A 2D mathematical model for fluvial processes capable of considering the influence of vegetation and non-cohesive bank erosion is established based on a body-fitted coordinate system in this paper. The authors have improved a previously developed simulation model by taking into account the impact of vegetation with a vegetation stress term in the momentum conservation equation. A simple simulation method is adopted in the bank erosion model. Simulation runs were performed for a conceptual alluvial channel, the results of channel plan-form and cross section changes suggest that the 2D model predictions agree acceptable with the classic theories of channel pattern formation considering the effect of vegetation
1. We propose a model of plant strategies in temperate fluvial hydrosystems that considers the hydra...
Bank erosion is incorporated in one-dimensional and two-dimensional horizontal models for river morp...
Despite the importance of bank erosion in rivers, most computational fluid dynamics (CFD) models hav...
A 2D mathematical model for fluvial processes capable of considering the influence of vegetation and...
This work develops a two-dimensional hydro-morphological model which can be used to simulate river h...
Riparian vegetation is increasingly seen as an effective and environmentally acceptable tool in rive...
Flume experiments and field observations demonstrating the effects of vegetation on river planforms ...
Riparian vegetation can significantly influence the morphology of the river, affectingchannel geomet...
Abstract: Sediment is one of the principle pollutants of surface waters of the United States and se...
Coupled two-dimensional (2D) morphodynamic and bank erosion models are gaining attentions in recent ...
A research concerning the most important bottlenecks in the computational modelling of a free meande...
The erosion of sediment from riverbanks affects a range of physical and ecological issues. Bank retr...
The effect of instream vegetation growth has largely been ignored by hydrological and geomorphologic...
A numerical model of river morphology for meander bends with erodible cohesive banks is herein deve...
A numerical model of river morphology for meander bends with erodible cohesive banks is herein devel...
1. We propose a model of plant strategies in temperate fluvial hydrosystems that considers the hydra...
Bank erosion is incorporated in one-dimensional and two-dimensional horizontal models for river morp...
Despite the importance of bank erosion in rivers, most computational fluid dynamics (CFD) models hav...
A 2D mathematical model for fluvial processes capable of considering the influence of vegetation and...
This work develops a two-dimensional hydro-morphological model which can be used to simulate river h...
Riparian vegetation is increasingly seen as an effective and environmentally acceptable tool in rive...
Flume experiments and field observations demonstrating the effects of vegetation on river planforms ...
Riparian vegetation can significantly influence the morphology of the river, affectingchannel geomet...
Abstract: Sediment is one of the principle pollutants of surface waters of the United States and se...
Coupled two-dimensional (2D) morphodynamic and bank erosion models are gaining attentions in recent ...
A research concerning the most important bottlenecks in the computational modelling of a free meande...
The erosion of sediment from riverbanks affects a range of physical and ecological issues. Bank retr...
The effect of instream vegetation growth has largely been ignored by hydrological and geomorphologic...
A numerical model of river morphology for meander bends with erodible cohesive banks is herein deve...
A numerical model of river morphology for meander bends with erodible cohesive banks is herein devel...
1. We propose a model of plant strategies in temperate fluvial hydrosystems that considers the hydra...
Bank erosion is incorporated in one-dimensional and two-dimensional horizontal models for river morp...
Despite the importance of bank erosion in rivers, most computational fluid dynamics (CFD) models hav...