Add to ORKGAn analytical solution for predicting the vertical distribution of streamwise mean velocity in an open channel flow with submerged flexible vegetation is proposed when large bending occurs. The flow regime is separated into two horizontal layers: a vegetation layer and a free water layer. In the vegetation layer, a mechanical analysis for the flexible vegetation is conducted, and an approximately linear relationship between the drag force of bending vegetation and the streamwise mean flow velocity is observed in the case of large deflection, which differes significantly from the case of rigid upright vegetation. Based on the theoretical analysis, a linear streamwise drag force-mean flow velocity expression in the momentum equation is derive...
The existence of vegetation in open channels has several influences over fluvial processes, such as ...
Flow resistance, velocity distribution, and turbulence intensity are significantly influenced by aqu...
The development of vegetation in the river bed and in the banks can affect the hydrodynamic conditio...
An analytical solution for predicting the vertical distribution of streamwise mean velocity in an op...
YesIn this paper, an analytical model that represents the streamwise velocity distribution for open ...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
In order to experimentally investigate the effects of rigid vegetation on the characteristics of flo...
Flow within vegetation is one of the main driving forces for material exchange and energy transfer i...
A new model for the depth-averaged velocity for flow in presence of submerged vegetation is develope...
NoVegetation remains to be an important factor that can hinder the river flow. It needs innovative m...
The purpose of this study is to explore the suitability of numerical models in estimation o f veloci...
An experimental study is presented for investigating the effect of vegetation element geometry on th...
Based on the momentum transfer theory, an analytical model is proposed for the velocity and discharg...
As it is known, vegetation is an important component of aquatic ecosystems. Because of the variety o...
Vegetation affects the mean and turbulent flow structure. It may increase flood risks and sediment t...
The existence of vegetation in open channels has several influences over fluvial processes, such as ...
Flow resistance, velocity distribution, and turbulence intensity are significantly influenced by aqu...
The development of vegetation in the river bed and in the banks can affect the hydrodynamic conditio...
An analytical solution for predicting the vertical distribution of streamwise mean velocity in an op...
YesIn this paper, an analytical model that represents the streamwise velocity distribution for open ...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
In order to experimentally investigate the effects of rigid vegetation on the characteristics of flo...
Flow within vegetation is one of the main driving forces for material exchange and energy transfer i...
A new model for the depth-averaged velocity for flow in presence of submerged vegetation is develope...
NoVegetation remains to be an important factor that can hinder the river flow. It needs innovative m...
The purpose of this study is to explore the suitability of numerical models in estimation o f veloci...
An experimental study is presented for investigating the effect of vegetation element geometry on th...
Based on the momentum transfer theory, an analytical model is proposed for the velocity and discharg...
As it is known, vegetation is an important component of aquatic ecosystems. Because of the variety o...
Vegetation affects the mean and turbulent flow structure. It may increase flood risks and sediment t...
The existence of vegetation in open channels has several influences over fluvial processes, such as ...
Flow resistance, velocity distribution, and turbulence intensity are significantly influenced by aqu...
The development of vegetation in the river bed and in the banks can affect the hydrodynamic conditio...