Abstract
A model for the dispersion of gaseous pollutants based on analytical solutions of the steadystate diffusion equation is described. Important physical processes such as dry deposition are included and the boundary layer structure is simulated. The model is shown to be applicable over a wide range of travel distances, but to be most useful for meso-scale distances (20–100 km), where Gaussian plume and box models have many limitations. In this region, computational costs are usually well below those incurred by using numerical solutions of the diffusion equation.
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