High-order well-balanced finite volume schemes for 1d and 2d shallow-water equations with variable bathymetry and Coriolis forces
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Publication:6613544
DOI10.1007/978-3-031-55264-9_9MaRDI QIDQ6613544
José Antonio García-Rodríguez, Victor Gonzalez-Tabernero, Manuel Jesús Castro-Díaz
Publication date: 2 October 2024
Cites Work
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- Well-balanced high-order finite volume methods for systems of balance laws
- Efficient GPU implementation of a two waves TVD-WAF method for the two-dimensional one layer shallow water system on structured meshes
- High order finite difference WENO schemes with the exact conservation property for the shallow water equations
- Preservation of the Discrete Geostrophic Equilibrium in Shallow Water Flows
- Central WENO schemes for hyperbolic systems of conservation laws
- A Fully Well-Balanced Lagrange--Projection-Type Scheme for the Shallow-Water Equations
- CWENO: Uniformly accurate reconstructions for balance laws
- Frontal geostrophic adjustment and nonlinear wave phenomena in one-dimensional rotating shallow water. Part 2. High-resolution numerical simulations
- Finite Volume Simulation of the Geostrophic Adjustment in a Rotating Shallow-Water System
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