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MHD viscous flow and heat transfer induced by a permeable shrinking sheet with prescribed surface heat flux
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In this article, the problem of magnetohydrodynamic (MHD) boundary layer flow and heat transfer due to a permeable shrinking sheet with prescribed surface heat flux is studied, where the viscous fluid is electrically conducting in the presence of a uniform applied magnetic field and the induced magnetic field is neglected.Abstract:
The problem of magnetohydrodynamic (MHD) boundary layer flow and heat transfer due to a permeable shrinking sheet with prescribed surface heat flux is studied. The viscous fluid is electrically conducting in the presence of a uniform applied magnetic field and the induced magnetic field is neglected. The transformed nonlinear ordinary differential equations are solved numerically via the implicit finite-difference scheme known as the Keller-box method. Both two-dimensional and axisymmetric cases are considered. The results for the skin friction coefficient and the wall temperature, as well as the velocity and temperature profiles are presented and discussed for various parameters. Dual solutions exist for certain range of the suction parameter and Hartmann number. It is found that the boundary layer separation is delayed with Hartmann number.read more
Citations
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MHD flow and heat transfer over a porous shrinking surface with velocity slip and temperature jump
TL;DR: A new technique is proposed to avoid the so called “secular” terms and to improve the computation efficiency of the HAM to arrive at the convergence results by a third order iterative, which is better than that of a twenty-fifth order iteratives in the literature obtained by classical HAM.
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On a certain boundary value problem arising in shrinking sheet flows
TL;DR: Results elucidate reliability and efficiency of the technique from which interesting features between the skin friction coefficient f ″(0) and the entrainment velocity f (∞) as function of the mass transfer parameter s can also be obtained.
Journal ArticleDOI
Successive Linearization Analysis of the Effects of Partial Slip, Thermal Diffusion, and Diffusion-Thermo on Steady MHD Convective Flow due to a Rotating Disk
TL;DR: In this article, a general formulation of the successive linearization method for solving highly nonlinear boundary value problem arising in rotating disk flow was proposed under the effects of partial slip, thermal diffusion, and diffusion-thermo.
MHD Boundary Layer Stagnation Point Flow and Heat Transfer of a Micropolar Fluid Towards a Heated Shrinking Sheet With Radiation and Heat Generation
TL;DR: In this article, a comprehensive study of MHD two-dimensional boundary layer stagnation point flow with radiation and heat generation characteristics towards a heated shrinking sheet immersed in an electrically conducting incompressible micropolar fluid in the presence of a transverse magnetic field is analyzed numerically.
The effects of suction and injection on a moving flat plate in a parallel stream with prescribed surface heat flux
Norfifah Bachok,Anuar Mohd Ishak +1 more
TL;DR: In this paper, the effect of surface mass flux on a moving flat plate in a moving fluid with prescribed surface heat flux is studied and the features of the flow and heat transfer characteristics for different values of the governing parameters are analyzed and discussed.
References
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Journal ArticleDOI
Flow past a stretching plate
TL;DR: In this paper, a plastischem material fliesst aus einem Spalt with einer Geschwindigkeit, die proportional zum Abstand vom Spalt ist.
Journal ArticleDOI
Boundary‐layer behavior on continuous solid surfaces: III. The boundary layer on a continuous cylindrical surface
TL;DR: In this article, the behavior of laminar and turbulent boundary layers on a moving continuous cylindrical surface is investigated by the integral method, based on assumed velocity profiles that satisfy the appropriate boundary conditions.
Book
Physical and Computational Aspects of Convective Heat Transfer
Tuncer Cebeci,Peter Bradshaw +1 more
TL;DR: In this paper, the authors present an analysis of the relationship between mass, momentum, energy, and energy for coupling and uncoupled flows in two-dimensional Laminar and Turbulent boundary layers.