This work develops a two-dimensional hydro-morphological model which can be used to simulate river hydraulics and morphology with various vegetation covers. The model system consists of five modules, including a hydrodynamic model, a sediment transport model, a vegetation model, a bank failure model and a bed deformation model. The secondary flow effects are incorporated through additional dispersion terms. The core components of the model system solve the full shallow water equations; this is coupled with a non-equilibrium sediment transport model. The new integrated model system is validated against a number of laboratory-scale test cases and then applied to a natural river. The satisfactory simulation results confirm the model's capabili...
This study models a dam-break flow over a bed by using a depth-averaged numerical model based on fin...
Understanding the interactions between the ecosystem and the morphology of river floodplains, i.e. f...
The dissertation presented in this manuscript contributes to river science by providing a detailed o...
This work develops a two-dimensional hydro-morphological model which can be used to simulate river h...
Flume experiments and field observations demonstrating the effects of vegetation on river planforms ...
The effect of instream vegetation growth has largely been ignored by hydrological and geomorphologic...
River systems are amongst the most dynamic and productive ecosystems in the world and provide habita...
Riparian vegetation can significantly influence the morphology of the river, affectingchannel geomet...
In this study, we conducted simulations using a two-dimensional, depth-averaged river flow and river...
The presence of aquatic vegetation on riverbed and embankments influences flow structure and consequ...
Riparian vegetation is increasingly seen as an effective and environmentally acceptable tool in rive...
Submerged aquatic vegetation affects flow, sediment and ecological processes within rivers. Quantify...
A research concerning the most important bottlenecks in the computational modelling of a free meande...
A 2D mathematical model for fluvial processes capable of considering the influence of vegetation and...
Dynamic interaction between river morphodynamics and vegetation affects river channel patterns and p...
This study models a dam-break flow over a bed by using a depth-averaged numerical model based on fin...
Understanding the interactions between the ecosystem and the morphology of river floodplains, i.e. f...
The dissertation presented in this manuscript contributes to river science by providing a detailed o...
This work develops a two-dimensional hydro-morphological model which can be used to simulate river h...
Flume experiments and field observations demonstrating the effects of vegetation on river planforms ...
The effect of instream vegetation growth has largely been ignored by hydrological and geomorphologic...
River systems are amongst the most dynamic and productive ecosystems in the world and provide habita...
Riparian vegetation can significantly influence the morphology of the river, affectingchannel geomet...
In this study, we conducted simulations using a two-dimensional, depth-averaged river flow and river...
The presence of aquatic vegetation on riverbed and embankments influences flow structure and consequ...
Riparian vegetation is increasingly seen as an effective and environmentally acceptable tool in rive...
Submerged aquatic vegetation affects flow, sediment and ecological processes within rivers. Quantify...
A research concerning the most important bottlenecks in the computational modelling of a free meande...
A 2D mathematical model for fluvial processes capable of considering the influence of vegetation and...
Dynamic interaction between river morphodynamics and vegetation affects river channel patterns and p...
This study models a dam-break flow over a bed by using a depth-averaged numerical model based on fin...
Understanding the interactions between the ecosystem and the morphology of river floodplains, i.e. f...
The dissertation presented in this manuscript contributes to river science by providing a detailed o...