Abstract
The diffusion equation and the Poisson equation for flow of aerosol particles with electrostatic charge in a parallel-plate channel were solved with integral method. The inverse of the centerline particle density was found to increase linearly with the product of the electrostatic parameter and the axial distance for the flow near the channel inlet. The centerline particle density, the penetration and the electric field force decreased exponentially with the axial distance for flow far from the channel inlet. The analysis was based on flow of liquid with uniform and parabolic velocity profiles. Results were presented in figures.
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