Abstract
Thermally driven flows in a two-dimensional rectangular cavity filled with a fluid-saturated porous medium are considered when the applied temperature difference is perpendicular to the gravity vector. The flow depends on two non-dimensional parameters, the Darcy-Rayleigh number, A , and the cavity aspect ratio, h (height / width). Steady motion is generated by maintaining the vertical sidewalls at different constant temperatures and the horizontal boundaries are assumed to be thermally insulating. The present study is concerned with the limit of large aspect ratio, h → ∞. and Darcy-Rayleigh numbers A of order h , such that convection is important throughout the cavity. The main properties of the flow and heat transfer are obtained by considering a vertical boundary-layer approximation to the motion in the main body of the cavity. This leads, in particular, to the prediction of a position of minimum heat transfer across the cavity, of interest in the thermal insulation of buildings and other areas of technology.
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More From: Proceedings of the Royal Society of London. Series A: Mathematical and Physical Sciences
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