Add to ORKGThe Monte Carlo method (MCM) is applied to analyze radiative heat transfer in nongray gases. The nongray model employed is based on the statistical arrow band model with an exponential-tailed inverse intensity distribution. Consideration of spectral correlation results in some distinguishing features of the Monte Carlo formulations. Validation of the Monte Carlo formulations has been conducted by comparing results of this method with other solutions. Extension of a one-dimensional problem to a multi-dimensional problem requires some special treatments in the Monte Carlo analysis. Use of different assumptions results in different sets of Monte Carlo formulations. The nongray narrow band formulations provide the most accurate results
Several problems are studied with both the discrete transfer and Monte Carlo methods for predicting ...
Il y a une erreur d'impression à l'intérieur de la revue, qui indique pour référence le volume 46. I...
High-fidelity combustion simulations necessitate the accurate and efficient calculation of radiative...
The Monte Carlo method (MCM) is applied to analyze radiative heat transfer in nongray gases. The non...
The Monte Carlo method (MCM) is applied to analyze radiative heat transfer in nongray gases. The non...
The Monte Carlo method (MCM) is employed to study the radiative interactions in fully developed lami...
Analyses and numerical procedures are presented to investigate the radiative interactions in various...
International audienceThe present work assesses different Monte Carlo methods in radiative heat tran...
Basic formulations, analyses, and numerical procedures are presented to study radiative interactions...
We present a numerical method and computer code to calculate the radiative transfer and excitation o...
The necessary statistical relationships have been developed for the application of the Monte Carlo m...
En physique du transport, en particulier en physique du transfert radiatif, la méthode de Monte-Carl...
Modified formulations of the discrete transfer and Monte Carlo methods are presented for the predict...
Radiative heat transfer in participating media is among the most challenging computational engineeri...
Analyses and numerical procedures are presented to investigate the radiative interactions in transie...
Several problems are studied with both the discrete transfer and Monte Carlo methods for predicting ...
Il y a une erreur d'impression à l'intérieur de la revue, qui indique pour référence le volume 46. I...
High-fidelity combustion simulations necessitate the accurate and efficient calculation of radiative...
The Monte Carlo method (MCM) is applied to analyze radiative heat transfer in nongray gases. The non...
The Monte Carlo method (MCM) is applied to analyze radiative heat transfer in nongray gases. The non...
The Monte Carlo method (MCM) is employed to study the radiative interactions in fully developed lami...
Analyses and numerical procedures are presented to investigate the radiative interactions in various...
International audienceThe present work assesses different Monte Carlo methods in radiative heat tran...
Basic formulations, analyses, and numerical procedures are presented to study radiative interactions...
We present a numerical method and computer code to calculate the radiative transfer and excitation o...
The necessary statistical relationships have been developed for the application of the Monte Carlo m...
En physique du transport, en particulier en physique du transfert radiatif, la méthode de Monte-Carl...
Modified formulations of the discrete transfer and Monte Carlo methods are presented for the predict...
Radiative heat transfer in participating media is among the most challenging computational engineeri...
Analyses and numerical procedures are presented to investigate the radiative interactions in transie...
Several problems are studied with both the discrete transfer and Monte Carlo methods for predicting ...
Il y a une erreur d'impression à l'intérieur de la revue, qui indique pour référence le volume 46. I...
High-fidelity combustion simulations necessitate the accurate and efficient calculation of radiative...