Analysis of hydrodynamic and thermal dispersion in porous media by means of a local approach |
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Authors: | Mebrouk Ait Saada Salah Chikh Antonio Campo |
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Institution: | (1) Département de Génie Mécanique, USTHB, B. P. 32, El Alia, Bab Ezzouar, 16111, Algeria;(2) Department of Mechanical Engineering, The University of Vermont, Burlington, VT 05405, USA |
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Abstract: | A pore scale analysis is implemented in this numerical study to investigate the behavior of microscopic inertia and thermal dispersion in a porous medium with a periodic structure. The macroscopic characteristics of the transport phenomena are evaluated with an averaging technique of the controlling variables at a pore scale level in an elementary cell of the porous structure. The Darcy–Forchheimer model describes the fluid motion through the porous medium while the continuity and Navier–Stokes equations are applied within the unit cell. An average energy equation is employed for the thermal part of the porous medium. The macroscopic pressure loss is computed in order to evaluate the dominant microscopic inertial effects. Local fluctuations of velocity and temperature at the pore scale are instrumental in the quantification of the thermal dispersion through the total effective thermal diffusivity. The numerical results demonstrate that microscopic inertia contributes significantly to the magnitude of the macroscopic pressure loss, in some instances with as much as 70%. Depending on the nature of the porous medium, the thermal dispersion may have a marked bearing on the heat transfer, particularly in the streamwise direction for a highly conducting fluid and certain values of the Peclet number. |
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Keywords: | Porous media Microscopic inertia effect Pore scale Darcy– Forchheimer model Thermal dispersion |
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