Vegetation affects the mean and turbulent flow structure in surface water bodies, thus impacting the local transport processes of contaminants and sediments. The present paper explores the capability of two different mathematical models to predict fully developed one-dimensional open channel flow in the presence of rigid, complex-shaped vegetation with leaves, submerged or emergent. The flow is described by applying two different turbulence closure schemes, both of which are based on the Boussinesq eddy viscosity model: a suitably modified k-e model and a two-layer model based on the mixing length approach. To describe the turbulence structure within and above the canopy a turbulent kinetic energy budget equation was added to the two-layer...
An awareness of mixing processes is imperative in understanding the transport of pollutants in open ...
Edwin A. Cowen,Lance CollinsThe presence of aquatic vegetation in streams becomes an important facto...
This paper presents results of several large-eddy simulations (LES) of turbulent flow in an open cha...
The effects of vegetation on the flow structure are investigated in this paper. In previous studies ...
This work focuses on the effects of vegetation on a fluid flow pattern. In this numerical research, ...
Abstract. A solid understanding of the flow through plant canopies is important to better understand...
Abstract. Hydraulic engineers and scientists working on river restoration recognize the need for a d...
This paper reviews current understanding of vegetated flows in fluvial channels. First, the physical...
Riparian shrubs and trees present a complex, seasonally variable morphology, with flexible stems and...
Aquatic plants convert mean kinetic energy into turbulent kinetic energy at the scale of the plant s...
Flow within vegetation characterized by non-uniform roughness density is drawing significant researc...
In this paper, we present and apply a new three-dimensional model for the prediction of canopy-flow ...
The distribution of aquatic vegetation within conveyance channels plays a key role in the determinat...
Predicting flow and mass transport in vegetated regions has a broad range of applications in ecology...
Vegetation altering hydrodynamic conditions of an open channel flow controls the exchanges of sedime...
An awareness of mixing processes is imperative in understanding the transport of pollutants in open ...
Edwin A. Cowen,Lance CollinsThe presence of aquatic vegetation in streams becomes an important facto...
This paper presents results of several large-eddy simulations (LES) of turbulent flow in an open cha...
The effects of vegetation on the flow structure are investigated in this paper. In previous studies ...
This work focuses on the effects of vegetation on a fluid flow pattern. In this numerical research, ...
Abstract. A solid understanding of the flow through plant canopies is important to better understand...
Abstract. Hydraulic engineers and scientists working on river restoration recognize the need for a d...
This paper reviews current understanding of vegetated flows in fluvial channels. First, the physical...
Riparian shrubs and trees present a complex, seasonally variable morphology, with flexible stems and...
Aquatic plants convert mean kinetic energy into turbulent kinetic energy at the scale of the plant s...
Flow within vegetation characterized by non-uniform roughness density is drawing significant researc...
In this paper, we present and apply a new three-dimensional model for the prediction of canopy-flow ...
The distribution of aquatic vegetation within conveyance channels plays a key role in the determinat...
Predicting flow and mass transport in vegetated regions has a broad range of applications in ecology...
Vegetation altering hydrodynamic conditions of an open channel flow controls the exchanges of sedime...
An awareness of mixing processes is imperative in understanding the transport of pollutants in open ...
Edwin A. Cowen,Lance CollinsThe presence of aquatic vegetation in streams becomes an important facto...
This paper presents results of several large-eddy simulations (LES) of turbulent flow in an open cha...