Field driven charging dynamics of a fluidized granular bed

Yoshimatsu, Ryuta; Araújo, Nuno A. M.; Shinbrot, Troy; Herrmann, Hans J.

doi:10.1039/c6sm00357e

Cited by 24 publications

(27 citation statements)

References 36 publications

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“…[2]). This differs from earlier simulations 7,8,9,10 of collisional grains in which contact times are short, and so for completeness we follow this first simulation with additional simulations in which we investigate the effect of varying .…”

Section: High Neutralization Resultsmentioning

confidence: 80%

“…the mean of absolute values, , ) both to provide an unambiguous measure of the fastest growth in a lattice and to facilitate comparison with prior work 7,8,9,10 . Asymptotically, the fastest growing charges dominate the mean and so the two measures produce the same results.…”

Section: High Neutralization Resultsmentioning

confidence: 99%

“…Modeling approaches have been presented previously 7,8,9,10 ; in the present work, each particle has the same radius, R, and is fixed in a close-packed hexagonal lattice as depicted in Fig. 2(a).…”

Section: (D)mentioning

confidence: 99%

“…In previous work 7,8,9,10 , it was demonstrated that the mechanism of repetitive polarization and neutralization defined by Eq's [1] and [2] leads to exponential growth in charging. This occurs because the electric field defined by Eq.…”

Section: (D)mentioning

confidence: 99%

“…In these panels, we reproduce voltage and charge plots showing that the quantitative charging behaviors in the three experiments appear to behave similarly. In this paper, we analyze this problem and show that this charging behavior is reproduced using a recently described first-principles model 7,8,9,10 . We show fits of this model to the three experiments in each panel of Fig.…”

Section: Introductionmentioning

confidence: 99%

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Surface contact charging

2017

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Section: High Neutralization Resultsmentioning

confidence: 80%

Section: High Neutralization Resultsmentioning

confidence: 99%

Section: (D)mentioning

confidence: 99%

Section: (D)mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Surface contact charging

2017

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Numerical analysis of frictional charging and electrostatic interaction of particles

Chen

Zhang

et al. 2021

AIChE Journal

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Triboelectrification due to frictional contacts between particles and surfaces is prevalent in many powder handling processes. Aiming to explore the friction-induced electrostatic charging behavior, a discrete element method (DEM) is developed for the first time in the current article, in which a frictional charging model and electrostatic interaction models are implemented. The charge accumulation on both the particles and the surface in a rotational container is then analyzed numerically and experimentally to evaluate the developed DEM. The numerical results for the frictional electrification between insulant particles and an insulant wall agree well with the experimental measurement. It is also shown that both the net charge on the particles and the degree of the particle dispersion are a function of the charging time. Moreover, it is revealed that the friction-induced particle charge enhances particle dispersion, and increases the granular temperature due to the electrostatic interactions.

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Segregation of charged particles under shear

et al. 2018

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We study segregation of a binary mixture of similarly charged particles under shear using particlebased simulations. We simulate particle dynamics using a discrete-element model including electrostatic interactions and find that particles segregate according to their net charge. Particles that are charged twice as strong as other particles of the same electrical sign are seen more at insulating boundaries with which we shear the system. Weakly charged particles, on the other hand, stay more in the center of the sheared bed. We propose a simple model based on electrostatic potential energy to understand this segregation. The model shows that the segregated system we observe in our simulations is indeed the most favorable configuration in terms of electrostatic potential energy. Our simulations further show that for a given packing fraction there is an optimal shear velocity where the segregation maximally intensifies. We show that this maximum results from a competition between diffusional and Coulomb fluxes. For a larger shear velocity, diffusion suppresses segregation. * ryutay@phys.ethz.ch

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Field driven charging dynamics of a fluidized granular bed

Cited by 24 publications

References 36 publications

Surface contact charging

Surface contact charging

Numerical analysis of frictional charging and electrostatic interaction of particles

Segregation of charged particles under shear

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