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Compressible gas in porous media: a finite amplitude analysis of natural convection

✍ Scribed by P.H. Stauffer; L.H. Auer; N.D. Rosenberg

Publisher
Elsevier Science
Year
1997
Tongue
English
Weight
424 KB
Volume
40
Category
Article
ISSN
0017-9310

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✦ Synopsis

Abstraet--T~te theory of thermally driven convection of dry air in a porous medium is reviewed. The critical Rayleigh number for air is the same as for liquid, 4n 2, but the thermal gradient used is decreased by the adiabatic gradient of air. Because of the differences in the physical properties of air and water, initiation of convection requires the product of gradient and permeability to be thousands of times greater for air than for water. Finite amplitude analysis of the problem for Ra < 300 shows that: (1) the code predicts the onset of convection in an air filled porous medium; (2) at low thermal gradient, Ravs Nu curves are nearly the same for air and water; (3) the slope of the Ravs Nu curve matches well with experimental data reported by others for water; (4) time to steady state decreases approximately as the square root of Nusselt number.

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