Add to ORKGThe analysis of contaminants mixing in natural channels is an important topic of Environmental Hydraulics. In the mid-field, the prediction of transverse mixing is complicated by other typical features of natural channels, such as bed forms and vegetation. The present experimental research investigated the effects of bedforms and banks vegetation on the structure of the turbulent flow field and on the transverse mixing process in a channel. A flume equipped with a set of ten 2D fixed dunes on the bed and rice stems at the banks was used. Detailed velocity measurements were performed using acoustic Doppler velocimetry. Mixing measurements were made using a NaCl solution as the tracer and measuring its concentration downstream the point of in...
The distribution of aquatic vegetation within conveyance channels plays a key role in the determinat...
Vegetation exists on the floodplains of almost all natural channels. This vegetation results in a nu...
River vegetation radically modifies the flow field and turbulence characteristics. To analyze the ve...
The analysis of contaminants mixing in natural channels is an important topic of Environmental Hydra...
An awareness of mixing processes is imperative in understanding the transport of pollutants in open ...
Vegetation altering hydrodynamic conditions of an open channel flow controls the exchanges of sedime...
Curved channels and aquatic vegetation are commonly present in the riverine environment. In this stu...
The presence of vegetation in rivers exerts an important ecological function and is very important t...
Vegetation in channels strongly affects flow structure and turbulence, with consequences on the hydr...
Vegetation altering hydrodynamic conditions of an open channel flow controls the exchanges of sedime...
Quantifying vegetative effects on the flow, suspended sediment concentrations, and sediment transpor...
Understanding of how the vegetation distribution influences flow patterns and turbulence structure i...
Vegetation altering hydrodynamic conditions of an open channel flow controls the exchanges of sedime...
Experiments are conducted in an open channel with semi-circular patches distributed on one sidewall ...
Vegetation in channels, rivers, reservoirs, and wetlands alters the flow turbulence characteristics....
The distribution of aquatic vegetation within conveyance channels plays a key role in the determinat...
Vegetation exists on the floodplains of almost all natural channels. This vegetation results in a nu...
River vegetation radically modifies the flow field and turbulence characteristics. To analyze the ve...
The analysis of contaminants mixing in natural channels is an important topic of Environmental Hydra...
An awareness of mixing processes is imperative in understanding the transport of pollutants in open ...
Vegetation altering hydrodynamic conditions of an open channel flow controls the exchanges of sedime...
Curved channels and aquatic vegetation are commonly present in the riverine environment. In this stu...
The presence of vegetation in rivers exerts an important ecological function and is very important t...
Vegetation in channels strongly affects flow structure and turbulence, with consequences on the hydr...
Vegetation altering hydrodynamic conditions of an open channel flow controls the exchanges of sedime...
Quantifying vegetative effects on the flow, suspended sediment concentrations, and sediment transpor...
Understanding of how the vegetation distribution influences flow patterns and turbulence structure i...
Vegetation altering hydrodynamic conditions of an open channel flow controls the exchanges of sedime...
Experiments are conducted in an open channel with semi-circular patches distributed on one sidewall ...
Vegetation in channels, rivers, reservoirs, and wetlands alters the flow turbulence characteristics....
The distribution of aquatic vegetation within conveyance channels plays a key role in the determinat...
Vegetation exists on the floodplains of almost all natural channels. This vegetation results in a nu...
River vegetation radically modifies the flow field and turbulence characteristics. To analyze the ve...