Sediment-laden flows are a complex solid-fluid interaction process. This study presents a multimode morphodynamic model system combined with shallow water theory and a nonequilibrium assumption for sediment transport. The model system aims to simulate the morphological change caused by sediment-laden flows with various sediment transport modes. It involves three modules: a hydrodynamic module, a sediment transport module, and a morphological evolution module. The hydrodynamic model is governed by modified shallow water equations considering the interaction effects of flow and sediment. A flexible sediment transport model is presented that incorporates a weight coefficient. The model can adaptively choose an appropriate transport mode accord...
The morphological development of fluvial and tidal systems is forecast more and more frequently by m...
We derive a two-layer depth-averaged model of sediment transport and morphological evolution for app...
Understanding of complex flood-riverbed interaction processes in large-scale (field) outburst floods...
A multi-mode morphodynamic model for sediment-laden flows and geomorphic impacts Mingfu Guan 1*; Nig...
Flood events can induce considerable sediment transport which in turn influences flow dynamics. This...
Sediment mobility and memory effects distinguish transport and morphodynamics in fine sediment setti...
Comprehension of sediment dynamics is peculiar in riverine and coastal management. In fact morpholog...
Many environmental free surface flows involve water and sediment transport. The net changes to the ...
This chapter provides descriptions of essential features of modelling of a broad range of problems i...
Appropriate descriptions of turbulence are important in predicting sediment transport and seabed evo...
A three-dimensional layer integrated morphodynamic model has been developed to predict the hydrodyna...
Conventional morphodynamic models are typically based on a coupled system of hydrodynamic equations...
A class of novel models for sediment transport, for which multilayer fluid models are combined with ...
International audienceThe classical sediment transport models based on shallow water equations (SWE)...
We derive a two-layer depth-averaged model of sediment transport and morphological evolution for app...
The morphological development of fluvial and tidal systems is forecast more and more frequently by m...
We derive a two-layer depth-averaged model of sediment transport and morphological evolution for app...
Understanding of complex flood-riverbed interaction processes in large-scale (field) outburst floods...
A multi-mode morphodynamic model for sediment-laden flows and geomorphic impacts Mingfu Guan 1*; Nig...
Flood events can induce considerable sediment transport which in turn influences flow dynamics. This...
Sediment mobility and memory effects distinguish transport and morphodynamics in fine sediment setti...
Comprehension of sediment dynamics is peculiar in riverine and coastal management. In fact morpholog...
Many environmental free surface flows involve water and sediment transport. The net changes to the ...
This chapter provides descriptions of essential features of modelling of a broad range of problems i...
Appropriate descriptions of turbulence are important in predicting sediment transport and seabed evo...
A three-dimensional layer integrated morphodynamic model has been developed to predict the hydrodyna...
Conventional morphodynamic models are typically based on a coupled system of hydrodynamic equations...
A class of novel models for sediment transport, for which multilayer fluid models are combined with ...
International audienceThe classical sediment transport models based on shallow water equations (SWE)...
We derive a two-layer depth-averaged model of sediment transport and morphological evolution for app...
The morphological development of fluvial and tidal systems is forecast more and more frequently by m...
We derive a two-layer depth-averaged model of sediment transport and morphological evolution for app...
Understanding of complex flood-riverbed interaction processes in large-scale (field) outburst floods...