MHD natural convection in open inclined square cavity with a heated circular cylinder

MHD natural convection in open inclined square cavity with a heated circular cylinder

MHD natural convection in open cavity becomes very important in many scientific and engineering problems, because of it’s application in the design of electronic devices, solar thermal receivers, uncovered flat plate solar collectors having rows of vertical strips, geothermal reservoirs, etc. Severa...

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Bibliographic Details
Main Authors: Hosain, Sheikh Anwar, Alim, M. A., Saha, Satrajit Kumar
Format: Conference Proceeding
Language:eng
Subjects:
Ambient temperature
Circular cylinders
Computational fluid dynamics
Design engineering
Electronic devices
Flat plates
Fluid flow
Free convection
Hartmann number
Heat
Heat flux
Heat transfer
Inclination
Isotherms
Magnetohydrodynamics
Mathematical models
Prandtl number
Solar collectors
Solar heating
Temperature gradients
Thermal energy
Two dimensional flow
Viscosity
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Summary:MHD natural convection in open cavity becomes very important in many scientific and engineering problems, because of it’s application in the design of electronic devices, solar thermal receivers, uncovered flat plate solar collectors having rows of vertical strips, geothermal reservoirs, etc. Several experiments and numerical investigations have been presented for describing the phenomenon of natural convection in open cavity for two decades. MHD natural convection and fluid flow in a two-dimensional open inclined square cavity with a heated circular cylinder was considered. The opposite wall to the opening side of the cavity was first kept to constant heat flux q, at the same time the surrounding fluid interacting with the aperture was maintained to an ambient temperature T∞. The top and bottom wall was kept to low and high temperature respectively. The fluid with different Prandtl numbers. The properties of the fluid are assumed to be constant. As a result a buoyancy force is created inside the cavity due to temperature difference and natural convection is formed inside the cavity. The Computational Fluid Dynamics (CFD) code are used to discretize the solution domain and represent the numerical result to graphical form.. Triangular meshes are used to obtain the solution of the problem. The streamlines and isotherms are produced, heat transfer parameter Nu are obtained. The results are presented in graphical as well as tabular form. The results show that heat flux decreases for increasing inclination of the cavity and the heat flux is a increasing function of Prandtl number Pr and decreasing function of Hartmann number Ha. It is observed that fluid moves counterclockwise around the cylinder in the cavity. Various recirculations are formed around the cylinder. The almost all isotherm lines are concentrated at the right lower corner of the cavity. The object of this work is to develop a Mathematical model regarding the effect of MHD natural convection flow around a heated circular cylinder at the centre of an inclined open square cavity.
ISSN:0094-243X
1551-7616