Transient analysis of the interactions between a heat transferring, radial stagnation flow, and a rotating cylinder- magnetohydrodynamic and nonuniform transpiration effects
Transient analysis of the interactions between a heat transferring, radial stagnation flow, and a rotating cylinder- magnetohydrodynamic and nonuniform transpiration effects
This paper aims at providing further understanding on the fluid flow and heat transfer processes in unsteady rotating systems with mass transpiration. Such systems can be found in chemical separators, hydraulic systems, and printing devices. To this end, an unsteady viscous flow in the vicinity of an unaxisymmetric stagnation-point on a rotating cylinder is examined. The nonuniform transpiration and a transverse magnetic field are further considered. The angular speed of the cylinder and the thermal boundary conditions are expressed by time-dependent functions. A reduction of the Navier–Stokes and energy equations is obtained through using appropriate similarity transformations. The semisimilar solution of the Navier–Stokes equations and energy equation are developed numerically using an implicit finite difference scheme. Pertinent parameters including the Reynolds number and magnetic parameter and transpiration function are subsequently varied systematically. It is shown that the transpiration function can significantly affect the thermal and hydrodynamic behaviors of the system. In keeping with the findings in other areas of magnetohydrodynamics (MHD), the results show that the applied magnetic field has modest effects on the Nusselt number. However, it is demonstrated that the magnetic effects can significantly increase the imposed shear stress on the surface of the rotating cylinder.
Alizadeh, R.
8452d2d2-68c1-4a95-840f-8e19855799af
Rahimi, A.B.
e839cbc1-5b2f-4e38-9e02-159613220c41
Karimi, N.
620646d6-27c9-4e1e-948f-f23e4a1e773a
Alizadeh, A.
96aceb01-8073-467e-a044-fa5c7714d2ed
14 June 2018
Alizadeh, R.
8452d2d2-68c1-4a95-840f-8e19855799af
Rahimi, A.B.
e839cbc1-5b2f-4e38-9e02-159613220c41
Karimi, N.
620646d6-27c9-4e1e-948f-f23e4a1e773a
Alizadeh, A.
96aceb01-8073-467e-a044-fa5c7714d2ed
Alizadeh, R., Rahimi, A.B., Karimi, N. and Alizadeh, A.
(2018)
Transient analysis of the interactions between a heat transferring, radial stagnation flow, and a rotating cylinder- magnetohydrodynamic and nonuniform transpiration effects.
Journal of Thermal Science and Engineering Applications, 10 (5), [TSEA-17-1215].
(doi:10.1115/1.4040363).
Abstract
This paper aims at providing further understanding on the fluid flow and heat transfer processes in unsteady rotating systems with mass transpiration. Such systems can be found in chemical separators, hydraulic systems, and printing devices. To this end, an unsteady viscous flow in the vicinity of an unaxisymmetric stagnation-point on a rotating cylinder is examined. The nonuniform transpiration and a transverse magnetic field are further considered. The angular speed of the cylinder and the thermal boundary conditions are expressed by time-dependent functions. A reduction of the Navier–Stokes and energy equations is obtained through using appropriate similarity transformations. The semisimilar solution of the Navier–Stokes equations and energy equation are developed numerically using an implicit finite difference scheme. Pertinent parameters including the Reynolds number and magnetic parameter and transpiration function are subsequently varied systematically. It is shown that the transpiration function can significantly affect the thermal and hydrodynamic behaviors of the system. In keeping with the findings in other areas of magnetohydrodynamics (MHD), the results show that the applied magnetic field has modest effects on the Nusselt number. However, it is demonstrated that the magnetic effects can significantly increase the imposed shear stress on the surface of the rotating cylinder.
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Published date: 14 June 2018
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Local EPrints ID: 509050
URI: http://eprints.soton.ac.uk/id/eprint/509050
PURE UUID: 3a5cc410-e623-4711-945c-3cdbe513ac2a
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Date deposited: 10 Feb 2026 17:51
Last modified: 11 Feb 2026 03:18
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Author:
R. Alizadeh
Author:
A.B. Rahimi
Author:
N. Karimi
Author:
A. Alizadeh
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