Results of a numerical solution for radiative heat transfer in homogeneous and nonhomogeneous participating media are presented. The geometry of interest is a finite axisymmetric cylindrical enclosure. The integral formulation for radiative transport is solved by the YIX method. A three-dimensional solution scheme is applied to two-dimensional axisymmetric geometry to simplify kernel calculations and to avoid difficulties associated with treating boundary conditions. As part of the effort to improve modeling capabilities for turbulent jet diffusion flames, predicted distributions for flame temperature and soot volume fraction are used to calculate radiative heat transfer from soot particles in such flames. It is shown that the nonhomogeneit...
International audienceThe aim of this paper is to study the effect of radiative heat transfer on soo...
An efficient tool to deal with multidimensional radiative heat transfer is in strong demand to analy...
The paper deals with a solution of radiation heat transfer problems in enclosures filled with nonpar...
The radiative heat transfer in multidimensional enclosures containing inhomogeneous, absorbing, emit...
A numerical procedure for solving the nongray radiative transfer equation (RTE) in two-dimensional c...
We investigate the radiative heat transfer in a co-flowing turbulent nonpremixed propane-air flame i...
Modified formulations of the discrete transfer and Monte Carlo methods are presented for the predict...
Purpose - H2O, CO2 and CO are three main species in combustion systems which have high volume fracti...
Summarization: Considering that radiative heat transfer is encountered in many engineering and indus...
In recent years, the interest in radiative heat transfer in cylindrical media has increased primaril...
In designing industrial cylindrical furnaces, it is important to predict the radiative heat flux on ...
Most practical combustion systems involve complex geometry configurations and CFD techniques used fo...
We investigate the radiative heat transfer in a co-flowing turbulent non-premixed propane-air flame ...
Radiative heat transfer in three-dimensional inhomogeneous, nongray and anisotropically scattering p...
Il y a une erreur d'impression à l'intérieur de la revue, qui indique pour référence le volume 46. I...
International audienceThe aim of this paper is to study the effect of radiative heat transfer on soo...
An efficient tool to deal with multidimensional radiative heat transfer is in strong demand to analy...
The paper deals with a solution of radiation heat transfer problems in enclosures filled with nonpar...
The radiative heat transfer in multidimensional enclosures containing inhomogeneous, absorbing, emit...
A numerical procedure for solving the nongray radiative transfer equation (RTE) in two-dimensional c...
We investigate the radiative heat transfer in a co-flowing turbulent nonpremixed propane-air flame i...
Modified formulations of the discrete transfer and Monte Carlo methods are presented for the predict...
Purpose - H2O, CO2 and CO are three main species in combustion systems which have high volume fracti...
Summarization: Considering that radiative heat transfer is encountered in many engineering and indus...
In recent years, the interest in radiative heat transfer in cylindrical media has increased primaril...
In designing industrial cylindrical furnaces, it is important to predict the radiative heat flux on ...
Most practical combustion systems involve complex geometry configurations and CFD techniques used fo...
We investigate the radiative heat transfer in a co-flowing turbulent non-premixed propane-air flame ...
Radiative heat transfer in three-dimensional inhomogeneous, nongray and anisotropically scattering p...
Il y a une erreur d'impression à l'intérieur de la revue, qui indique pour référence le volume 46. I...
International audienceThe aim of this paper is to study the effect of radiative heat transfer on soo...
An efficient tool to deal with multidimensional radiative heat transfer is in strong demand to analy...
The paper deals with a solution of radiation heat transfer problems in enclosures filled with nonpar...