Hostname: page-component-cd9895bd7-gxg78 Total loading time: 0 Render date: 2024-12-19T11:46:10.007Z Has data issue: false hasContentIssue false

Magnetohydrodynamic Flows and Turbulence: a report on the Fourth Beer-Sheva Seminar

Published online by Cambridge University Press:  20 April 2006

H. Branover
Affiliation:
Department of Mechanical Engineering, Ben-Gurion University of the Negev, Beer Sheva, Israel
M. Mond
Affiliation:
Purdue University Calumet, Hammond, Indiana, U.S.A.
E. S. Pierson
Affiliation:
University of Illinois, Urbana, Illinois, U.S.A.

Abstract

This paper is a summary of the Fourth Beer-Sheva Seminar on Magnetohydrodynamic (MHD) Flows and Turbulence held in Israel during 27 February–2 March 1984 with 67 participants from 13 countries. Reviews and contributed papers were presented on laminar and turbulent single-phase and two-phase MHD flows, turbulent and two-phase flows without magnetic fields, and applications of MHD in power generation, in nuclear fission and fusion and in metallurgy.

Type
Research Article
Copyright
© 1984 Cambridge University Press

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Alemany, A., Joussellin, F., Laborde, J. P., Thibault, F. & Werkoff, F. *Investigation of a lithium—caesium Faraday converter for space applications.
Alexion, C. C., Keeton, A. R., McNab, I. R. & Nathenson, R. D. *Demonstration of a flow coupler.
Amend, W. E., Hsu, C., Petrick, M. & Roberts, J. J. 1970 In Proc. 11th Symp. on Engineering Apects of MHD, California Institute of Technology, Pasadena, p. 154.
Barbier, J. N., Fautrelle, Y. R., Evans, J. W. & Cremer, P. 1982 J. Méc. Theor. Appl. 1 (3).
Bedford, A. & Drumheller, D. S. 1983 Intl J. Engng Sci. 21, 863.
Bertram, A. & Zanner, F. J. 1984 In Metallurgical Applications of MHD: Proceedings of an IUTAM Symposium (ed. M. R. E. Proctor). The Metals Society.
Bertram, L. A. & Zanner, F. J. *Current paths and magnetohydrodynamics in vacuum are remelting.
Block, F. R. & Julius, E. *Electromagnetic force of narrow stirring inductors.
Bracket, M. E. & Sulem, P. L. *Direct numerical simulation of two-dimensional turbulence.
Brancher, J. P. & de Framond, R. *Shaping of liquid-metal cylinders.
Branover, H. (ed.) 1976 MHD-Flows and Turbulence: Proceedings of the Bat-Sheva International Seminar. Wiley.
Branover, H., El-Boher, A., Lessin, S. & Marcus, B. *Tests of ER-4 mercury—steam power generation research facility.
Branover, H. & Gershon, P. 1979 J. Fluid Mech. 94, 629.
Branover, H., Lykoudis, P. & Yakhot, A. (ed.) 1983 Liquid-Metal Flows and Magnetohydro-dynamics: Progress in Astronautics and Aeronautics, vol. 84. AIAA.
Branover, H. & Yakhot, A. (ed.) 1980 MHD-Flows and Turbulence: Proceedings of the Second Bat-Sheva Seminar. Israel Universities Press.
Caperan, P. & Alemany, A. *Transition from three-dimensional to two-dimensional grid turbulence.
Cristea, E. D., Mihai, D. & Lemnean, N. *Modelling of flow patterns—use of computer modelling of natural-gas burning with application to MHD combustion chambers.
Dang, K. & Roy, P. *Numerical simulation of homogeneous turbulence submitted to two successive plane strains and rotation.
El-Boher, A., Branover, H. & Petrick, M. *The Etgar liquid-metal MHD project.
Elliot, D. G. 1962 ARS J. 32, 924.
Fabris, G., Pierson, E. S., Pollack, I., Danzvardis, P. F. & Ellis, W. 1979 In Proc. 18th Symp. on Engng Aspects of MHD, Butte, Montana, p. D2.2.1.
Flinsberg, H. J. & Ulenbusch, J. *Streamer dynamics in MHD generators.
Gagnoud, A. & Delage, D. *Electromagnetic modellization of cold crucibles.
Garnier, J. & Werkoff, F. *MHD effects in liquid-metal fast-breeder reactors.
Geffen, N. *Magnetohydrodynamics—A theme with variations.
Hall, F. S., Ludford, G. S. S. & Walker, J. S. *Hartman layers in solidifying liquids.
Herve, P. & Vives, C. *Applications of magnetohydrodynamic flow between rotating disks.
Hetsroni, G. *Bubbly rise velocity—A review of recent literature.
Hetsroni, G. *Two-phase flow regimes.
Igra, O., Ben-Dor, G. & Rakib, Z. *The effect of dust and water droplets on the relaxation zone developed behind strong normal shock waves.
Kamiyama, S. *Analysis of two-phase MHD flow in converging—diverging ducts.
Khait, YU. L. *Electrogasdynamic and kinetic phenomena in diffuse electric discharges in turbulent gas flows.
Levy, Y. & Timnat, Y. *Two-phase flow measurements using a modified laser-Doppler anemometry system.
Librescu, L. *Unsteady magnetohydrodynamic supersonic flows past oscillating thin bodies and lifting surfaces.
Lykoudis, P. *Cocurrent upward two-phase flow of liquid mercury and nitrogen in the presence of a horizontal magnetic field.
Lykoudis, P. *Magneto-fluid-mechanic bubble growth in the presence of a uniform magnetic field.
McNab, I. R., Alexion, C. C. & Keeton, A. R. *Experiments on a large thin-wall duct.
Merck, W. F. H. *Interaction of wall currents and turbulent boundary layers in closed-cycle MHD experiments.
Messerle, H. K. *Disk generator flow studies.
Mestel, A. J. *On the flow in a channel induction furnace.
Meyer, J. L., Ernst, R. & Durand, F. *Stirring an aluminium ingot mould with a linear motor; electromagnetic, hydrodynamic and thermal effects.
Mond, M. & Sukoriansky, S. *Simple analytical models of two-phase bubbly flows.
Moore, D. J. & Hunt, J. C. R. 1984 In Metallurgical Applications of MHD: Proceedings of an IUTAM Symposium (ed. M. R. E. Proctor). The Metals Society.
Morioka, S. *Instabilities in two-phase liquid metal MHD channel flow.
Moros, T., Hunt, J. C. R. & Lillicrap, D. C. *Study of the electromagnetic features in channel induction furnaces.
Naot, D. *Hydrodynamic response of turbulent flow to the interactions of the eddies at the channel perimeter.
Papailiou, D. D. *Magneto-fluid-mechanic laminar and turbulent vortex streets.
Patankar, S. V. & Spalding, E. B. 1970 Heat and Mass Transfer in Boundary Layers: A General Calculation Procedure. Intertext.
Petrick, M. 1966 IEEE Spectrum 2, 137.
Petrick, M. & Branover, H.* Liquid-metal MHD energy conversion—evolution and status.
Petrykowski, J. C. & Walker, J. S. 1984 J. Fluid Mech. 139, 309.
Picologlou, B., Reed, C., Nygren, R. & Roberts, J. *Magneto-fluid-dynamic issues for fusion first wall and blanket systems.
Pierson, E. S. & Herman, H. 1983 In Branover, Lykoudis & Yakhot (1983).
Pierson, E. S., Jackson, W. D., Berry, G., Petrick, M. & Dennis, C. *High-temperature liquid-metal MHD solar thermal systems.
Ricou, R. & Vives, C. *Shield effects in continuous electromagnetic casting.
Serizawa et al. 1975 Intl J. Multiphase Flow 2, 235.
Sommeria, J. *Two-dimensional behaviour of electrically driven flows at high Hartman numbers.
Sukoriansky, S., Zilberman, I. & Branover, H. *Spectra and r.m.s. studies in turbulent MHD channel flow.
Sulem, P. L., Sulem, C. & Thual, O. *Direct numerical simulation of three-dimensional convection in liquid metals.
Taberlet, E. & Fautrelle, Y. R. *Investigation of the turbulent flow in an induction furnace supplied with various frequencies.
Thibault, J. P., Joussellin, F., Laborde, R. & Alemany, A. *Tin—water Faraday generator.
Ulenbusch, J. 1976 Physica 82C, 61.
Unger, Y., Zuckerman, B., Branover, H. & Kiel, J. H. A. *Two-phase liquid-metal—gas flows with medium and high void fractions.
Walker, J. S. *Laminar duct flows in strong magnetic fields.
Walker, J. S. & Petrykowski, J. C. *Approximation side-layer solutions for a liquid-metal flow in a rectangular duct with a strong non-uniform magnetic field.
Weil, D. *Homotopic structural invariants in HD and MHD turbulence.
Worraker, W. J. *Experiments in thermoelectric MHD.