Accounting for the current knowledge of the Convective Boundary Layer (CBL) structure and characteristics, a new formulation for eddy diffusivities has been derived, to be used in atmospheric dispersion models. Expressions are proposed for eddy diffusivities depending on source distance for inhomogeneous turbulence calculated directly with the Batchelor theory. The classical statistical diffusion theory, the observed spectral properties and the observed characteristics of energy-containing eddies are used to estimate these parameters. In addition, a vertical eddy diffusivity was introduced in an air pollution model and validated with the data of Copenhagen experiments and compared with the results of the obtained from classic formulation of...
International audienceThis study presents a dispersion model based on an analytical solution of two-...
A turbulent energy model developed by the authors to describe atmospheric flows is used to study dif...
The advection diffusion equation was solved analytically using separation of variables technique, co...
Accounting for the current knowledge of the convective boundary layer structure and characteristics,...
AbstractIn this study an integral and an algebraic formulation for the eddy diffusivities in a shear...
Abstract: In this paper, we studied a local and a non-local scheme for vertical diffusion in the atm...
AbstractLarge Eddy Simulation (LES) spectral data and Taylor statistical diffusion theory are used t...
In this work an algebraic formulation to evaluate the eddy diffusivities in the Convective Boundary ...
An analytical air quality dispersion approach based on the steadystate two-dimensional advection-dif...
A new theoretical model has been developed to predict the transport of atmospheric pollutants as the...
Functional forms for the vertical eddy diffusivity K_z (z) are sought that optimize the performance ...
The influence of the different scales of turbulent motion on plume dispersion in the atmospheric con...
The influence of the different scales of turbulent motion on plume dispersion in the atmospheric con...
Numerico-empirical expressions for the particle displacement probability density function from which...
The rate of dispersion of atmospheric pollutants and the volume of atmosphere available for the dilu...
International audienceThis study presents a dispersion model based on an analytical solution of two-...
A turbulent energy model developed by the authors to describe atmospheric flows is used to study dif...
The advection diffusion equation was solved analytically using separation of variables technique, co...
Accounting for the current knowledge of the convective boundary layer structure and characteristics,...
AbstractIn this study an integral and an algebraic formulation for the eddy diffusivities in a shear...
Abstract: In this paper, we studied a local and a non-local scheme for vertical diffusion in the atm...
AbstractLarge Eddy Simulation (LES) spectral data and Taylor statistical diffusion theory are used t...
In this work an algebraic formulation to evaluate the eddy diffusivities in the Convective Boundary ...
An analytical air quality dispersion approach based on the steadystate two-dimensional advection-dif...
A new theoretical model has been developed to predict the transport of atmospheric pollutants as the...
Functional forms for the vertical eddy diffusivity K_z (z) are sought that optimize the performance ...
The influence of the different scales of turbulent motion on plume dispersion in the atmospheric con...
The influence of the different scales of turbulent motion on plume dispersion in the atmospheric con...
Numerico-empirical expressions for the particle displacement probability density function from which...
The rate of dispersion of atmospheric pollutants and the volume of atmosphere available for the dilu...
International audienceThis study presents a dispersion model based on an analytical solution of two-...
A turbulent energy model developed by the authors to describe atmospheric flows is used to study dif...
The advection diffusion equation was solved analytically using separation of variables technique, co...