Use of a Static Magnetic Field in Measuring the Thermal Conductivity of a Levitated Molten Droplet
Use of a Static Magnetic Field in Measuring the Thermal Conductivity of a Levitated Molten Droplet
Numerical models are used to analyze the complex behaviour of magnetically levitated droplets in the context of determining their thermophysical properties. We focus on a novel method reported in Tsukada et al. [4] which uses periodic laser heating to determine the thermal conductivity of an electromagnetically levitated droplet in the presence of a static DC field to suppress convection. The results obtained from the spectral-collocation based free surface code SPHINX and the commercial package COMSOL independently confirm and extend previous findings in [4]. By including the effects of turbulence and movement of the free surface SPHINX can predict the behaviour of the droplet in dynamic regimes with and without the DC magnetic field. COMSOL is used to investigate arbitrary amplitude axial translational oscillations when the spherical droplet is displaced off its equilibrium. The results demonstrate that relatively small amplitude oscillations could cause significant variation in Joule heating and redistribution of the temperature. The effect of translational oscillations on the lumped circuit inductance is analysed. When a fixed voltage drive is applied across the terminals of the levitation coil, this effect will cause the coil current to change and a correction is needed to the electromagnetic force acting on the droplet.
Roy, Alan A.
023648ec-2915-4a04-abdf-38e200a5308a
Easter, Stuart
1facf450-76b0-4510-a240-721fe14197b0
Bojarevics, Valdis
1fc203a6-526f-478d-b26f-4da4474c06db
Pericleous, Koulis
3271e1e8-f831-400c-824f-7f14f46e51c9
2011
Roy, Alan A.
023648ec-2915-4a04-abdf-38e200a5308a
Easter, Stuart
1facf450-76b0-4510-a240-721fe14197b0
Bojarevics, Valdis
1fc203a6-526f-478d-b26f-4da4474c06db
Pericleous, Koulis
3271e1e8-f831-400c-824f-7f14f46e51c9
Roy, Alan A., Easter, Stuart, Bojarevics, Valdis and Pericleous, Koulis
(2011)
Use of a Static Magnetic Field in Measuring the Thermal Conductivity of a Levitated Molten Droplet.
Journal of Algorithms and Computational Technology Vol 6 (1), 37-49, 2012.
Abstract
Numerical models are used to analyze the complex behaviour of magnetically levitated droplets in the context of determining their thermophysical properties. We focus on a novel method reported in Tsukada et al. [4] which uses periodic laser heating to determine the thermal conductivity of an electromagnetically levitated droplet in the presence of a static DC field to suppress convection. The results obtained from the spectral-collocation based free surface code SPHINX and the commercial package COMSOL independently confirm and extend previous findings in [4]. By including the effects of turbulence and movement of the free surface SPHINX can predict the behaviour of the droplet in dynamic regimes with and without the DC magnetic field. COMSOL is used to investigate arbitrary amplitude axial translational oscillations when the spherical droplet is displaced off its equilibrium. The results demonstrate that relatively small amplitude oscillations could cause significant variation in Joule heating and redistribution of the temperature. The effect of translational oscillations on the lumped circuit inductance is analysed. When a fixed voltage drive is applied across the terminals of the levitation coil, this effect will cause the coil current to change and a correction is needed to the electromagnetic force acting on the droplet.
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Published date: 2011
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EEE
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Local EPrints ID: 272532
URI: http://eprints.soton.ac.uk/id/eprint/272532
PURE UUID: caecd4cf-d266-46b0-8d46-edf53826c33b
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Date deposited: 28 Jun 2011 16:35
Last modified: 14 Mar 2024 10:04
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Author:
Alan A. Roy
Author:
Stuart Easter
Author:
Valdis Bojarevics
Author:
Koulis Pericleous
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