Publication Date:
2019-07-13
Description:
The radiative heat transfer inside a low-density carbon fiber insulator is analyzed using a three-dimensional direct simulation model. A robust procedure is presented for the numerical calculation of the geometric configuration factor to compute the radiative energy exchange processes among the small discretized surface areas of the fibrous material. The methodology is applied to a polygonal mesh of a fibrous insulator obtained from three-dimensional microscale imaging of the real material. The anisotropic values of the radiative conductivity are calculated for that geometry. The results yield both directional and thermal dependence of the radiative conductivity.
Keywords:
Composite Materials; Fluid Mechanics and Thermodynamics
Type:
ARC-E-DAA-TN31216
,
International Journal of Heat and Mass Transfer (e-ISSN 0017-9310); 95; 535-539
Format:
application/pdf
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