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An unstructured finite-volume semi-coupled projection model for bed load sediment transport in shallow-water flows
The aim of this work is to develop an original semi-coupled approach for solving the Saint-Venant and Exner equation system. The shallow-water equations are solved first to calculate the full evolution of flow fields, and then the Exner equation is solved to model the morphodynamic response. The numerical method is based on a projection method, which consists in combining the momentum and continuity equations in order to establish a Poisson-type equation for water surface levels. The present formulation is identified as a semi-coupled approach because the projection method incorporates the change in the bed evolution in its approximation. A second-order numerical scheme has been proposed using an unstructured finite-volume technique and an implicit time integration method. Several benchmarks are used to demonstrate the capabilities, accuracy and performance of the model.
An unstructured finite-volume semi-coupled projection model for bed load sediment transport in shallow-water flows
The aim of this work is to develop an original semi-coupled approach for solving the Saint-Venant and Exner equation system. The shallow-water equations are solved first to calculate the full evolution of flow fields, and then the Exner equation is solved to model the morphodynamic response. The numerical method is based on a projection method, which consists in combining the momentum and continuity equations in order to establish a Poisson-type equation for water surface levels. The present formulation is identified as a semi-coupled approach because the projection method incorporates the change in the bed evolution in its approximation. A second-order numerical scheme has been proposed using an unstructured finite-volume technique and an implicit time integration method. Several benchmarks are used to demonstrate the capabilities, accuracy and performance of the model.
An unstructured finite-volume semi-coupled projection model for bed load sediment transport in shallow-water flows
Uh Zapata, Miguel (author) / Gamboa Salazar, Lucia (author) / Itzá Balam, Reymundo (author) / Nguyen, Kim Dan (author)
Journal of Hydraulic Research ; 59 ; 545-558
2021-07-04
14 pages
Article (Journal)
Electronic Resource
Unknown
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