Hydrodynamic Flow between Two Non-Coincident Rotating Disks Embedded in Porous Media

Jana, Rabindranath and Maji, Mrinal and Das, Sanatan and Maji, Sovan Lal and Ghosh, Swapan Kumar (2011) Hydrodynamic Flow between Two Non-Coincident Rotating Disks Embedded in Porous Media. World Journal of Mechanics, 01 (02). pp. 50-56. ISSN 2160-049X

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Abstract

Hydrodynamic viscous incompressible fluid flow through a porous medium between two disks rotating with same angular velocity about two non-coincident axes has been studied. An exact solution of the govern-ing equations has been obtained in a closed form. It is found that the primary velocity decreases and the sec-ondary velocity increases with increase in porosity parameter to the left of the z-axis and the result is re-versed to the right of the z-axis. It is also found that the torque on the disks increases with increase in either rotation parameter or porosity parameter. For large rotation, there exist a thin boundary layer near the disks and the thickness of this boundary layer decreases with increase in porosity parameter.

Item Type: Article
Subjects: Archive Science > Engineering
Depositing User: Managing Editor
Date Deposited: 09 Feb 2023 08:49
Last Modified: 25 May 2024 09:33
URI: http://editor.pacificarchive.com/id/eprint/164

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