A simple model for turbulent diffusion is proposed based on a turbulent energy model modified by Galperin and Hassid (1986) wherein local equilibrium in the concentration flux equation is assumed resulting in a turbulent diffusivity tensor. The early stage of plume development is simulated through adjustment of the integral length scale of diffusion. A simple semi-empirical formulation is also proposed for the dissipation length scale of concentration variance. Although it is substantially simpler than that of Sykes et al. (1984), the model is shown to compare well with the measurements of Fackrell and Robins (1982a, b)
A model to predict the mean concentration field in convective conditions is proposed. This model is ...
A Lagrangian stochastic (LS) probability density function (PDF) model has been developed to study st...
Mixing across a stable density interface caused by a shear stress externally acting on a two-layer f...
A simple model for turbulent diffusion is proposed based on a turbulent energy model modified by Gal...
A turbulent energy model developed by the authors to describe atmospheric flows is used to study dif...
The use of models as a means of studying plume diffusion is by no means new, but the problems which ...
Accounting for the current knowledge of the Convective Boundary Layer (CBL) structure and characteri...
Accounting for the current knowledge of the convective boundary layer structure and characteristics,...
Numerico-empirical expressions for the particle displacement probability density function from which...
A general method to evaluate dispersion parameters for a turbulent Planetary Boundary Layer (PBL) un...
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...
Lagrangian dispersion models require estimates of local production and dissipation rate of turbulent...
Abstract In this report, we solved the advection–diffusion equation under pollutants deposition on ...
Abstract: A turbulent scalar transport model is proposed which is based on the analytical framework ...
A model to predict the mean concentration field in convective conditions is proposed. This model is ...
A Lagrangian stochastic (LS) probability density function (PDF) model has been developed to study st...
Mixing across a stable density interface caused by a shear stress externally acting on a two-layer f...
A simple model for turbulent diffusion is proposed based on a turbulent energy model modified by Gal...
A turbulent energy model developed by the authors to describe atmospheric flows is used to study dif...
The use of models as a means of studying plume diffusion is by no means new, but the problems which ...
Accounting for the current knowledge of the Convective Boundary Layer (CBL) structure and characteri...
Accounting for the current knowledge of the convective boundary layer structure and characteristics,...
Numerico-empirical expressions for the particle displacement probability density function from which...
A general method to evaluate dispersion parameters for a turbulent Planetary Boundary Layer (PBL) un...
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...
Lagrangian dispersion models require estimates of local production and dissipation rate of turbulent...
Abstract In this report, we solved the advection–diffusion equation under pollutants deposition on ...
Abstract: A turbulent scalar transport model is proposed which is based on the analytical framework ...
A model to predict the mean concentration field in convective conditions is proposed. This model is ...
A Lagrangian stochastic (LS) probability density function (PDF) model has been developed to study st...
Mixing across a stable density interface caused by a shear stress externally acting on a two-layer f...