Journal ArticleDOI
Exploring the mechanism of inter-particle charge diffusion
TLDR
In this article, the authors explore the physics underlying the interparticle charge diffusion, which remains not well understood, by means of numerical simulations and propose a time-scale for its characterization for particular systems.Abstract:
Dispersed solid particles in wall-bounded flows may get electrified during particle-wall collisions due to triboelectric effects. Subsequently, the electrostatic charge migrates from the near-wall regions to the bulk of the flow through the dynamics of the particles ( particle-bound charge transport ) and charge transfer during collisions between particles ( inter-particle charge diffusion ). In this paper, we explore the physics underlying the mechanism of inter-particle charge diffusion, which remains not well understood, by means of numerical simulations. We investigated the efficiency of the charge transport within the particulate phase via this mechanism and propose a time-scale for its characterization for particular systems. The considered parameters of these systems included the particle number density and charge as well as their mechanical and electrical properties. It was found that both an increase of the material density of the particles or of their number density results in an enhanced inter-particle charge diffusion and, thus, a reduction of its time scale. Moreover, if only the number density is high but the material density is kept low, then inter-particle charge diffusion may even become the dominant wall-normal charge transport mechanism. Further, in case some particles carry a high charge they are accelerated towards uncharged particles through electrostatic forces which leads to an efficient charge redistribution.read more
Citations
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Journal ArticleDOI
A four-way coupled CFD-DEM modeling framework for charged particles under electrical field with applications to gas insulated switchgears
Zekun Wang,Moubin Liu,Xi Yang +2 more
TL;DR: In this paper, the authors further developed the four-way coupled CFD-DEM framework under electric field, which not only computes the coupling of flow field, electric field with particle motion and particle charge, the particle-occupied solid fractions on CFD cell, particle-particle interactions and particle-wall interactions, but also considers the dielectrophoretic force, particleparticle Coulomb force, virtual mass force and Magnus force.
Journal ArticleDOI
Powder electrification during pneumatic transport: The role of the particle properties and flow rates
TL;DR: In this paper, the role of the particle properties and flow rates to the buildup of electric charge in pneumatic transport has been investigated, and it is shown that an increase in the particle diameter leads to higher charge exchange during wall-particle collisions and to higher average charge per particle.
Journal ArticleDOI
An accurate and efficient algorithm to model the agglomeration of macroscopic particles
Emil Klahn,Holger Grosshans +1 more
TL;DR: A novel numerical approach based on an algorithm developed by Erleben is presented which allows to predict accurately and efficiently whether particles agglomerate or separate depending on their kinetic parameters and the imposed constrain forces prevent spurious velocity fluctuations and potential particle overlapping in statically overdetermined systems.
Journal ArticleDOI
Triboelectric charging and separation of fine powder mixtures
TL;DR: In this paper, a combination of triboelectric charging and electrostatic separation was investigated for powder mixtures of talcum and calcite, and the dependencies of the tribolectric charge on the mass loading, the gas velocity and the mixture ratio were investigated.
Journal ArticleDOI
Eulerian formulation for the triboelectric charging of polydisperse powder flows
TL;DR: In this paper, an Eulerian formulation for the triboelectric charging of powder flows is proposed, where the particle size, velocity, and charge distribution function are solved through the direct quadrature method of moments.
References
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TL;DR: It is demonstrated that each contact-electrified piece develops a net charge of either positive or negative polarity, and each surface supports a random “mosaic” of oppositely charged regions of nanoscopic dimensions that accommodate significantly more charge per unit area than previously thought.
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