Determination of the surfaces radiosity temperatures in a square cavity with a square inner centred obstacle and a non-isothermal absorbing-emitting medium
Résumé
An exact semi-analytical determination of the radiosity temperatures on the diffusely reflecting surfaces of a square cavity filled with a non-isothermal absorbing and emitting semi-transparent medium containing a centered reflecting opaque obstacle is proposed. One develops first the obstacle's surfaces radiosity temperatures formulation before detailing all the different possible configurations existing for the cavity's surfaces radiosity temperatures determination. Thanks to the radiosity technique, the integrals solutions of the radiative transfer equation are calculated for all listed cases. Then, the numerical results of the radiosity temperatures are obtained from a Gauss quadrature and an adequate meshing grid, following an iterative scheme. The effects of different parameters such as the size of the internal obstacle, the emissivities and the absorption coefficient on the cavity's radiosity temperatures behavior have also been investigated.
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