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128 research outputs found

Thermal Instability and Current-Voltage Scaling in Superconducting Fault Current Limiters

Author: A M Campbell
B Zeimetz
Cronnie M F
Cronnie M F
D E Eves
Haselden G
J E Evetts
K Tadinada
Loram J W
Luikov A V
Malkin P
Press W H
T A Coombs
Watson D R
Zeimetz B
Publication venue: 'IOP Publishing'
Publication date: 08/12/2003
Field of study

We have developed a computer model for the simulation of resistive superconducting fault current limiters in three dimensions. The program calculates the electromagnetic and thermal response of a superconductor to a time-dependent overload voltage, with different possible cooling conditions for the surfaces, and locally variable superconducting and thermal properties. We find that the cryogen boil-off parameters critically influence the stability of a limiter. The recovery time after a fault increases strongly with thickness. Above a critical thickness, the temperature is unstable even for a small applied AC voltage. The maximum voltage and maximum current during a short fault are correlated by a simple exponential law.Comment: submitted to Superconductor Science and Technology (Dec 2003

arXiv.org e-Print Archive

Crossref

Numerical study on hygroscopic material drying in packed bed

Author: Bakker-Arkema F. W.
Becker H. A.
Dalpasquale V. A.
Douglas P. L.
Ginzburg A. S.
Herman E.
Hirschmann C.
Istadi I.
Izadifar M.
Keey R. B.
Kunii D.
Luikov A. V.
Milojević D.
Patankar S. V.
Raković A.
Sitompul J. P.
Sitompul J. P.
Stakić M.
Stakić M.
Thompson T. L.
van Meel D. A.
Wang D. -C.
Wang N.
Wang N.
Publication venue: 'FapUNIFESP (SciELO)'
Publication date: 01/01/2011
Field of study

The paper addresses numerical simulation for the case of convective drying of hygroscopic material in a packed bed, analyzing agreement between the simulated and the corresponding experimental results. In the simulation model of unsteady simultaneous one-dimensional heat and mass transfer between gas phase and dried material, it is assumed that the gas-solid interface is at thermodynamic equilibrium, while the drying rate of the specific product is calculated by applying the concept of a "drying coefficient". Model validation was clone on the basis of the experimental data obtained with potato cubes. The obtained drying kinetics, both experimental and numerical, show that higher gas (drying agent) velocities (flow-rates), as well as lower equivalent grain diameters, induce faster drying. This effect is more pronounced for deeper beds, because of the larger amount of wet material to be dried using the same drying agent capacity

LAReferencia - Red Federada de Repositorios Institucionales de Publicaciones Científicas Latinoamericanas

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Machinery - Repository of the Faculty of Mechanical Engineering, University of Belgrade

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Repository of the Vinča Nuclear Institute (VinaR)

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