The influence of end walls on the segregation pattern in a horizontal rotating drum

M.M.H.D. Arntz; W.K. den Otter; H.H. Beeftink; R.M. Boom; W.J. Briels

doi:10.1007/s10035-012-0386-4

The influence of end walls on the segregation pattern in a horizontal rotating drum

M.M.H.D. Arntz, W.K. den Otter, H.H. Beeftink, R.M. Boom, W.J. Briels

Research output: Contribution to journal › Article › Academic › peer-review

20 Citations (Scopus)

Abstract

The influence of end walls on segregation of bidisperse granular beds in a short rotating horizontal drum is studied by a discrete element method. Whereas non-closed periodically continued drums segregate radially, all simulations of drums with end walls resulted in axial segregation with two bands at low friction between the particles and the end-wall, and three bands at high friction. Various simulations show irregular transitions between two approximately equally stable states, with rapid oscillations preceding the conversions. The formation of two axial bands decreases the energy dissipation by the bed, whereas neither radial segregation nor axial segregation into three bands reduced the power absorption at constant angular velocity. Roughening up the end-walls also increased the rate of axial segregation.

Original language	English
Pages (from-to)	25-38
Journal	Granular Matter
Volume	15
Issue number	1
DOIs	https://doi.org/10.1007/s10035-012-0386-4
Publication status	Published - 2013

Keywords

reversible axial segregation
granular-materials
mixtures
simulation
cylinders
dynamics
motion

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10.1007/s10035-012-0386-4

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title = "The influence of end walls on the segregation pattern in a horizontal rotating drum",

abstract = "The influence of end walls on segregation of bidisperse granular beds in a short rotating horizontal drum is studied by a discrete element method. Whereas non-closed periodically continued drums segregate radially, all simulations of drums with end walls resulted in axial segregation with two bands at low friction between the particles and the end-wall, and three bands at high friction. Various simulations show irregular transitions between two approximately equally stable states, with rapid oscillations preceding the conversions. The formation of two axial bands decreases the energy dissipation by the bed, whereas neither radial segregation nor axial segregation into three bands reduced the power absorption at constant angular velocity. Roughening up the end-walls also increased the rate of axial segregation.",

keywords = "reversible axial segregation, granular-materials, mixtures, simulation, cylinders, dynamics, motion",

author = "M.M.H.D. Arntz and {den Otter}, W.K. and H.H. Beeftink and R.M. Boom and W.J. Briels",

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T1 - The influence of end walls on the segregation pattern in a horizontal rotating drum

AU - Arntz, M.M.H.D.

AU - den Otter, W.K.

AU - Beeftink, H.H.

AU - Boom, R.M.

AU - Briels, W.J.

PY - 2013

Y1 - 2013

N2 - The influence of end walls on segregation of bidisperse granular beds in a short rotating horizontal drum is studied by a discrete element method. Whereas non-closed periodically continued drums segregate radially, all simulations of drums with end walls resulted in axial segregation with two bands at low friction between the particles and the end-wall, and three bands at high friction. Various simulations show irregular transitions between two approximately equally stable states, with rapid oscillations preceding the conversions. The formation of two axial bands decreases the energy dissipation by the bed, whereas neither radial segregation nor axial segregation into three bands reduced the power absorption at constant angular velocity. Roughening up the end-walls also increased the rate of axial segregation.

AB - The influence of end walls on segregation of bidisperse granular beds in a short rotating horizontal drum is studied by a discrete element method. Whereas non-closed periodically continued drums segregate radially, all simulations of drums with end walls resulted in axial segregation with two bands at low friction between the particles and the end-wall, and three bands at high friction. Various simulations show irregular transitions between two approximately equally stable states, with rapid oscillations preceding the conversions. The formation of two axial bands decreases the energy dissipation by the bed, whereas neither radial segregation nor axial segregation into three bands reduced the power absorption at constant angular velocity. Roughening up the end-walls also increased the rate of axial segregation.

KW - reversible axial segregation

KW - granular-materials

KW - mixtures

KW - simulation

KW - cylinders

KW - dynamics

KW - motion

U2 - 10.1007/s10035-012-0386-4

DO - 10.1007/s10035-012-0386-4

M3 - Article

SN - 1434-5021

VL - 15

SP - 25

EP - 38

JO - Granular Matter

JF - Granular Matter

IS - 1

ER -

The influence of end walls on the segregation pattern in a horizontal rotating drum

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Keywords

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