Gas-fluidisation in an experimental tapered bed: insights into processes in diverging volcanic conduits
Gas-fluidisation in an experimental tapered bed: insights into processes in diverging volcanic conduits
Gas-fluidisation is commonly invoked as an important process during the formation of vent-fill deposits in diverging kimberlite pipes. In this study, we performed a series of laboratory experiments to determine the gas-fluidisation behaviour of particles in both confined straight-sided and tapered containers, as an analogue to volcaniclastic materials infilling a kimberlite pipe, in the presence of a gas flow. We investigated the effects of taper angle, bed height and gas flow rate on fluidisation behaviour, focusing on medium-coarse grained particles (106–212 ?m). We show that beds in straight-sided containers become homogeneously fluidised, whereas beds in tapered containers become heterogeneous, with fluidisation limited to a central roughly hyperboloid-shaped region. Either side of the well-mixed fluidised core, marginal wedge-shaped regions remain unfluidised, and the width of unfluidised regions decreases with increasing gas flux. The unfluidised wedges are internally laminated and slip downwards when a critical proportion of the bed is fluidised (?90%). This generates a “conveyor-belt”-type mechanism of particle transport. These experimental observations demonstrate how fluctuations in gas velocity can produce steep internal boundaries between laminated and well-mixed regions. The observations also show how marginal inward dipping layered sequences could slip into deep parts of kimberlite pipes. Our results provide a framework for interpreting the volcaniclastic lithofacies of kimberlite pipes.
kimberlite emplacement, gas-fluidisation experiments, tapered bed, diatreme
49-56
Gernon, Thomas M.
658041a0-fdd1-4516-85f4-98895a39235e
Gilbertson, Mark A.
43b4ec60-2743-4cd9-abe4-35e3393fd7c7
Sparks, R. Stephen J.
4061b9a3-c979-4515-a8cf-89c848648401
Field, Matthew
01b27964-e376-4d2f-8169-ca0ffcdb8697
20 June 2008
Gernon, Thomas M.
658041a0-fdd1-4516-85f4-98895a39235e
Gilbertson, Mark A.
43b4ec60-2743-4cd9-abe4-35e3393fd7c7
Sparks, R. Stephen J.
4061b9a3-c979-4515-a8cf-89c848648401
Field, Matthew
01b27964-e376-4d2f-8169-ca0ffcdb8697
Gernon, Thomas M., Gilbertson, Mark A., Sparks, R. Stephen J. and Field, Matthew
(2008)
Gas-fluidisation in an experimental tapered bed: insights into processes in diverging volcanic conduits.
[in special issue: Kimberlite Emplacement]
Journal of Volcanology and Geothermal Research, 174 (1-3), .
(doi:10.1016/j.jvolgeores.2007.12.034).
Abstract
Gas-fluidisation is commonly invoked as an important process during the formation of vent-fill deposits in diverging kimberlite pipes. In this study, we performed a series of laboratory experiments to determine the gas-fluidisation behaviour of particles in both confined straight-sided and tapered containers, as an analogue to volcaniclastic materials infilling a kimberlite pipe, in the presence of a gas flow. We investigated the effects of taper angle, bed height and gas flow rate on fluidisation behaviour, focusing on medium-coarse grained particles (106–212 ?m). We show that beds in straight-sided containers become homogeneously fluidised, whereas beds in tapered containers become heterogeneous, with fluidisation limited to a central roughly hyperboloid-shaped region. Either side of the well-mixed fluidised core, marginal wedge-shaped regions remain unfluidised, and the width of unfluidised regions decreases with increasing gas flux. The unfluidised wedges are internally laminated and slip downwards when a critical proportion of the bed is fluidised (?90%). This generates a “conveyor-belt”-type mechanism of particle transport. These experimental observations demonstrate how fluctuations in gas velocity can produce steep internal boundaries between laminated and well-mixed regions. The observations also show how marginal inward dipping layered sequences could slip into deep parts of kimberlite pipes. Our results provide a framework for interpreting the volcaniclastic lithofacies of kimberlite pipes.
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e-pub ahead of print date: 16 January 2008
Published date: 20 June 2008
Keywords:
kimberlite emplacement, gas-fluidisation experiments, tapered bed, diatreme
Organisations:
Ocean and Earth Science
Identifiers
Local EPrints ID: 152909
URI: http://eprints.soton.ac.uk/id/eprint/152909
ISSN: 0377-0273
PURE UUID: 27973248-e724-43ef-a9dd-4c537511b987
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Date deposited: 17 May 2010 15:06
Last modified: 14 Mar 2024 02:56
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Author:
Mark A. Gilbertson
Author:
R. Stephen J. Sparks
Author:
Matthew Field
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