A fast second-order shallow water scheme on two-dimensional structured grids over abrupt topography

A fast second-order shallow water scheme on two-dimensional structured grids over abrupt topography

•An efficient two-dimensional finite volume scheme for the SWEs.•The scheme is well-balanced, robust and second-order acccurate.•A novel reconstruction yields superior results for shallow downhill flow over steps.•Improved speed estimates at the wet-dry front by reconstructing velocity slopes. This...

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Veröffentlicht in:Advances in water resources 2019-05, Vol.127, p.89-108
Hauptverfasser: Buttinger-Kreuzhuber, Andreas, Horváth, Zsolt, Noelle, Sebastian, Blöschl, Günter, Waser, Jürgen
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Sprache:eng
Schlagworte:
Computer applications
Computer simulation
Dry cells
Reconstruction
Saint-Venant
Second-order reconstruction
Shallow water
Slope source term
Structured grids (mathematics)
Topography (geology)
Well-balanced scheme
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container_end_page 108
container_issue
container_start_page 89
container_title Advances in water resources
container_volume 127
creator Buttinger-Kreuzhuber, Andreas
Horváth, Zsolt
Noelle, Sebastian
Blöschl, Günter
Waser, Jürgen
description •An efficient two-dimensional finite volume scheme for the SWEs.•The scheme is well-balanced, robust and second-order acccurate.•A novel reconstruction yields superior results for shallow downhill flow over steps.•Improved speed estimates at the wet-dry front by reconstructing velocity slopes. This paper presents a finite volume scheme on structured grids to simulate shallow flows over complex terrain. The situation of shallow downhill flow over a step is particularly challenging for most shallow water schemes. We study this situation in detail and devise a novel second-order reconstruction strategy, which gives superior results over former hydrostatic reconstruction (HR) schemes. The reconstruction step is based on a recent first-order hydrostatic reconstruction HR method, which improves shallow flows over steps. The proposed second-order scheme is well-balanced, positivity-preserving, and handles dry cells. When compared with the original HR, we lower the computational burden by using a simplified quadrature for the bed slope source term. We test the scheme on various benchmark setups to assess accuracy and robustness, where the method produces comparable results to other HR-based schemes in most cases and superior results in the case of shallow downhill flow over steps. The novel second-order scheme is capable of simulating large-scale real-world flood scenarios fast and accurately.
doi_str_mv 10.1016/j.advwatres.2019.03.010
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This paper presents a finite volume scheme on structured grids to simulate shallow flows over complex terrain. The situation of shallow downhill flow over a step is particularly challenging for most shallow water schemes. We study this situation in detail and devise a novel second-order reconstruction strategy, which gives superior results over former hydrostatic reconstruction (HR) schemes. The reconstruction step is based on a recent first-order hydrostatic reconstruction HR method, which improves shallow flows over steps. The proposed second-order scheme is well-balanced, positivity-preserving, and handles dry cells. When compared with the original HR, we lower the computational burden by using a simplified quadrature for the bed slope source term. We test the scheme on various benchmark setups to assess accuracy and robustness, where the method produces comparable results to other HR-based schemes in most cases and superior results in the case of shallow downhill flow over steps. 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subjects Computer applications
Computer simulation
Dry cells
Reconstruction
Saint-Venant
Second-order reconstruction
Shallow water
Slope source term
Structured grids (mathematics)
Topography (geology)
Well-balanced scheme
title A fast second-order shallow water scheme on two-dimensional structured grids over abrupt topography
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