Oscillatory free convection about a sphere in a porous medium

In the present study, the problem of oscillatory free convection about a sphere in a porous medium is considered. The surface temperature of the sphere oscillates harmonically about a mean surrounding temperature. The porous medium is assumed to be homogeneous, non-deformable and isotropic. The flow...

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Main Author: Lai, Zhe Phooi
Format: Thesis
Language:English
Published: 2012
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Online Access:https://eprints.ums.edu.my/id/eprint/11550/1/mt0000000626.pdf
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spelling my-ums-ep.115502017-11-07T06:56:42Z Oscillatory free convection about a sphere in a porous medium 2012 Lai, Zhe Phooi QC Physics In the present study, the problem of oscillatory free convection about a sphere in a porous medium is considered. The surface temperature of the sphere oscillates harmonically about a mean surrounding temperature. The porous medium is assumed to be homogeneous, non-deformable and isotropic. The flow is assumed to be incompressible and can be described by Darcy's law. The governing equations were derived from basic mass, momentum and energy equations In spherical coordinates. The method of matched asymptotic expansions used has divided the solution domain into an Inner region and an outer region. In the Inner region, the separation method was used to divide the second-order temperature and stream functions into steady and unsteady terms. The analytical solutions were obtained In the Inner region up to second-order steady term. In this outer region, a numerical computation was carried out by using a finite difference scheme and solved by Gauss-Seidel iterative method. It was found that a steady temperature and steady stream function exist at the outer edge of the inner region where the steady values depend on the dimensionless frequency. In addition, the steady stream function also depends on the Rayleigh number, Ra. The boundary condition near the outer edge of the inner region could not be satisfied, and these steady terms form the necessary Inner boundary conditions for the outer region. The temperature and flow patterns are compared and discussed. In various parameters including frequency of oscillation, a dimensionless parameter € and Ra. It is found that, both the magnitudes of temperature and stream function decreases as frequency Increases or € decreases. When Ra Increases, In the inner region the temperature tends to a steady value faster and the magnitude of stream function decreases. At the outer region, the frequency of oscillation has more significant effect than € and Ra onto the temperature and stream function. The separation method used to obtain the solutions In Inner region Is found to simplify the analytical process. 2012 Thesis https://eprints.ums.edu.my/id/eprint/11550/ https://eprints.ums.edu.my/id/eprint/11550/1/mt0000000626.pdf text en public masters Universiti Malaysia Sabah School of Science and Technology
institution Universiti Malaysia Sabah
collection UMS Institutional Repository
language English
topic QC Physics
spellingShingle QC Physics
Lai, Zhe Phooi
Oscillatory free convection about a sphere in a porous medium
description In the present study, the problem of oscillatory free convection about a sphere in a porous medium is considered. The surface temperature of the sphere oscillates harmonically about a mean surrounding temperature. The porous medium is assumed to be homogeneous, non-deformable and isotropic. The flow is assumed to be incompressible and can be described by Darcy's law. The governing equations were derived from basic mass, momentum and energy equations In spherical coordinates. The method of matched asymptotic expansions used has divided the solution domain into an Inner region and an outer region. In the Inner region, the separation method was used to divide the second-order temperature and stream functions into steady and unsteady terms. The analytical solutions were obtained In the Inner region up to second-order steady term. In this outer region, a numerical computation was carried out by using a finite difference scheme and solved by Gauss-Seidel iterative method. It was found that a steady temperature and steady stream function exist at the outer edge of the inner region where the steady values depend on the dimensionless frequency. In addition, the steady stream function also depends on the Rayleigh number, Ra. The boundary condition near the outer edge of the inner region could not be satisfied, and these steady terms form the necessary Inner boundary conditions for the outer region. The temperature and flow patterns are compared and discussed. In various parameters including frequency of oscillation, a dimensionless parameter € and Ra. It is found that, both the magnitudes of temperature and stream function decreases as frequency Increases or € decreases. When Ra Increases, In the inner region the temperature tends to a steady value faster and the magnitude of stream function decreases. At the outer region, the frequency of oscillation has more significant effect than € and Ra onto the temperature and stream function. The separation method used to obtain the solutions In Inner region Is found to simplify the analytical process.
format Thesis
qualification_level Master's degree
author Lai, Zhe Phooi
author_facet Lai, Zhe Phooi
author_sort Lai, Zhe Phooi
title Oscillatory free convection about a sphere in a porous medium
title_short Oscillatory free convection about a sphere in a porous medium
title_full Oscillatory free convection about a sphere in a porous medium
title_fullStr Oscillatory free convection about a sphere in a porous medium
title_full_unstemmed Oscillatory free convection about a sphere in a porous medium
title_sort oscillatory free convection about a sphere in a porous medium
granting_institution Universiti Malaysia Sabah
granting_department School of Science and Technology
publishDate 2012
url https://eprints.ums.edu.my/id/eprint/11550/1/mt0000000626.pdf
_version_ 1747836420629725184