A two-layer mathematical model is presented for sedimentation in reservoirs where turbidity currents are to be expected. As the model is two-dimensional in plan, the suspended-sediment concentration of the turbulent underflow is described by a depth-integrated form of the convection-diffusion equation originally proposed by Galappatti in 1983. The bed-level variations governing this model are described by a depth-integrated sediment balance. For closure of the model various closure relations are required based on the vertical distribution of flow and sediment of the turbidity current. A semi-empirical model, presented to describe these distributions, is used to quantify boundary shear stresses, suspended-sediment transport rate, and the ada...
The purpose of this study is to consider sediment deposition in large reservoirs with high suspended...
A hierarchy of models and results are presented for the simulation of the dynamics and deposition of...
The hydrodynamics of density currents are difficult to study in the natural envi- ronment, whereas l...
A two-layer mathematical model is presented for sedimentation in reservoirs where turbidity currents...
An original model based upon mathematical theory and coupled with numerical methods has been develop...
An original model based upon mathematical theory and coupled with numerical methods has been develop...
Turbidity current is formed as subaerial open-channel sediment-laden flow plunges into a reservoir. ...
The production potential of deep-water reservoirs is primarily determined by rock bulk volume, poros...
Turbidity currents are major transport agents in reservoirs in which high concentrations of fine sed...
The production potential of deep-water reservoirs is primarily determined by rock bulk volume, poros...
Complete field equations have been established for turbidity current flow. A Modified Three Equation...
Complete field equations have been established for turbidity current flow. A Modified Three Equation...
We develop a simple model for flow and suspended sediment transport in submarine channels able to de...
We develop a simple model to describe vertical profiles of velocity and suspended sediment concentra...
The purpose of this study is to consider sediment deposition in large reservoirs with high suspended...
The purpose of this study is to consider sediment deposition in large reservoirs with high suspended...
A hierarchy of models and results are presented for the simulation of the dynamics and deposition of...
The hydrodynamics of density currents are difficult to study in the natural envi- ronment, whereas l...
A two-layer mathematical model is presented for sedimentation in reservoirs where turbidity currents...
An original model based upon mathematical theory and coupled with numerical methods has been develop...
An original model based upon mathematical theory and coupled with numerical methods has been develop...
Turbidity current is formed as subaerial open-channel sediment-laden flow plunges into a reservoir. ...
The production potential of deep-water reservoirs is primarily determined by rock bulk volume, poros...
Turbidity currents are major transport agents in reservoirs in which high concentrations of fine sed...
The production potential of deep-water reservoirs is primarily determined by rock bulk volume, poros...
Complete field equations have been established for turbidity current flow. A Modified Three Equation...
Complete field equations have been established for turbidity current flow. A Modified Three Equation...
We develop a simple model for flow and suspended sediment transport in submarine channels able to de...
We develop a simple model to describe vertical profiles of velocity and suspended sediment concentra...
The purpose of this study is to consider sediment deposition in large reservoirs with high suspended...
The purpose of this study is to consider sediment deposition in large reservoirs with high suspended...
A hierarchy of models and results are presented for the simulation of the dynamics and deposition of...
The hydrodynamics of density currents are difficult to study in the natural envi- ronment, whereas l...
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