Positron imaging studeis of rotating drums

David Parker; Xianfeng Fan; RNG Forster; Peter Fowles; YL Ding; Jonathan Seville

Positron imaging studeis of rotating drums

David Parker, Xianfeng Fan, RNG Forster, Peter Fowles, YL Ding, Jonathan Seville

Research output: Contribution to journal › Article

Abstract

The potential of the radioisotope tracer technique of positron emission tomography (PET) and the related techniques of positron emission projection imaging (PEPI) and positron emission particle tracking (PEPT) is illustrated with reference to laboratory scale studies of particulate motion in rotating drums, operating either in batch or continuous flow modes. Sand grains, glass beads and TiO2 granules down to 0.5mm diameter were labelled. Using PEPT the transition between rolling and slumping modes has been identified and the velocity profile within the active layer has been determined for a range of drum diameters. PEPI has been used to measure and explain residence time distributions, while all three techniques have been used to study segregation based on particle size, both radially and axially within the drum. Data on particle motion within a novel baffled drum is also presented.

Original language	English
Pages (from-to)	83-87
Number of pages	5
Journal	Canadian Journal of Chemical Engineering
Volume	83(1)
Publication status	Published - 1 Feb 2005

Keywords

particle tracking
PEPT
radioactive tracers
rotating drums
PET

Cite this

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title = "Positron imaging studeis of rotating drums",

abstract = "The potential of the radioisotope tracer technique of positron emission tomography (PET) and the related techniques of positron emission projection imaging (PEPI) and positron emission particle tracking (PEPT) is illustrated with reference to laboratory scale studies of particulate motion in rotating drums, operating either in batch or continuous flow modes. Sand grains, glass beads and TiO2 granules down to 0.5mm diameter were labelled. Using PEPT the transition between rolling and slumping modes has been identified and the velocity profile within the active layer has been determined for a range of drum diameters. PEPI has been used to measure and explain residence time distributions, while all three techniques have been used to study segregation based on particle size, both radially and axially within the drum. Data on particle motion within a novel baffled drum is also presented.",

keywords = "particle tracking, PEPT, radioactive tracers, rotating drums, PET",

author = "David Parker and Xianfeng Fan and RNG Forster and Peter Fowles and YL Ding and Jonathan Seville",

year = "2005",

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language = "English",

volume = "83(1)",

pages = "83--87",

journal = "Canadian Journal of Chemical Engineering",

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TY - JOUR

T1 - Positron imaging studeis of rotating drums

AU - Parker, David

AU - Fan, Xianfeng

AU - Forster, RNG

AU - Fowles, Peter

AU - Ding, YL

AU - Seville, Jonathan

PY - 2005/2/1

Y1 - 2005/2/1

N2 - The potential of the radioisotope tracer technique of positron emission tomography (PET) and the related techniques of positron emission projection imaging (PEPI) and positron emission particle tracking (PEPT) is illustrated with reference to laboratory scale studies of particulate motion in rotating drums, operating either in batch or continuous flow modes. Sand grains, glass beads and TiO2 granules down to 0.5mm diameter were labelled. Using PEPT the transition between rolling and slumping modes has been identified and the velocity profile within the active layer has been determined for a range of drum diameters. PEPI has been used to measure and explain residence time distributions, while all three techniques have been used to study segregation based on particle size, both radially and axially within the drum. Data on particle motion within a novel baffled drum is also presented.

AB - The potential of the radioisotope tracer technique of positron emission tomography (PET) and the related techniques of positron emission projection imaging (PEPI) and positron emission particle tracking (PEPT) is illustrated with reference to laboratory scale studies of particulate motion in rotating drums, operating either in batch or continuous flow modes. Sand grains, glass beads and TiO2 granules down to 0.5mm diameter were labelled. Using PEPT the transition between rolling and slumping modes has been identified and the velocity profile within the active layer has been determined for a range of drum diameters. PEPI has been used to measure and explain residence time distributions, while all three techniques have been used to study segregation based on particle size, both radially and axially within the drum. Data on particle motion within a novel baffled drum is also presented.

KW - particle tracking

KW - PEPT

KW - radioactive tracers

KW - rotating drums

KW - PET

M3 - Article

SN - 1939-019X

VL - 83(1)

SP - 83

EP - 87

JO - Canadian Journal of Chemical Engineering

JF - Canadian Journal of Chemical Engineering

ER -

Positron imaging studeis of rotating drums

Abstract

Keywords

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