Flow and Heat Transfer over a Shrinking Sheet: A Stability Analysis
Authors: Anuar Ishak
Abstract:
The characteristics of fluid flow and heat transfer over a permeable shrinking sheet is studied. The governing partial differential equations are transformed into a set of ordinary differential equations, which are then solved numerically using MATLAB routine boundary value problem solver bvp4c. Numerical results show that dual solutions are possible for a certain range of the suction parameter. A stability analysis is performed to determine which solution is linearly stable and physically realizable.
Keywords: Dual solutions, heat transfer, shrinking sheet, stability analysis.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1092443
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[1] L.J. Crane, "Flow past a stretching plate,” Z. angew. Math. Phys., vol. 21, pp. 645-647, 1970.
[2] P.S. Gupta and A.S. Gupta, "Heat and mass transfer on a stretching sheet with suction or blowing,” Can. J. Chem. Eng., vol. 55, pp. 744-746, 1977.
[3] L.J. Grubka and K.M. Bobba, "Heat transfer characteristics of a continuous, stretching surface with variable temperature,” ASME J. Heat Transfer, vol. 107, pp. 248–250, 1985.
[4] C.-K. Chen and M.-I. Char, "Heat transfer of a continuous, stretching surface with suction or blowing,” J. Math. Anal. Appl., vol. 135, pp. 568-580, 1988
[5] C.H. Chen, "Laminar mixed convection adjacent to vertical, continuously stretching sheets,” Heat Mass Transfer, vol. 33, pp. 471–476, 1998.
[6] A. Ishak, R. Nazar and I. Pop, "Unsteady mixed convection boundary layer flow due to a stretching vertical surface,” Arabian J. Sci. Eng., vol. 31, pp. 165-182, 2006.
[7] A. Ishak, R. Nazar and I. Pop, "Boundary layer flow and heat transfer over an unsteady stretching vertical surface,” Meccanica, vol. 44, pp. 369–375, 2009.
[8] A. Ishak, K. Jafar, R. Nazar and I. Pop, "MHD stagnation point flow towards a stretching sheet,” Physica A, vol. 388, pp. 3377–3383, 2009.
[9] M. Miklavčič and C.Y. Wang, "Viscous flow due to a shrinking sheet,” Quart. Appl. Math. vol. 64, pp. 283-290, 2006.
[10] T. Fang and J. Zhang, "Closed-form exact solutions of MHD viscous flow over a shrinking sheet,” Commun. Nonlinear Sci. Numer. Simulat., vol. 14, pp. 2853–2857, 2009.
[11] F.M. White, Viscous Fluid Flow. Boston: McGraw Hill, 2006.
[12] P.D. Weidman, D.G. Kubitschek and A.M.J. Davis, "The effect of transpiration on self-similar boundary layer flow over moving surfaces,” Int. J. Eng. Sci., vol. 44, pp. 730-737, 2006.
[13] A. Postelnicu and I. Pop, "Falkner–Skan boundary layer flow of a power-law fluid past a stretching wedge,” Appl. Math. Comput. vol. 217, pp. 4359-4368, 2011.
[14] A.V. Roşca and I. Pop, "Flow and heat transfer over a vertical permeable stretching/ shrinking sheet with a second order slip,” Int. J. Heat Mass Transfer, vol. 60, 355-364, 2013.
[15] S.D. Harris, D.B. Ingham and I. Pop, "Mixed convection boundary-layer flow near the stagnation point on a vertical surface in a porous medium: Brinkman model with slip,” Transport Porous Media, vol. 77, pp. 267-285, 2009.
[16] M. Abramowitz and I.A. Stegun, Handbook of Mathematical Functions. New York: Dover, 1965.