Turbulent flow through and over vegetation continues to draw significant research attention given its relevance to a plethora of applications in earth and environmental science. Canopy flows are characterized by three-dimensional coherent vortical motions not directly accessible from single-point measurements, which pose a challenge to formalizing links between vegetation structure and turbulent motion. A joint velocity-intermittency technique is applied to velocity data collected within and above aquatic vegetation in a hydraulic flume and above a forested canopy. The approach reveals behavior that provides greater insight into canopy flow dynamics than may be inferred from the vertical profiles of mean velocity, turbulence intensity and R...
At the present time the study of vegetation effects on the characteristics of the river’s flow is an...
This paper looks into the flow profiles in terms of longitudinal and transverse velocities, turbulen...
Vegetation altering hydrodynamic conditions of an open channel flow controls the exchanges of sedime...
Supplementary information files for 'A joint velocity-intermittency analysis reveals similarity in t...
Abstract. The processes influencing turbulence in a deciduous forest and the relevant length and tim...
Abstract Flows inside dense and homogeneous canopies follow the so-called "mixing layer analogy...
Multi-plane PIV measurements were performed in an open-channel flume filled with elongated prisms of...
How the presence of a canopy alters the clustering and the fine scale intermittency exponents and an...
The flow development above and within homogeneous and heterogeneous canopies was experimentally stud...
This paper summarizes recent advances in vegetation hydrodynamics and uses the new concepts to explo...
Abstract. Three-dimensional wind velocity components were measured at two levels above and at six le...
The time-averaged and instantaneous flow velocity structures of flood waters are not well understood...
In recent years aquatic vegetation has become more accepted and important in the river restoration s...
The time-averaged and instantaneous flow velocity structures of flood waters are not well understood...
The problem of turbulent flow-canopies interaction has been extensively studied in literature. When ...
At the present time the study of vegetation effects on the characteristics of the river’s flow is an...
This paper looks into the flow profiles in terms of longitudinal and transverse velocities, turbulen...
Vegetation altering hydrodynamic conditions of an open channel flow controls the exchanges of sedime...
Supplementary information files for 'A joint velocity-intermittency analysis reveals similarity in t...
Abstract. The processes influencing turbulence in a deciduous forest and the relevant length and tim...
Abstract Flows inside dense and homogeneous canopies follow the so-called "mixing layer analogy...
Multi-plane PIV measurements were performed in an open-channel flume filled with elongated prisms of...
How the presence of a canopy alters the clustering and the fine scale intermittency exponents and an...
The flow development above and within homogeneous and heterogeneous canopies was experimentally stud...
This paper summarizes recent advances in vegetation hydrodynamics and uses the new concepts to explo...
Abstract. Three-dimensional wind velocity components were measured at two levels above and at six le...
The time-averaged and instantaneous flow velocity structures of flood waters are not well understood...
In recent years aquatic vegetation has become more accepted and important in the river restoration s...
The time-averaged and instantaneous flow velocity structures of flood waters are not well understood...
The problem of turbulent flow-canopies interaction has been extensively studied in literature. When ...
At the present time the study of vegetation effects on the characteristics of the river’s flow is an...
This paper looks into the flow profiles in terms of longitudinal and transverse velocities, turbulen...
Vegetation altering hydrodynamic conditions of an open channel flow controls the exchanges of sedime...