Add to ORKGA new model for the depth-averaged velocity for flow in presence of submerged vegetation is developed. The model is based on a two-layer approach, where flow above and through the vegetation layer is described separately. Vegetation is treated as a homogeneous field of identical cylindrical stems, and the flow field is considered stationary and uniform. It is demonstrated that scaling considerations of the bulk flow field can be used to avoid complications associated with smaller scale flow processes and that still the behavior of depth-averaged flow over vegetation is described accurately. The derived scaling expression of the average flow field is simple in form, it follows fundamental laws of fluid flow, and it shows very good agreement ...
An analytical solution for predicting the vertical distribution of streamwise mean velocity in an op...
The paper presents a quasi two-dimensional (2D) model calculating depth-averaged velocity and bed sh...
The paper presents a quasi two-dimensional (2D) model calculating depth-averaged velocity and bed sh...
A new model for the depth-averaged velocity for flow in presence of submerged vegetation is develope...
The hydraulic resistance of vegetation can play a major role in the hydrodynamics of rivers with ext...
When vegetated regions become part of a river’s flow field, the hydraulic resistance of vegetation a...
The hydraulic resistance of vegetation can play a major role in the hydrodynamics of rivers with ext...
Much research has been dedicated to the interaction between flow and vegetation, however, this knowl...
Much research has been dedicated to the interaction between flow and vegetation,\ud however, this kn...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
A new, analytical, physically based, model of the vertical flow velocity profile and the hydraulic r...
The lateral distributions of depth-averaged velocity in open compound channels with emerged and subm...
The hydraulic resistance of vegetation can play a major role in the hydrodynamics of rivers with ext...
In order to experimentally investigate the effects of rigid vegetation on the characteristics of flo...
An analytical solution for predicting the vertical distribution of streamwise mean velocity in an op...
An analytical solution for predicting the vertical distribution of streamwise mean velocity in an op...
The paper presents a quasi two-dimensional (2D) model calculating depth-averaged velocity and bed sh...
The paper presents a quasi two-dimensional (2D) model calculating depth-averaged velocity and bed sh...
A new model for the depth-averaged velocity for flow in presence of submerged vegetation is develope...
The hydraulic resistance of vegetation can play a major role in the hydrodynamics of rivers with ext...
When vegetated regions become part of a river’s flow field, the hydraulic resistance of vegetation a...
The hydraulic resistance of vegetation can play a major role in the hydrodynamics of rivers with ext...
Much research has been dedicated to the interaction between flow and vegetation, however, this knowl...
Much research has been dedicated to the interaction between flow and vegetation,\ud however, this kn...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
A new, analytical, physically based, model of the vertical flow velocity profile and the hydraulic r...
The lateral distributions of depth-averaged velocity in open compound channels with emerged and subm...
The hydraulic resistance of vegetation can play a major role in the hydrodynamics of rivers with ext...
In order to experimentally investigate the effects of rigid vegetation on the characteristics of flo...
An analytical solution for predicting the vertical distribution of streamwise mean velocity in an op...
An analytical solution for predicting the vertical distribution of streamwise mean velocity in an op...
The paper presents a quasi two-dimensional (2D) model calculating depth-averaged velocity and bed sh...
The paper presents a quasi two-dimensional (2D) model calculating depth-averaged velocity and bed sh...