Analyses and numerical procedures are presented to investigate the radiative interactions in various energy transfer processes in gaseous systems. Both gray and non-gray radiative formulations for absorption and emission by molecular gases are presented. The gray gas formulations are based on the Planck mean absorption coefficient and the non-gray formulations are based on the wide band model correlations for molecular absorption. Various relations for the radiative flux and divergence of radiative flux are developed. These are useful for different flow conditions and physical problems. Specific plans for obtaining extensive results for different cases are presented. The procedure developed was applied to several realistic problems. Results...
A method for predicting radiation adsorption and emission coefficients in thermochemical nonequilibr...
Analyses and numerical procedures are presented to study the radiative interactions of absorbing emi...
This work has focussed on developing solutions and obtaining verifying data for the emission from me...
Basic formulations, analyses, and numerical procedures are presented to study radiative interactions...
Analyses and numerical procedures are presented to investigate the radiative interactions in transie...
Basic formulations, analyses, and numerical procedures are presented to study radiative interactions...
The Monte Carlo method (MCM) is applied to analyze radiative heat transfer in nongray gases. The non...
Radiative heat transfer for large body at meteoric speeds in earth atmosphere assuming gray gas radi...
Analyses and numerical procedures are presented for infrared radiative energy transfer in gases when...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
Basic formulations, analyses, and numerical procedures are presented to investigate radiative heat i...
The purpose of this work was to assist with the development of analytical techniques for the interpr...
Radiative interactions between absorbing-emitting and flowing media with internal energy generatio
IBM 7094 computer program for theoretical calculation of outgoing infrared radiances from atmosphere...
An analysis is presented for obtaining two-dimensional temperature profiles and heat transfer in a r...
A method for predicting radiation adsorption and emission coefficients in thermochemical nonequilibr...
Analyses and numerical procedures are presented to study the radiative interactions of absorbing emi...
This work has focussed on developing solutions and obtaining verifying data for the emission from me...
Basic formulations, analyses, and numerical procedures are presented to study radiative interactions...
Analyses and numerical procedures are presented to investigate the radiative interactions in transie...
Basic formulations, analyses, and numerical procedures are presented to study radiative interactions...
The Monte Carlo method (MCM) is applied to analyze radiative heat transfer in nongray gases. The non...
Radiative heat transfer for large body at meteoric speeds in earth atmosphere assuming gray gas radi...
Analyses and numerical procedures are presented for infrared radiative energy transfer in gases when...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
Basic formulations, analyses, and numerical procedures are presented to investigate radiative heat i...
The purpose of this work was to assist with the development of analytical techniques for the interpr...
Radiative interactions between absorbing-emitting and flowing media with internal energy generatio
IBM 7094 computer program for theoretical calculation of outgoing infrared radiances from atmosphere...
An analysis is presented for obtaining two-dimensional temperature profiles and heat transfer in a r...
A method for predicting radiation adsorption and emission coefficients in thermochemical nonequilibr...
Analyses and numerical procedures are presented to study the radiative interactions of absorbing emi...
This work has focussed on developing solutions and obtaining verifying data for the emission from me...