Add to ORKGFlow structure in vegetated channels is highly three-dimensional. This study focuses on the characteristics of flow through the mixing layered vegetation partially covered in an open channel. A series of experiments were conducted to investigate the velocity distributions in the vegetated zone under different flow conditions. Reynolds shear stress was calculated based on 3D measurements using ADV (Acoustic Doppler velocimeter). Observed results show that the flow has distinct features in three layers: the lower, mediate, and upper layer. A prominent shear stress layer is found at the upper edge of tall vegetation, indicating strong momentum exchange in this transition region
In order to experimentally investigate the effects of rigid vegetation on the characteristics of flo...
Vegetation exerts a strong control in the morphological evolution of fluvial systems. It is therefor...
Over the last two decades, the role of vegetation in the environmental and ecological restoration of...
Different types of vegetation widely exist in rivers and wetlands. The vegetation will affect the ec...
Many rivers and wetlands have vegetation. The effect of riparian vegetation on ecological and flow p...
The role of vegetation in the natural environment has drawn great interest recently. The vegetation ...
Riparian vegetation has drawn increasing attention because it plays a vital role in the ecological e...
In natural rivers, vegetation grows on floodplains, generating complex velocity field within the com...
Many rivers and wetlands have vegetation. The effect of riparian vegetation on ecological and flow p...
Many rivers and wetlands have vegetation. The effect of riparian vegetation on ecological and flow p...
The present paper studies the characteristics of flow that passes through two-layer vegetation in op...
Vegetation exists on the floodplains of almost all natural channels. This vegetation results in a nu...
Aquatic vegetation in rivers and coastal regions controls the flow structure in terms of mean veloci...
ABSTRACT: The flow in compound open-channel is characterized by a complex flow structure due to the ...
Curved channels and aquatic vegetation are commonly present in the riverine environment. In this stu...
In order to experimentally investigate the effects of rigid vegetation on the characteristics of flo...
Vegetation exerts a strong control in the morphological evolution of fluvial systems. It is therefor...
Over the last two decades, the role of vegetation in the environmental and ecological restoration of...
Different types of vegetation widely exist in rivers and wetlands. The vegetation will affect the ec...
Many rivers and wetlands have vegetation. The effect of riparian vegetation on ecological and flow p...
The role of vegetation in the natural environment has drawn great interest recently. The vegetation ...
Riparian vegetation has drawn increasing attention because it plays a vital role in the ecological e...
In natural rivers, vegetation grows on floodplains, generating complex velocity field within the com...
Many rivers and wetlands have vegetation. The effect of riparian vegetation on ecological and flow p...
Many rivers and wetlands have vegetation. The effect of riparian vegetation on ecological and flow p...
The present paper studies the characteristics of flow that passes through two-layer vegetation in op...
Vegetation exists on the floodplains of almost all natural channels. This vegetation results in a nu...
Aquatic vegetation in rivers and coastal regions controls the flow structure in terms of mean veloci...
ABSTRACT: The flow in compound open-channel is characterized by a complex flow structure due to the ...
Curved channels and aquatic vegetation are commonly present in the riverine environment. In this stu...
In order to experimentally investigate the effects of rigid vegetation on the characteristics of flo...
Vegetation exerts a strong control in the morphological evolution of fluvial systems. It is therefor...
Over the last two decades, the role of vegetation in the environmental and ecological restoration of...