Abstract
Understanding the dynamic characteristics and evolution mechanism of charged particles adhered to the wall is of great significance for strengthening production safety and reducing the risk of explosion caused by adhesion. In this study, experiments and simulations are combined to explore the adhesion characteristics of charged particles and reveal the adhesion mechanism. According to the charge-to-mass ratio and particle size distribution of the adhered particles in the experiment and simulation, the dynamic adhesion characteristics of the adhered particles are explored to verify the accuracy of the simulation model. The evolutionary pattern of adhered particles is obtained by exploring the charge characteristics and size distributions of particles. The forces acting on the adhered particles are analyzed to reveal the adhesion mechanism of the particles. Furthermore, the probability of adhered particles with different particle charge and size is studied and the criterion of particle adhesion is proposed.
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