Multi-plane PIV measurements were performed in an open-channel flume filled with elongated prisms of height k and width l to investigate the effect of the deepening of the canopy on the flow structure. Velocity measurements were performed both inside the canopy and above it. Analysis of the spatial convergence for the double-averaged quantities shows that for canopy flow investigations (z k). Three canopy aspect ratios, k/l = [1, 3, 6] were investigated for a fixed modified-submergence ratio β = (h - k)=l = 3 where h is the water depth. As the canopy deepens, the hydraulic roughness decreases and the velocity near the bottom of the canopy becomes gradually constant, as expected for deep canopies. We show how the highly converged (both in s...
The effect of hydraulic resistance on the downstream evolution of the water surface profile h in a s...
Synchronous sonic anemometric measurements at five heights within a mixed coniferous forest were us...
This paper summarizes recent advances in vegetation hydrodynamics and uses the new concepts to explo...
Multi-plane PIV measurements were performed in an open-channel flume filled with elongated prisms of...
The problem of turbulent flow-canopies interaction has been extensively studied in literature. When ...
Turbulent flow through and over vegetation continues to draw significant research attention given it...
The flow development above and within homogeneous and heterogeneous canopies was experimentally stud...
Turbulent flows over dense canopies consisting of rigid filaments of small size are investigated usi...
International audienceBoundary layer interactions with canopies control various environmental proces...
Abstract Flows inside dense and homogeneous canopies follow the so-called "mixing layer analogy...
Quantification of roughness effects on free surface flows is unquestionably necessary when describin...
A neutral boundary layer was generated in the laboratory to analyze the mean velocity field and the...
Aquatic flow over a submerged vegetation canopy is a ubiquitous example of flow adjacent to a permea...
Supplementary information files for 'A joint velocity-intermittency analysis reveals similarity in t...
We have performed high-fidelity simulations of turbulent open-channel flows over submerged rigid can...
The effect of hydraulic resistance on the downstream evolution of the water surface profile h in a s...
Synchronous sonic anemometric measurements at five heights within a mixed coniferous forest were us...
This paper summarizes recent advances in vegetation hydrodynamics and uses the new concepts to explo...
Multi-plane PIV measurements were performed in an open-channel flume filled with elongated prisms of...
The problem of turbulent flow-canopies interaction has been extensively studied in literature. When ...
Turbulent flow through and over vegetation continues to draw significant research attention given it...
The flow development above and within homogeneous and heterogeneous canopies was experimentally stud...
Turbulent flows over dense canopies consisting of rigid filaments of small size are investigated usi...
International audienceBoundary layer interactions with canopies control various environmental proces...
Abstract Flows inside dense and homogeneous canopies follow the so-called "mixing layer analogy...
Quantification of roughness effects on free surface flows is unquestionably necessary when describin...
A neutral boundary layer was generated in the laboratory to analyze the mean velocity field and the...
Aquatic flow over a submerged vegetation canopy is a ubiquitous example of flow adjacent to a permea...
Supplementary information files for 'A joint velocity-intermittency analysis reveals similarity in t...
We have performed high-fidelity simulations of turbulent open-channel flows over submerged rigid can...
The effect of hydraulic resistance on the downstream evolution of the water surface profile h in a s...
Synchronous sonic anemometric measurements at five heights within a mixed coniferous forest were us...
This paper summarizes recent advances in vegetation hydrodynamics and uses the new concepts to explo...