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Porous Substrate Effects on Thermal Flows Through a Rev-Scale Finite Volume Lattice Boltzmann Model

Porous Substrate Effects on Thermal Flows Through a Rev-Scale Finite Volume Lattice Boltzmann Model, Ahad Zarghami, Silvia Di Francesco, and Chiara Biscarini. International Journal of Modern Physics C 2014, 25  (2), 1350086.

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Abstract

In this paper, fluid flows with enhanced heat transfer in porous channels are investigated through a stable finite volume (FV) formulation of the thermal lattice Boltzmann method (LBM). Temperature field is tracked through a double distribution function (DDF) model, while the porous media is modeled using Brinkman-Forchheimer assumptions. The method is tested against flows in channels partially filled with porous media and parametric studies are conducted to evaluate the effects of various parameters, highlighting their influence on the thermo-hydrodynamic behavior.

BibTeX

@article{ ISI:000331279100002,
Author = {Zarghami, Ahad and Di Francesco, Silvia and Biscarini, Chiara},
Title = {Porous Substrate Effects on Thermal Flows Through a Rev-Scale Finite Volume Lattice Boltzmann Model},
Journal = {International Journal of Modern Physics C},
Year = {2014},
Volume = {25},
Number = {2},
Month = {},
Abstract = {In this paper, fluid flows with enhanced heat transfer in porous channels are investigated through a stable finite volume (FV) formulation of the thermal lattice Boltzmann method (LBM). Temperature field is tracked through a double distribution function (DDF) model, while the porous media is modeled using Brinkman-Forchheimer assumptions. The method is tested against flows in channels partially filled with porous media and parametric studies are conducted to evaluate the effects of various parameters, highlighting their influence on the thermo-hydrodynamic behavior.},
DOI = {10.1142/S0129183113500861},
Pages = {1350086},
ISSN = {0129-1831},
EISSN = {1793-6586},
Unique-ID = {ISI:000331279100002},
}

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