INFLUENCE OF THE THICKNESS OF A SPHERICAL ELECTRICALLY CONDUCTING LIQUID LAYER ON THE HEAT TRANSFER IN IT

Volume 95, №3

INFLUENCE OF THE THICKNESS OF A SPHERICAL ELECTRICALLY CONDUCTING LIQUID LAYER ON THE HEAT TRANSFER IN IT

Results of numerical simulation of the nonstationary heat transfer in a spherical layer of an electrically conducting
liquid and its magnetic hydrodynamics are presented. The infl uence of the thickness of this layer on the structure of
the liquid fl ow, the temperature and magnetic-induction fi elds, and the distribution of Nusselt numbers in the layer
was investigated with regard for the Joule heat dissipation in it

Author: S. V. Solov′ev
Keywords: mathematical simulation, nonstationary heat-transfer, magnetic hydrodymanics, Joule heat dissipation, spherical liquid layer
Page: 680

Link

S. V. Solov′ev. INFLUENCE OF THE THICKNESS OF A SPHERICAL ELECTRICALLY CONDUCTING LIQUID LAYER ON THE HEAT TRANSFER IN IT //Journal of engineering physics and thermophysics. . Volume 95, №3. P. 680.

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