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Unsteady Couette-Poiseulle Flow with Temperature Dependent Physical Properties In The Presence Of a Uniform Magnetic Field

Hazem A. Attia, (2005) Unsteady Couette-Poiseulle Flow with Temperature Dependent Physical Properties In The Presence Of a Uniform Magnetic Field. Malaysian Journal of Science, 24 (2). pp. 51-57. ISSN 13943065

Full text not available from this repository.

Official URL: http://ejum.fsktm.um.edu.my

Affiliations

Al-Qasseem University. College of Science. Dept. of Mathematics.

Abstract

The unsteady magnetohydrodynamic MHD Couette-Poiseulle flow and heat transfer of an electrically conducting fluid is studied in the presence of a transverse uniform magnetic field with temperature dependent viscosity and thermal conductivity. The fluid is subjected to a constant pressure gradient and an external uniform magnetic field perpendicular to the plates which are kept at different but constant temperatures. The effect of the magnetic field, the temperature dependent viscosity and thermal conductivity on both the velocity and temperature fields is reported.

Item Type:Journal
Keywords:Fluid dynamics, magnetohydrodynamics, parallel channel flow, magnetic field, Couette flow, Couette-Poiseulle , heat transfer, steady flow, unsteady flow
Subjects:Q Science, Computer Science
ID Code:2335

1. Cramer, K.R. and Pai, S.-I., (1973). Magnetofluid dynamics for engineers and applied physicists, McGraw-Hill

2. Tani, I. (1962). "Steady motion of conducting fluids in channels under transverse magnetic fields with consideration of Hall effect", Journal of Aerospace Sci., Vol. 29, pp. 287-296

3. Attia, H.A. (1999). "Transient MHD flow and heat transfer between two parallel plates with temperature dependent viscosity". Mechanics Research Communications, vol. 26, No. 1, pp. 115-121

4. Soundalgekar, V.M., Vighnesam, N.V. and Takhar, H.S. (1979). "Hall and ion-slip effects in MHD Couette flow with heat transfer", IEEE Transactions on Plasma Sciences, vol. PS-7, No.3, pp. 178-182

5. Soundalgekar, V.M. and Uplekar, A.G. (1986). "Hall effects in MHD Couette flow with heat transfer", IEEE Transactions on Plasma Science, vol. PS-14, No.5, pp. 579-583

6. Attia, H.A. (1998). "Hall current effects on the velocity and temperature fields of an unsteady Hartmann flow", Can. J. Phys., Vol. 76, No.9, pp. 739-746

7. Herwig, H. and Wicken, G., "The effect of variable properties on laminar boundary layer flow", Warme-und Stoffubertragung 20, pp. 47-57, 1986.

8. Klemp, K. and Herwig, H. and Selmann, M. (1990). "Entrance flow in channel with temperature dependent viscosity including viscous dissipation effects", Proceedings of the Third International Congress of Fluid Mechanics. Cairo, Egypt. vol. 3, pp. 125-1266

9. Attia, H.A. and Kotb, N.A. (1996). "MHD flow between two parallel plates with heat transfer", Acta Mechanica, vol. 117, pp. 215-220

10. White, M.F. (1991). Viscous fluid flow, McGraw-Hill

11. Ames, W.F. (1977). Numerical solutions of partial differential equations, Second ED., Academic Press, New York.

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