In this study, an analysis has performed for heat and mass transfer of a MHD fluid of second grade subject to suction and to a transverse uniform magnetic field past a thermal forming stretching sheet with Ohmic dissipation through a Porous Space. Parameters Gr, Gc, M, DL and Sc which are used to represent the dominance of the buoyant effect, magnetic effect, porosity effect and mass transfer effect are present in governing equations, respectively. The similar transformation and the finite-difference method are used to analyze the present problem. The magnetic parameter and porosity parameter may reduce the heat transfer effect. On the other hand, for mass transfer, the value of Sc parameter is important factor in this study. It will produce greater heat transfer effect with a larger value of Sc
Copyright © 2013 Praise Worthy Prize - All rights reserved.

L. Maurice. Principales applications industrielles, Technique du vide, Techniques de l’ingénieur. Vol. B4120.

J. Leclerc. Enceintes sous vide, Technique du vide, Techniques de l’ingénieur. Vol. B4050.

Alcatel. Technique du vide. Catalogue composants (1984).

M. Benyakhlef. Production de la suie fullérènique dans les flammes. Master thesis. Université de Guelma (2003).

E.R. Olivas, Los Alamos, Finite element analysis of metallic thin windows: an iterative process, T14 Vacuum Technology, pp. 55 –553 (2007).

T. A. Tran, Prediction ob behavior of deep peaty soil deposit during vacuum-embankment preloading, PhD Thesis, Division of Structural and Geotehcnical Engineering. Vietnam (2008).

S. Timoshenko. Strength of materials, D. Van Nostrand Company, INC. (1941).
http://dx.doi.org/10.1002/sce.3730320379

L. Rokey, H. R. Evans, D. W. Griffiths, and D. Nethercot. Introduction à la méthode des éléments finis. Edition Eyrolles (1979).

J. L. Batoz, and G. Dhatt. Modélisation des structures par éléments finis. Edition Hermès (1992).
http://dx.doi.org/10.1002/nme.1620372312

O. C. Zienkiewicz. Finite element method. 3rd edition, Mac Graw Hill (1977).