Numerical simulation of the continuous operation of a tribo-aero-electrostatic separator for mixed granular solids

Abstract

Numerical simulation has proved to be a powerful tool in the research and development of new electrostatic processes. In a previous paper, the authors have introduced a simple mathematical model for simulating the outcome of a novel tribo-aero-electrostatic separation process for binary mixtures of granular materials. The mathematical model assumed that the probability of a granule to be separated can be expressed as a function of the number of impacts with granules belonging to the other class of materials. The process is characterized by the fact that the charging of the granules is produced in a fluidized bed device, in the presence of an electric field. The aim of the present paper is to simulate the continuous operation of such a device at various feed rates. The evolution in time of the mass of granules collected at the electrodes has been computed for various compositions of the granular mixture. The effect of the walls was taken into account. The computed results were in good agreement with the experiments. They demonstrate that open-loop continuous operation of the separator is possible for a range of feed-rates that depends on the composition of the materials to be separated. • Aim: numerical simulation of continuous operation of a new electrostatic separator. • Granules get tribocharged in a fluidized bed device, in presence of electric field. • Probability of a granule to be separated is a function of the number of impacts. • Effect of particle-wall collisions was taken into account. • Separation: possible for a range of feed-rates that depends on material composition.