Generation of fluid motion in a circular cylinder by an unsteady applied magnetic field

Alfred Sneyd

doi:10.1017/S0022112071002386

Abstract

Three problems are considered. In the first, a uniform magnetic field is suddenly switched on outside an infinitely long circular cylinder of incompressible con- ducting fluid. As the field diffuses into the fluid, electric currents are generated and hence a Lorentz force field. Under the assumptions of small magnetic Reynolds number and small magnetic Prandtl number, the initial flow (before it has been modified by convection or viscous diffusion of vorticity) is oalculated. In the second problem an initially uniform field is suddenly switched off outside a similar cylinder of fluid. It is shown that the switching off of the field produces a vorticity distribution identical with that produced by the switching on. The third problem considered is that of a circular cylinder of conducting fluid placed in a rapidly alternating magnetic field. It is shown that the alternating field produces vorticity at a constant rate, and a qualitative description of the resulting flow is given.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Sneyd, Alfred 1973. Fluid flow generated by switching a magnetic field on or off. Journal of Fluid Mechanics, Vol. 61, Issue. 2, p. 209.

Sozou, C. 1974. Fluid motions induced by a periodic magnetic field in and about a liquid drop. Journal of Fluid Mechanics, Vol. 62, Issue. 4, p. 697.

Khonichev, V. I. and Yakovlev, V. I. 1976. Secondary flows in a rotating circular cylinder of incompressible conducting fluid as the result of the sudden turning-on of a transverse magnetic field. Journal of Applied Mechanics and Technical Physics, Vol. 15, Issue. 5, p. 606.

Yakovlev, V. I. 1977. Generation of vortex flows in an incompressible conducting viscous fluid by an alternating electromagnetic field. Journal of Applied Mechanics and Technical Physics, Vol. 17, Issue. 5, p. 641.

Sneyd, A. D. 1979. Fluid flow induced by a rapidly alternating or rotating magnetic field. Journal of Fluid Mechanics, Vol. 92, Issue. 1, p. 35.

Branover, H. Hunt, J. C. R. Proctor, M. R. E. and Pierson, E. S. 1979. Magnetohydrodynamic flows and turbulence: a report on the Second Bat-Sheva Seminar. Journal of Fluid Mechanics, Vol. 91, Issue. 3, p. 563.

Khonichev, V. I. and Yakovlev, V. I. 1980. Motion of a plane plate of finite width in a viscous conductive liquid, produced by electromagnetic forces. Journal of Applied Mechanics and Technical Physics, Vol. 21, Issue. 1, p. 77.

Branover, H. Mestel, A. J. Moore, D. J. and Shercliff, J. A. 1981. Magnetohydrodynamic flows and turbulence: a report on the Third Beer-Sheva Seminar. Journal of Fluid Mechanics, Vol. 112, Issue. -1, p. 487.

1983. Liquid-Metal Flows and Magnetohydrodynamics. p. 374.

Taberlet, E. and Fautrelle, Y. 1985. Turbulent stirring in an experimental induction furnace. Journal of Fluid Mechanics, Vol. 159, Issue. -1, p. 409.

1985. Single- and Multi-Phase Flows in an Electromagnetic Field: Energy, Metallurgical, and Solar Applications. p. 680.

Saluja, N. Ilegbusi, O. J. and Szekely, J. 1990. On the calculation of the electromagnetic force field in the circular stirring of metallic melts. Journal of Applied Physics, Vol. 68, Issue. 11, p. 5845.

Saluja, Navtej S. Ilegbusi, Olusegun Johnson and Szekely, Julian 1990. Fluid flow phenomena in the electromagnetic stirring of continuous casting systems, part 1: the behaviour of a cylindrically shaped laboratory scale installation. Steel Research, Vol. 61, Issue. 10, p. 455.

BERELOWITZ, M. and BAR‐YOSEPH, P. 1992. FINITE ELEMENT ANALYSIS OF STIRRING INDUCED BY AN ALTERNATING MAGNETIC FIELD. International Journal of Numerical Methods for Heat & Fluid Flow, Vol. 2, Issue. 2, p. 155.

Galpin, J. M. and Fautrelle, Y. 1992. Liquid-metal flows induced by low-frequency alternating magnetic fields. Journal of Fluid Mechanics, Vol. 239, Issue. -1, p. 383.

Galpin, J. M. Fautrelle, Y. and Sneyd, A. D. 1992. Parametric resonance in low-frequency magnetic stirring. Journal of Fluid Mechanics, Vol. 239, Issue. -1, p. 409.

1993. Metallurgical Technologies, Energy Conversion, and Magnetohydrodynamic Flows. p. 580.

Bayazitoglu, Y. and Cerny, R. 1993. Electromagnetic vaporization of molten-metal drops. International Journal of Heat and Mass Transfer, Vol. 36, Issue. 2, p. 277.

Stickel, Victor G. and Bayazitoglu, Yildiz 1995. The sublimation of an electrically conducting droplet through the use of an external alternating magnetic field. Metallurgical and Materials Transactions B, Vol. 26, Issue. 1, p. 1209.

Barz, R.U. Gerbeth, G. Wunderwald, U. Buhrig, E. and Gelfgat, Yu.M. 1997. Modelling of the isothermal melt flow due to rotating magnetic fields in crystal growth. Journal of Crystal Growth, Vol. 180, Issue. 3-4, p. 410.

Download full list

Article contents

Generation of fluid motion in a circular cylinder by an unsteady applied magnetic field

Abstract

Access options

References

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Generation of fluid motion in a circular cylinder by an unsteady applied magnetic field

Abstract

Access options

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests