Add to ORKGInternational audienceAn Aggregated Dead Zone (ADZ) model is presented for longitudinal dispersion of tracer in river channels, in which the channel cross-section is divided into two parallel regions: the bulk flow and dead zone storage. Tracer particles in the bulk flow are assumed to obey plug-flow advection at the discharge velocity U without any mixing effects. The dispersive properties of the model are completely embodied in the residence time for tracer storage in the dead zone. The model provides an excellent description and prediction of empirical concentration-time distributions, for times t Its physical realism is demonstrated by using it to describe the evolution of a tracer cloud in the River Severn, U.K., and by comparing it wi...
Much has been done to mitigate the effects of intermittent discharges of pollutants; however, pollut...
Computational models developed to calculate longitudinal advection and dispersion of contaminants in...
The majority of formulae for predicting in-channel mixing by longitudinal dispersion are based on em...
The classical one-dimensional advection-diffusion equation (ADE) gives an inadequate description of ...
The Aggregated Dead-Zone (ADZ) model provides a simple dynamic description of pollutant transportati...
International audienceAbstract: A tracer experiment using Rhodamine WT dye was carried out to measur...
A derivation is presented of a general cross-section averaged model of longitudinal dispersion, whic...
In a river, dead zones can be due to geometrical irregularities in the riverbanks and riverbed and/o...
Vegetation is ubiquitous in rivers, estuaries and wetlands, strongly influencing both water conveyan...
Contaminants and effluents, after they are discharged into a river, are subjected to transport and m...
Bedrock channels represent a hydraulic environment quite different from that of alluvial channels, b...
Releasing and mixing of pollutants in rivers can cause serious threats for downstream users. Longitu...
Vegetation is ubiquitous in rivers, estuaries, and wetlands, strongly influencing water conveyance a...
A Lagrangian-Particle-Tracking-Method (LPTM) has been developed to determine the influence of dead w...
The presence of dead zones in streams and rivers significantly affects the characteristics of mass t...
Much has been done to mitigate the effects of intermittent discharges of pollutants; however, pollut...
Computational models developed to calculate longitudinal advection and dispersion of contaminants in...
The majority of formulae for predicting in-channel mixing by longitudinal dispersion are based on em...
The classical one-dimensional advection-diffusion equation (ADE) gives an inadequate description of ...
The Aggregated Dead-Zone (ADZ) model provides a simple dynamic description of pollutant transportati...
International audienceAbstract: A tracer experiment using Rhodamine WT dye was carried out to measur...
A derivation is presented of a general cross-section averaged model of longitudinal dispersion, whic...
In a river, dead zones can be due to geometrical irregularities in the riverbanks and riverbed and/o...
Vegetation is ubiquitous in rivers, estuaries and wetlands, strongly influencing both water conveyan...
Contaminants and effluents, after they are discharged into a river, are subjected to transport and m...
Bedrock channels represent a hydraulic environment quite different from that of alluvial channels, b...
Releasing and mixing of pollutants in rivers can cause serious threats for downstream users. Longitu...
Vegetation is ubiquitous in rivers, estuaries, and wetlands, strongly influencing water conveyance a...
A Lagrangian-Particle-Tracking-Method (LPTM) has been developed to determine the influence of dead w...
The presence of dead zones in streams and rivers significantly affects the characteristics of mass t...
Much has been done to mitigate the effects of intermittent discharges of pollutants; however, pollut...
Computational models developed to calculate longitudinal advection and dispersion of contaminants in...
The majority of formulae for predicting in-channel mixing by longitudinal dispersion are based on em...