A numerical method based on domain decomposition to solve coupled conduction-radiation physics using parallel computing within large porous media Article Swipe

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Atin Kumar , Jérôme Vicente , Jean‐Vincent Daurelle , Yann Favennec , Benoît Rousseau ·

YOU? · · 2021 · Open Access · · DOI: https://doi.org/10.1088/1742-6596/2116/1/012057

A domain decomposition approach is developed to solve coupled conductive– radiative heat transfer within highly porous materials. In this work, a Kelvin–cell foam with five cells in each direction which has ˇ15.6 × 10 6 of voxels is considered. The coupled heat transfer is solved using the finite volume method where deterministic ray tracing is used to calculate radiative exchange. The temperature distribution is computed and cross–validated with the distribution obtained using a commercial software STAR–CCM+.

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Domain decomposition methods Thermal conduction Radiative transfer Porous medium Work (physics) Ray tracing (physics) Heat transfer Physics Thermal radiation Porosity Domain (mathematical analysis) Mechanics Finite volume method Distributed ray tracing Computational physics Thermodynamics Materials science Optics Mathematical analysis Finite element method Mathematics Composite material

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Type: article
Language: en
Landing Page: https://doi.org/10.1088/1742-6596/2116/1/012057
OA Status: diamond
Cited By: 7
References: 5
Related Works: 10
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DOI: https://doi.org/10.1088/1742-6596/2116/1/012057

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Title: A numerical method based on domain decomposition to solve coupled conduction-radiation physics using parallel computing within large porous media

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Publication year: 2021

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Publication date: 2021-11-01

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Authors: Atin Kumar, Jérôme Vicente, Jean‐Vincent Daurelle, Yann Favennec, Benoît Rousseau

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Landing page: https://doi.org/10.1088/1742-6596/2116/1/012057

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Concepts: Domain decomposition methods, Thermal conduction, Radiative transfer, Porous medium, Work (physics), Ray tracing (physics), Heat transfer, Physics, Thermal radiation, Porosity, Domain (mathematical analysis), Mechanics, Finite volume method, Distributed ray tracing, Computational physics, Thermodynamics, Materials science, Optics, Mathematical analysis, Finite element method, Mathematics, Composite material

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Cited by: 7

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