Analytical and Numerical Solutions of Concentration With Deposition Under Unstable Condition

Abstract

In order to study the analytical and numerical solutions with Adomain decomposition of the pollutant's concentration from point source, wind speed and vertical turbulent eddy diffusivity are taken into account as functions of the vertical height above the surface layer power law. The top of the boundary layer of height has an elevated inversion layer that limits the concentration, and there is dry deposition on the ground surface. The pollutant's degradation distance is also estimated. The outcomes of the analytical and numerical solutions were compared with Iodine-135 measured data under unstable conditions at the Egyptian Atomic Energy Authority. One finds that there is a better agreement between the predicted and observed concentrations than between the numerical concentrations. This study compares the analytical and numerical solutions of the advection-diffusion equation and data of Iodine-135 concentrations observed under unstable conditions.