Pal, Debashis ; Chakraborty, Suman (2015) Fluid flow induced by periodic temperature oscillation over a flat plate: comparisons with the classical stokes problems Physics of Fluids, 27 (5). Article ID 053601. ISSN 1070-6631
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Official URL: http://scitation.aip.org/content/aip/journal/pof2/...
Related URL: http://dx.doi.org/10.1063/1.4919733
Abstract
We delineate the dynamics of temporally and spatially periodic flow over a flat plate originating out of periodic thermoviscous expansion of the fluid, as a consequence of a thermal wave applied on the plate wall. We identify two appropriate length scales, namely, the wavelength of the temperature wave and the thermal penetration depth, so as to bring out the complex thermo-physical interaction between the fluid and the solid boundaries. Our results reveal that the entire thermal fluctuation and the subsequent thermoviscous actuation remain confined within a “thermo-viscous boundary layer.” Based on the length scales and the analytical solution for the temperature field, we demarcate three different layers, namely, the wall layer (which is further sub-divided into various sub-layers, based on the temperature field), the intermediate layer, and the outer layer. We show that the interactions between the pressure oscillation and temperature-dependent viscosity yield a unidirectional time-averaged (mean) flow within the wall layer opposite to the direction of motion of the thermal wave. We also obtain appropriate scalings for the time-averaged velocity, which we further substantiate by full scale numerical simulations. Our analysis may constitute a new design basis for simultaneous control of the net throughput and mixing over a solid boundary, by the judicious employment of a traveling temperature wave.
Item Type: | Article |
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Source: | Copyright of this article belongs to American Institute of Physics. |
ID Code: | 100329 |
Deposited On: | 10 Nov 2016 11:05 |
Last Modified: | 10 Nov 2016 11:05 |
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