Repeated segregation and energy dissipation in an axially segregated granular bed

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

doi:10.1209/0295-5075/92/54004

Repeated segregation and energy dissipation in an axially segregated granular bed

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

Abstract

Discrete element simulations were used to study the segregation behaviour in a bed of bidisperse granules in a rotating drum. In the final state the large particles ended up in the upper part of the bed near the vertical walls. In order to arrive at this state, the system went through two cycles of structural changes, on top of which fast oscillations were observed between an axially segregated and a somewhat more mixed state. These oscillations were sustained by different angles of repose near the vertical walls and in the middle of the bed. Concomitantly with the structural changes, the system's energy dissipation went through two cycles after which it settled in the state requiring the least work of all traversed states, suggesting that the granular bed strives for minimal dissipation.

Original language	English
Pages (from-to)	54004
Journal	Europhysics Letters
Volume	92
Issue number	5
DOIs	https://doi.org/10.1209/0295-5075/92/54004
Publication status	Published - 2010

Keywords

long drum mixer
horizontal rotating cylinder
simulations
dynamics
mixtures
patterns
model
core

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10.1209/0295-5075/92/54004

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title = "Repeated segregation and energy dissipation in an axially segregated granular bed",

abstract = "Discrete element simulations were used to study the segregation behaviour in a bed of bidisperse granules in a rotating drum. In the final state the large particles ended up in the upper part of the bed near the vertical walls. In order to arrive at this state, the system went through two cycles of structural changes, on top of which fast oscillations were observed between an axially segregated and a somewhat more mixed state. These oscillations were sustained by different angles of repose near the vertical walls and in the middle of the bed. Concomitantly with the structural changes, the system's energy dissipation went through two cycles after which it settled in the state requiring the least work of all traversed states, suggesting that the granular bed strives for minimal dissipation.",

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T1 - Repeated segregation and energy dissipation in an axially segregated granular bed

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

AU - den Otter, W.K.

AU - Beeftink, H.H.

AU - Boom, R.M.

AU - Briels, W.J.

N1 - gepubliceerd in A letters Journal Exploring The frontiers of Physics

PY - 2010

Y1 - 2010

N2 - Discrete element simulations were used to study the segregation behaviour in a bed of bidisperse granules in a rotating drum. In the final state the large particles ended up in the upper part of the bed near the vertical walls. In order to arrive at this state, the system went through two cycles of structural changes, on top of which fast oscillations were observed between an axially segregated and a somewhat more mixed state. These oscillations were sustained by different angles of repose near the vertical walls and in the middle of the bed. Concomitantly with the structural changes, the system's energy dissipation went through two cycles after which it settled in the state requiring the least work of all traversed states, suggesting that the granular bed strives for minimal dissipation.

AB - Discrete element simulations were used to study the segregation behaviour in a bed of bidisperse granules in a rotating drum. In the final state the large particles ended up in the upper part of the bed near the vertical walls. In order to arrive at this state, the system went through two cycles of structural changes, on top of which fast oscillations were observed between an axially segregated and a somewhat more mixed state. These oscillations were sustained by different angles of repose near the vertical walls and in the middle of the bed. Concomitantly with the structural changes, the system's energy dissipation went through two cycles after which it settled in the state requiring the least work of all traversed states, suggesting that the granular bed strives for minimal dissipation.

KW - long drum mixer

KW - horizontal rotating cylinder

KW - simulations

KW - dynamics

KW - mixtures

KW - patterns

KW - model

KW - core

U2 - 10.1209/0295-5075/92/54004

DO - 10.1209/0295-5075/92/54004

M3 - Article

SN - 0295-5075

VL - 92

SP - 54004

JO - Europhysics Letters

JF - Europhysics Letters

IS - 5

ER -

Repeated segregation and energy dissipation in an axially segregated granular bed

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Keywords

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