 |
 |
 |
 |
 |
 |
Sains Malaysiana 40(10)(2011):
1179–1186
MHD Stagnation
Point Flow with Suction Towards a Shrinking Sheet
(Aliran Titik
Genangan MHD dengan
Sedutan terhadap Kepingan yang Mengecut)
Lok
Yian Yian*
Mathematics
Division, School of Distance Education, Universiti Sains Malaysia
11800
USM, Pulau Pinang, Malaysia
Anuar
Ishak
School
of Mathematical Sciences, Universiti Kebangsaan Malaysia, 43600 UKM Bangi
Selangor
D.E. Malaysia
Ioan
Pop
Faculty
of Mathematics, University of Cluj, R-3400 Cluj, CP 253 Romania
Received:
7 July 2010/Accepted: 10 November 2010
ABSTRACT
A steady two-dimensional
magnetohydrodynamic (MHD)
stagnation-point flow of a viscous and electrically conducting fluid over a
permeable shrinking sheet has been studied. The governing partial differential
equations are reduced to the nonlinear ordinary differential equations by a
similarity transformation. The resulting differential equations are then solved
numerically using an implicit finite difference method. It is found that the
solutions are non-unique for weak magnetic field, strong suction and large
velocity ratio between free stream velocity and wall shrinking velocity.
Keyword: MHD;
shrinking sheet; stagnation point; suction
ABSTRAK
Aliran titik genangan dua
matra mantap magnetohidrodinamik (MHD)
terhadap kepingan meregang telah dikaji. Persaman pembezaan separa menakluk
diturunkan kepada persamaan pembezaan biasa tak linear dengan menggunakan
penjelmaan keserupaan. Persamaan pembezaan biasa yang terhasil itu kemudiannya
diselesaikan secara berangka menggunakan kaedah beza terhingga tersirat.
Didapati bahawa penyelesaian adalah tidak unik untuk medan magnet yang lemah,
sedutan yang kuat dan nisbah halaju yang besar antara halaju aliran bebas
dengan halaju pengecutan dinding kepingan.
Kata kunci: Lapisan mengecut; MHD;
sedutan; titik genan
REFERENCES
Abraham, J.P.
& Sparrow, E.M. 2005. Friction drag resulting from the simultaneous imposed
motions of a freestream and its bounding surface. International Journal of
Heat and Fluid Flow 26: 289-295.
Bhattacharyya,
S.N. & Gupta, A.S. 1985. On the stability of viscous flow over a stretching
sheet. Quarterly of Applied Mathematics 43: 359-367.
Cebeci, T. 2002. Convection Heat Transfer. California: Horizon Publishing.
Cebeci, T. &
Bradshaw, P. 1988. Physical and Computational Aspects of Convective Heat
Transfer. New York: Springer.
Crane, L.J.
1970. Flow past a stretching plate. Journal of Applied Mathematics and
Physics (ZAMP) 21: 645-647.
Ding, Q. &
Zhang, H.-Q. 2009. Analytic solution for magnetohydrodynamic stagnation point
flow towards a stretching sheet. Chinese Physics Letters 26:
104701-1–104701-4.
Fang, T. &
Zhang, J. 2010. Thermal boundary layers over a shrinking sheet: an analytical
solution. Acta Mechanica 209: 325-343.
Fang, T., Zhang,
J. & Yao, S.-S. 2009. Viscous flow over an unsteady shrinking sheet with
mass transfer. Chinese Physics Letters 26: 014703-1–014703-4.
Fang T. &
Zhang, J. 2009. Closed-form exact solutions of MHD viscous flow over a
shrinking sheet. Communications in Nonlinear Science and Numerical
Simulation 14: 2853-2857.
Harris, S.D.,
Ingham, D.B. & Pop, I. 2009. Mixed convection boundary-layer flow near the
stagnation point on a vertical surface in a porous medium: Brinkman model with
slip. Transport in Porous Media 77: 267-285.
Ishak, A.,
Jafar, K., Nazar, R. & Pop, I. 2009. MHD stagnation point flow towards a
stretching sheet. Physica A 388: 3377-3383.
Ishak, A. Lok,
Y.Y. & Pop, I. 2010. Stagnation-point flow over a shrinking sheet in a micropolar
fluid. Chemical Engineering Communications 197: 1417-1427.
Karwe, M.V.
& Jaluria, Y. 1988. Fluid flow and mixed convection transport from a moving
plate in rolling and extrusion process. ASME Journal of Heat Transfer 110:
655-661.
Karwe, M.V.
& Jaluria, Y. 1991. Numerical simulation of thermal transport associated
with a continuously moving flat sheet in materials processing. ASME Journal
of Heat Transfer 113: 612-619.
Kimiaeifar A.,
Bagheri, G.H., Rahimpour, M. & Mehrabian, M.A. 2009. Analytical solution of
a two-dimensional stagnation flow in the vicinity of a shrinking sheet by means
of the homotopy analysis method. Proceedings of the IMechE, Part E: Journal
of Process Mechanical Engineering 223: 133-143.
Liao, S.-J.
2007. A new branch of solutions of boundary-layer flows over a permeable
stretching plate. International Journal of Non-Linear Mechanics 42:
819-830.
Lok. Y.Y.,
Ishak, A. & Pop, I. 2011. MHD stagnation-point flow toward a shrinking
sheet. International Journal of Numerical Methods for Heat and Fluid Flow 21:
61-72.
Magyari, E. & Keller, B.
2000. Exact solutions for self-similar boundary-layer flows induced by
permeable stretching walls. European Journal of Mechanics B/Fluids 19:
109-122.
Mahapatra, T.R. & Gupta, A.S.
2001. Magnetohyrodynamic stagnation-point flow towards a stretching surface. Acta
Mechanica 152: 191-196.
Mahmoud, M.A.A. 2007. Thermal
radiation effects on MHD flow of a micropolar fluid over a stretching surface
with variable thermal conductivity. Physica A 375: 401-410.
McLeod, J.B. & Rajagopal,
K.R. 1987. On the uniqueness of flow of a Navier-Stokes fluid due to a
stretching boundary. Archive for Rational Mechanics and Analysis 98:
385-393.
Merkin, J.H. 1985. On dual
solutions occurring in mixed convection in a porous medium. Journal of
Engineering Mathematics 20: 171-179.
Miklavčič, M. &
Wang, C.Y. 2006. Viscous flow due to a shrinking sheet. Quarterly of Applied
Mathematics 64: 283-290.
Noor, N.F.M. Awang Kechil, S.
& Hashim, I. 2010. Simple non-pertubative solution for MHD viscous flow due
to a shrinking sheet. Communications in Nonlinear Science and Numerical
Simulation 15: 144-148.
Noor, N.F.M. & Hashim, I.
2009. MHD flow and heat transfer adjacent to a permeable shrinking sheet
embedded in a porous medium. Sains Malaysiana 38(4): 559-565.
Paullet J. & Weidman P. 2007.
Analysis of stagnation point flow towards a stretching sheet. International
Journal of Non-Linear Mechanics 42: 1084-1091.
Sajid, M. & Hayat, T. 2009.
The application of homotopy analysis method for MHD viscous flow due to a
shrinking sheet. Chaos, Solitons and Fractals 39: 1317-1323.
Sajid, M., Hayat, T. & Javed,
T. 2008. MHD rotating flow of a viscous fluid over a shrinking surface. Nonlinear
Dynamics 51: 259-265.
Sparrow, E.M. & Abraham, J.P.
2005. Universal solutions for the streamwise variation of the temperature of a
moving sheet in the presence of a moving fluid. International Journal of
Heat and Mass Transfer 48: 3047-3056.
Takhar, H.S., Chamkha, A.J. &
Nath, G. 2001. Unsteady three-dimensional MHD-boundary-layer flow due to the
impulsive motion of a stretching surface. Acta Mechanica 146: 59-71.
Tan, Y., You, X.-C., Xu, H. &
Liao, S.-J. 2008. A new branch of the temperature distribution of
boundary-layer flows over an impermeable stretching plate. Heat and Mass
Transfer 44: 501-504.
Troy, W., Overman II, E.A.,
Ermentrout, G.B. & Keener, J.P. 1987. Uniqueness of flow of a second-order
fluid past a stretching sheet. Quarterly of Applied Mathematics 44:
753-755.
Wang, C.Y. 1984. The
three-dimensional flow due to a stretching flat surface. Physics of Fluids 27:
1915-1917.
Wang, C.Y. 2008. Stagnation flow
towards a shrinking sheet. International Journal of Non-Linear Mechanics 43:
377-382.
Weidman, P.D., Kubitschek, D.G.
& Davis, A.M.J. 2006. The effect of transpiration on self-similar boundary
layer flow over moving surfaces. International Journal of Engineering
Science 44: 730-737.
*Corresponding
author; email: lyianyian@yahoo.com
|
|||
|
