Add to ORKGUnderstanding flow characteristics and turbulent structure in the presence of vegetation is important with respect to environmental processes as sediment transport and mixing of transported quantities. In the present paper attention is focused on the kinematic and turbulent processes in presence of flexible submerged vegetation. In particular, the effect of vegetation on the flux of mass distribution and the process of transport is investigated. The analysis is performed with the aid of detailed experimental data collected in a laboratory channel both in the absence and in presence of flexible and submerged vegetation. Results essentially confirms that mass exchanges in the presence of vegetation are strongly influenced by the presenc...
Vegetation is a common feature in natural coastal and riverine waters, interacting with both water f...
The distribution of aquatic vegetation within conveyance channels plays a key role in the determinat...
Submerged aquatic vegetation can dramatically alter the drag, turbulence and diffusivity characteris...
Understanding flow characteristics and turbulent structure in the presence of vegetation is importan...
Understanding of how the vegetation distribution influences flow patterns and turbulence structure i...
Vegetation in channels strongly affects flow structure and turbulence, with consequences on the hydr...
Aquatic plants in rivers interact with flow and exert an important role in maintaining suitable habi...
The transport of fine sediment and organic matter plays an important role in the nutrient dynamics o...
As it is known, vegetation is an important component of aquatic ecosystems. Because of the variety o...
The presence of vegetation in rivers exerts an important ecological function and is very important t...
Aquatic vegetation appears very often in rivers and floodplains, which significantly affects the flo...
Vegetation altering hydrodynamic conditions of an open channel flow controls the exchanges of sedime...
The interaction between flow and vegetation is a complex topic. Effects of vegetation on turbulent c...
This paper summarizes recent advances in vegetation hydrodynamics and uses the new concepts to explo...
Accelerated erosion endangers coastal wetlands along with their ecological services. Aquatic vegetat...
Vegetation is a common feature in natural coastal and riverine waters, interacting with both water f...
The distribution of aquatic vegetation within conveyance channels plays a key role in the determinat...
Submerged aquatic vegetation can dramatically alter the drag, turbulence and diffusivity characteris...
Understanding flow characteristics and turbulent structure in the presence of vegetation is importan...
Understanding of how the vegetation distribution influences flow patterns and turbulence structure i...
Vegetation in channels strongly affects flow structure and turbulence, with consequences on the hydr...
Aquatic plants in rivers interact with flow and exert an important role in maintaining suitable habi...
The transport of fine sediment and organic matter plays an important role in the nutrient dynamics o...
As it is known, vegetation is an important component of aquatic ecosystems. Because of the variety o...
The presence of vegetation in rivers exerts an important ecological function and is very important t...
Aquatic vegetation appears very often in rivers and floodplains, which significantly affects the flo...
Vegetation altering hydrodynamic conditions of an open channel flow controls the exchanges of sedime...
The interaction between flow and vegetation is a complex topic. Effects of vegetation on turbulent c...
This paper summarizes recent advances in vegetation hydrodynamics and uses the new concepts to explo...
Accelerated erosion endangers coastal wetlands along with their ecological services. Aquatic vegetat...
Vegetation is a common feature in natural coastal and riverine waters, interacting with both water f...
The distribution of aquatic vegetation within conveyance channels plays a key role in the determinat...
Submerged aquatic vegetation can dramatically alter the drag, turbulence and diffusivity characteris...