Segregation of particles in a tapered fluidized bed
Segregation of particles in a tapered fluidized bed
Tapered fluidized beds are widely used in industrial operations to fluidize a wide range of particle sizes, and are thought to induce relatively strong particle mixing. Like their straight-sided counterparts, tapered fluidized beds are often considered as a homogeneous emulsion phase through which bubbles propagate. However, it has been shown that gas flow through the dense-phase of tapered beds is heterogeneous, generating a central fluidized core and unfluidized peripheral regions. When polydisperse particle mixtures are fluidized in a tapered bed, the structure becomes much more complex once the particles reach the minimum fluidization velocity (Umf), and a variety of segregation structures are generated. The aim of this study is to investigate how the two different types of structure (i.e. flow structure owing to the tapered shape of the bed and the segregation structures) interact and affect each other. Experiments were performed in a tapered (? = 15°) planar bed using bidisperse mixtures of ballotini. The growth and extent of flow and segregation structures were measured, as well as the fabrics observed under different conditions. Under most conditions, the structure of the tapered bed is unaffected by the bed composition and segregation structures that form. An exception is at flow-rates just in excess of Umf when vertical columns of particles form, completely displacing larger-scale flow structures.
The time scale for particle turnover in the central fluidized region is much shorter than that of particles captured within the peripheral regions. However, at sufficiently high gas flow-rates, uniform mixing can take place across the entire width of the bed.
Fluidization, Segregation, Tapered bed, Bubbling, Binary particles
88-101
Gernon, T.M.
658041a0-fdd1-4516-85f4-98895a39235e
Gilbertson, M.A.
1dc84017-ef68-4ffd-b7c6-a0e286e51de9
November 2012
Gernon, T.M.
658041a0-fdd1-4516-85f4-98895a39235e
Gilbertson, M.A.
1dc84017-ef68-4ffd-b7c6-a0e286e51de9
Abstract
Tapered fluidized beds are widely used in industrial operations to fluidize a wide range of particle sizes, and are thought to induce relatively strong particle mixing. Like their straight-sided counterparts, tapered fluidized beds are often considered as a homogeneous emulsion phase through which bubbles propagate. However, it has been shown that gas flow through the dense-phase of tapered beds is heterogeneous, generating a central fluidized core and unfluidized peripheral regions. When polydisperse particle mixtures are fluidized in a tapered bed, the structure becomes much more complex once the particles reach the minimum fluidization velocity (Umf), and a variety of segregation structures are generated. The aim of this study is to investigate how the two different types of structure (i.e. flow structure owing to the tapered shape of the bed and the segregation structures) interact and affect each other. Experiments were performed in a tapered (? = 15°) planar bed using bidisperse mixtures of ballotini. The growth and extent of flow and segregation structures were measured, as well as the fabrics observed under different conditions. Under most conditions, the structure of the tapered bed is unaffected by the bed composition and segregation structures that form. An exception is at flow-rates just in excess of Umf when vertical columns of particles form, completely displacing larger-scale flow structures.
The time scale for particle turnover in the central fluidized region is much shorter than that of particles captured within the peripheral regions. However, at sufficiently high gas flow-rates, uniform mixing can take place across the entire width of the bed.
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Published date: November 2012
Keywords:
Fluidization, Segregation, Tapered bed, Bubbling, Binary particles
Organisations:
Geology & Geophysics
Identifiers
Local EPrints ID: 345131
URI: http://eprints.soton.ac.uk/id/eprint/345131
ISSN: 0032-5910
PURE UUID: c0821151-268b-473c-8410-3000934cc9a1
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Date deposited: 08 Nov 2012 15:24
Last modified: 15 Mar 2024 03:36
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Author:
M.A. Gilbertson
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