FLOW INSTABILITIES AND HEAT TRANSFER IN BUOYANCY DRIVEN FLOWS OF INELASTIC NON-NEWTONIAN FLUIDS IN INCLINED RECTANGULAR CAVITIES

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Author list: Siginer D, Khezzar L

Publisher: AMER SOC MECHANICAL ENGINEERS

Place: NEW YORK

Publication year: 2010

Start page: 1411

End page: 1420

Number of pages: 10

ISBN: 978-0-7918-4948-4

Languages: English-Great Britain (EN-GB)

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Abstract

Steady two-dimensional natural convection in rectangular two dimensional cavities filled with non-Newtonian power law-Boussinesq fluids is numerically investigated. The conservation equations of mass, momentum and energy are solved using the finite volume method for varying inclination angles between 0 degrees and 90 degrees and two cavity height based Rayleigh numbers, Ra=10(4) and 10(5), a Prandtl number of Pr = 10(2) and two cavity aspect ratios of 1, 4. For the vertical inclination of 90, computations were performed for two Rayleigh numbers Ra=10(4) and 10(5)and three Prandtl numbers of Pr = 10(2), 10(3) and 10(4). In all of the numerical experiments, the channel is heated from below and cooled from the top with insulated side-walls and the inclination angle is varied. A comprehensive comparison between the Newtonian and the non-Newtonian cases is presented based on the dependence of the average Nusselt number Nu on the angle of inclination together with the Rayleigh number, Prandtl number, power law index n and aspect ratio dependent flow configurations which undergo several exchange of stability as the angle of inclination empty set is gradually increased from the horizontal resulting in a rather sudden drop in the heat transfer rate triggered by the last loss of stability and transition to a single cell configuration. Despite significant differences in the heat transfer rate and flow configurations both Newtonian and non-Newtonian fluids of the power law type exhibit qualitatively similar behavior.

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