Abstract
A simulation is described which permits the evaluation of dispersed particulate behaviour under the transient ion density and space-charge fields appropriate to the operation of electrostatic precipitators with pulsed energization. Field, field-assisted diffusion and pure diffusion charging mechanisms are used to describe the charging and a novel stochastic scheme is introduced to evaluate particle charge density distributions in both space and time when turbulent diffusion is important. Supporting experimental measurements are introduced to measure the particle charge distributions and to estimate the spatial changes in dust concentrations as a result of the migration processes within a precipitator.
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