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Transient radiation and conduction heat transfer in glass sheets by the thin layer approximation

Abstract : This paper is devoted to the simulation of 3D transient radiation and conduction heat transfer occurring inside thin glass sheets undergoing high temperature processing. The glass is considered as an absorbing, emitting, and nonscattering medium. The zonal method is used to establish the governing radiation transfer model. Direct exchange areas are calculated by the flux planes approximation. The thin layer approximation (TLA) is then introduced for increasing CPU efficiency. Three different numerical integration schemes made possible by the TLA are presented. Comparisons are made, with calculations performed using the finite volume method (FVM). The transient coupled energy equation is solved by a full implicit control volume method using the incomplete Cholesky conjugate gradient method. The heat transfer analysis of a glass sheet residing inside a hot rectangular enclosure is studied. Results obtained by the zonal method, with or without the TLA, are in close agreement with those obtained by the FVM. CPU requirements for radiative heat transfer analysis of the zonal method with TLA are, depending on the numerical integration scheme used, between 8 and 23 times smaller than those of the zonal method without TLA. The difference between the results of the different models never exceeds 4%. The zonal method with the TLA offered significant improvements in CPU time when compared with the original zonal method with similar or acceptable accuracy. ©2010 American Society of Mechanical Engineers
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https://hal-mines-paristech.archives-ouvertes.fr/hal-00442872
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Soumis le : mercredi 23 décembre 2009 - 11:43:33
Dernière modification le : jeudi 24 septembre 2020 - 17:22:03

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Georges El Hitti, Maroun Nemer, Khalil El Khoury. Transient radiation and conduction heat transfer in glass sheets by the thin layer approximation. Journal of Heat Transfer, American Society of Mechanical Engineers, 2010, 132, pp.023506-1 to 8. ⟨10.1115/1.4000228⟩. ⟨hal-00442872⟩

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