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Abstrakty
The effect of a transversely applied magnetic field on an MHD fully developed mixed convection between two long vertical parallel plates is studied. Velocity, pressure gradient and bulk-temperature profiles are shown graphically and the effects of different parameters like M (Hartmann number), (buoyancy parameter), (wall temperature difference ratio) on the flow are discussed.
Słowa kluczowe
Rocznik
Tom
Strony
941--948
Opis fizyczny
Bibliogr. 13 poz., wykr.
Twórcy
autor
autor
- Lokmanya Tilak College of Engineering Koparkhairane, Navi Mumbai (400 709), INDIA, atul.dubewar@gmail.com
Bibliografia
- Aung W. (1972): Fully developed laminar convection between vertical plates heated asymmetrically. - International Journal of Heat and Mass Transfer, vol.15, pp.1577-1580.
- Aung W. and Worku G. (1986): Developing flow and flow reversal in mixed convection in a vertical channel with asymmetric wall temperature. - ASME Journal of Heat Transfer, vol.108, pp.229-304.
- Aung W. and Worku G. (1986): Theory of fully developed, combined convection including flow reversal. - ASME Journal of Heat Transfer, vol.108, pp.485-488.
- Barletta A. (2002): Fully developed mixed convection and flow reversal in a vertical rectangular duct uniform wall heat flux. - International Journal of Heat and Mass Transfer, vol.45, pp.641-654.
- Boulama K. and Galanis N. (2004): Analytical solution for fully developed mixed convection between parallel vertical plates with heat and mass transfer. - J. Heat Transfer, vol.126, pp.381-388.
- Cebeci T., Khattab A.A. and LaMont R. (1982): Combined natural and forced convection in vertical ducts. - Heat Transfer 82, Proceedings of 7th International Heat Transfer Conference, Munich, West Germany, vol.2, pp.419-424.
- Gilles D. and Guy L. (2009): Flow reversal of laminar mixed convection in the entry region of symmetrically heated vertical plate channels. - Int. J. Thermal Sciences, vol.30, pp.1-10.
- Grosan T. and Pop I. (2007): Thermal radiation effect on fully developed mixed convection flow in a vertical channel. - Technische Mechanik, vol.27, No.1, pp.37-47.
- Hartmann J. (1937): Hydrodynamic I. theory of the laminar flow of an electrically conducting liquid in a homogeneous magnetic field. - Kgl Danske Videns Kabernes Selskab Math. Fys. Med., vol.15, No.6, Copenhagen.
- Lietzke A.F. (1954): Theoretical and experimental investigation of heat transfer by laminar natural convection between parallel plates. - NACA Report, 1223.
- Ostrach S. (1954): Combined natural and forced-convection laminar flow and heat transfer of fluids with and without heat sources in channels with linearly varying wall temperature. - JACA TN 3141.
- Salah El-Din M.M. (2003): Effect of thermal and mass buoyancy forces on the development of laminar mixed convection between vertical parallel plates with uniform wall heat and mass fluxes. - Int. J. Thermal Sciences, vol. 42, pp.447-453.
- Sparrow E.M., Chrysler G.M. and Azevedo L.F. (1984): Observed flow reversal and measured - predicted Nusselt number for natural convection in a one-sided heated vertical channel. - ASME Journal of Heat Transfer, vol.106, No.2, pp.325-332.
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Bibliografia
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bwmeta1.element.baztech-article-BPZ5-0003-0003