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A Second-Order Well-Balanced Finite Volume Scheme for the Multilayer Shallow Water Model with Variable Density

E. Guerrero Fernández, Manuel J. Castro, T. Morales de Luna

2020Mathematics15 citationsDOIOpen Access PDF

Abstract

In this work, we consider a multilayer shallow water model with variable density. It consists of a system of hyperbolic equations with non-conservative products that takes into account the pressure variations due to density fluctuations in a stratified fluid. A second-order finite volume method that combines a hydrostatic reconstruction technique with a MUSCL second order reconstruction operator is developed. The scheme is well-balanced for the lake-at-rest steady state solutions. Additionally, hints on how to preserve a general class of stationary solutions corresponding to a stratified density profile are also provided. Some numerical results are presented, including validation with laboratory data that show the efficiency and accuracy of the approach introduced here. Finally, a comparison between two different parallelization strategies on GPU is presented.

Topics & Concepts

Hydrostatic equilibriumFinite volume methodShallow water equationsVariable (mathematics)Operator (biology)Applied mathematicsWork (physics)Scheme (mathematics)Waves and shallow waterMathematicsComputer scienceMechanicsMathematical analysisGeologyPhysicsThermodynamicsOceanographyBiochemistryChemistryTranscription factorGeneQuantum mechanicsRepressorComputational Fluid Dynamics and AerodynamicsMeteorological Phenomena and SimulationsAdvanced Numerical Methods in Computational Mathematics