The present study aims at understanding the changes in the channel conveyance and in the turbulent flow structure due to the presence of both submerged vegetation in the floodplains and riparian vegetation. An experimental campaign was carried out comprising uniform compound channels flows (i) without any kind of vegetation, (ii) with synthetic grass in the floodplains, (iii) with synthetic grass in the floodplains and rods in the interface between main channel and the floodplain and (iv) with synthetic grass in the floodplains and artificial shrubs in the interface between main channel and the floodplain. For comparison, the water depth in all flow cases was kept constant. Accurate acoustic Doppler velocimetry was used to evaluate the 3d v...
Curved channels and aquatic vegetation are commonly present in the riverine environment. In this stu...
The time-averaged and instantaneous flow velocity structures of flood waters are not well understood...
Vegetation in channels strongly affects flow structure and turbulence, with consequences on the hydr...
The present study aims at understanding the changes in the channel conveyance and in the turbulent f...
Many rivers and wetlands have vegetation. The effect of riparian vegetation on ecological and flow p...
Flow resistance, velocity distribution, and turbulence intensity are significantly influenced by aqu...
The distribution of aquatic vegetation within conveyance channels plays a key role in the determinat...
ABSTRACT: The flow in compound open-channel is characterized by a complex flow structure due to the ...
Riparian shrubs and trees present a complex, seasonally variable morphology, with flexible stems and...
An analysis of flow was carried out in this study to find the effects of trees on the flow structure...
In natural rivers, vegetation grows on floodplains, generating complex velocity field within the com...
Emergent vegetation or trees are important riverine features and essential in hydraulic engineering ...
Vegetation plays an important role in changing the flow characteristics and flooding of natural chan...
Vegetation exists on the floodplains of almost all natural channels. This vegetation results in a nu...
Quantifying vegetative effects on the flow, suspended sediment concentrations, and sediment transpor...
Curved channels and aquatic vegetation are commonly present in the riverine environment. In this stu...
The time-averaged and instantaneous flow velocity structures of flood waters are not well understood...
Vegetation in channels strongly affects flow structure and turbulence, with consequences on the hydr...
The present study aims at understanding the changes in the channel conveyance and in the turbulent f...
Many rivers and wetlands have vegetation. The effect of riparian vegetation on ecological and flow p...
Flow resistance, velocity distribution, and turbulence intensity are significantly influenced by aqu...
The distribution of aquatic vegetation within conveyance channels plays a key role in the determinat...
ABSTRACT: The flow in compound open-channel is characterized by a complex flow structure due to the ...
Riparian shrubs and trees present a complex, seasonally variable morphology, with flexible stems and...
An analysis of flow was carried out in this study to find the effects of trees on the flow structure...
In natural rivers, vegetation grows on floodplains, generating complex velocity field within the com...
Emergent vegetation or trees are important riverine features and essential in hydraulic engineering ...
Vegetation plays an important role in changing the flow characteristics and flooding of natural chan...
Vegetation exists on the floodplains of almost all natural channels. This vegetation results in a nu...
Quantifying vegetative effects on the flow, suspended sediment concentrations, and sediment transpor...
Curved channels and aquatic vegetation are commonly present in the riverine environment. In this stu...
The time-averaged and instantaneous flow velocity structures of flood waters are not well understood...
Vegetation in channels strongly affects flow structure and turbulence, with consequences on the hydr...