kw.\*:("Approximation Rosseland")
Results 1 to 8 of 8
Selection :
STAGNATION POINT FLOW OF A RADIATING GAS OF A LARGE OPTICAL THICKNESS.KUBO S.1974; J. PHYS. SOC. JAP.; JAP.; DA. 1974; VOL. 36; NO 1; PP. 293-297; BIBL. 6 REF.Article
Radiative heat transfer in preforms for microstructured optical fibresXUE, S.-C; POLADIAN, L; BARTON, G. W et al.International journal of heat and mass transfer. 2007, Vol 50, Num 7-8, pp 1569-1576, issn 0017-9310, 8 p.Article
Asymptotic-preserving & well-balanced schemes for radiative transfer and the Rosseland approximationGOSSE, Laurent; TOSCANI, Giuseppe.Numerische Mathematik. 2004, Vol 98, Num 2, pp 223-250, issn 0029-599X, 28 p.Article
Theoretical models of hot dense plasmas for inertial confinement fusionORLOV, N. Y.Laser and particle beams (Print). 2002, Vol 20, Num 4, pp 547-549, issn 0263-0346, 3 p.Conference Paper
Application of a new method for radiative heat transfer to flat glass temperingSIEDOW, Norbert; GROSAN, Teodor; LOCHEGNIES, Dominique et al.Journal of the American Ceramic Society. 2005, Vol 88, Num 8, pp 2181-2187, issn 0002-7820, 7 p.Article
Temperature prediction for CO2 laser heating of moving glass rodsWEIXUE TIAN; CHIU, Wilson K. S.Optics and laser technology. 2004, Vol 36, Num 2, pp 131-137, issn 0030-3992, 7 p.Article
The Rosseland theory of diffusion radiation as applied to the study of the phenomenon of reduction in thermal conductivityKONIORCZYK, P.Journal of Technical Physics. 1999, Vol 40, Num 2, pp 147-161, issn 0324-8313Article
Treatment of radiative transfer in glass melts : validity of Rosseland and P-1 approximationsCHEONG, K.-B; MOON, K.-M; SONG, T.-H et al.Physics and chemistry of glasses. 1999, Vol 40, Num 1, pp 26-33, issn 0031-9090Article