and Artemis Motamedi",

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doi = "10.1504/IJHST.2012.047429",

language = "English",

volume = "2",

pages = "117--137",

journal = "International Journal of Hydrology Science and Technology",

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T1 - Numerical simulation of flood due to dam-break flow using an implicit method

AU - Galoie, Majid

AU - Zenz, Gerald

AU - Eslamian, Saeid

AU - Motamedi, Artemis

PY - 2012

Y1 - 2012

N2 - In this paper, the depth-averaged 2D shallow water equations in the non-conservative form are solved based on the 'Beam and Warming' implicit method by means of the finite difference method (FDM) having a second-order accurate on time and first-order accurate on space. Variations in each time step are calculated considering equations in both x and y directions. Due to solving an equation system in any row, a special algorithm, so-called block-tridiagonal system of equations algorithm, is utilised. To solve the aforementioned dam break equations, a computer programme based on the numerical equations has been developed. Finally, this programme has been validated against the analytical and numerical solutions of some problems obtained from the literature and comparison between this method and other solutions shows a good agreement.

AB - In this paper, the depth-averaged 2D shallow water equations in the non-conservative form are solved based on the 'Beam and Warming' implicit method by means of the finite difference method (FDM) having a second-order accurate on time and first-order accurate on space. Variations in each time step are calculated considering equations in both x and y directions. Due to solving an equation system in any row, a special algorithm, so-called block-tridiagonal system of equations algorithm, is utilised. To solve the aforementioned dam break equations, a computer programme based on the numerical equations has been developed. Finally, this programme has been validated against the analytical and numerical solutions of some problems obtained from the literature and comparison between this method and other solutions shows a good agreement.

KW - Block-tridiagonal system of equations

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KW - Seiche test

KW - Shallow water equations

KW - The beam and warming implicit method

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JF - International Journal of Hydrology Science and Technology

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ER -

Numerical simulation of flood due to dam-break flow using an implicit method

Abstract

Keywords

ASJC Scopus subject areas

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