Radiative Net Exchange Formulation Within One-Dimensional Gas Enclosures With Reflective Surfaces
Author:
Affiliation:
1. Laboratoire de Me´te´orologie Dynamique, C.N.R.S-Universite´ Paris 6, E.N.S. 24 Rue Lhomond, F-75231, Paris, Cedex 05, France
2. LESETH, Universite´ Paul Sabatier, 118, route de Narbonne, F-31062 Toulouse Cedex, France
Publisher
ASME International
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Link
http://asmedigitalcollection.asme.org/heattransfer/article-pdf/120/1/275/5760271/275_1.pdf
Reference9 articles.
1. Cherkaoui M. , DufresneJ. L., FournierR., GrandpeixJ. Y., LahellecA., 1996, “Monte Carlo Simulation of Radiation in Gases With a Narrow-Band Model and a Net-Exchange Formulation,” ASME JOURNAL OF HEAT TRANSFER, Vol. 118, pp. 401–407.
2. Green J. S. A. , 1967, “Division of Radiative Streams into Internal Transfer and Cooling to Space,” Quarterly Journal of the Royal Meteorological Society, Vol. 93, pp. 371–372.
3. Joseph J. M. , BursztynR., 1976, “A Radiative Cooling Model in the Thermal Infrared for Application to Models of the General Circulation,” Journal of Applied Meteorology, Vol. 15, pp. 319–325.
4. Menart J. A. , LeeH. S., KimT. K., 1993, “Discrete Ordinate Solutions of Nongray Radiative Transfer with Diffusely Reflecting Walls,” ASME JOURNAL OF HEAT TRANSFER, Vol. 115, pp. 184–193.
5. Naraghi M. H. N. , HuanJ., 1991, “An n-Bounce Method for Analysis of Radiative Transfer in Enclosure With Anisotropically Scattering Media,” ASME JOURNAL OF HEAT TRANSFER, Vol. 113, pp. 774–777.
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