Litcius/Paper detail

A 2D HLL-based weakly coupled model for transient flows on mobile beds

Robin Meurice, Sandra Soares Frazão

2020Journal of Hydroinformatics25 citationsDOIOpen Access PDF

Abstract

Abstract We propose a finite-volume model that aims at improving the ability of 2D numerical models to accurately predict the morphological evolution of sandy beds when subjected to transient flows like dam-breaks. This model solves shallow water and Exner equations with a weakly coupled approach while the fluxes at the interfaces of the cells are calculated thanks to a lateralized HLLC flux scheme. Besides describing the model, we ran it for four different test cases: a steady flow on an inclined bed leading to aggradation or degradation, a dam-break leading to high interaction between the flow and the bed, a dam-break with a symmetrical enlargement close to the gate and a dam-break in a channel with a 90° bend. The gathered results are discussed and compared to an existing fully coupled approach based on HLLC fluxes. Although both models equally perform regarding water levels, the weakly coupled model looks to better predict the bed evolution for the four test cases. In particular, its results are not affected by an excessive numerical diffusion encountered by the coupled model. Moreover, it usually better estimates the amplitudes of the maximum deposits and scours. It is also more stable when subject to high bed–flow interaction.

Topics & Concepts

AggradationTransient (computer programming)Dam breakFlow (mathematics)MechanicsFinite volume methodGeologyChannel (broadcasting)Transient flowComputer simulationFlux (metallurgy)Shallow water equationsGeotechnical engineeringSimulationComputer sciencePhysicsGeomorphologyMaterials scienceGeographySurgeArchaeologyFlood mythOperating systemMetallurgyStructural basinComputer networkFluvialComputational Fluid Dynamics and AerodynamicsFluid Dynamics and Turbulent FlowsGeological formations and processes