The time-dependent equation of radiative transfer is solved for an axisymmetric cylindrical medium using both the discrete-ordinates method and the finite-volume method. Steady and transient flux profiles are determined for absorbing and scattering media. Results for each solution method are compared and shown for various grid numbers, scattering albedos, and optical thicknesses. A comparison of computational time and memory usage between the methods is presented. It is found that the finite-volume method uses more memory and has a longer convergence time than the discrete-ordinates method for all cases, due to the difference in angular treatment.Peer reviewed
The scattering of radiation from collimated irradiation is accurately treated via normalization of p...
The finite-volume method (FVM) and the discrete ordinate method (DOM) are implemented to assess thei...
Radiative transfer in a cubic enclosure, subject to varying conditions, is determined using the disc...
International audienceThe discrete ordinates method is widely used to solve the radiative transfer e...
A known transformation associated to the integral form of the radiative transfer equation along with...
Predictive accuracy of the method-of-lines (MOL) solution of discrete ordinates method (DOM) for tra...
The discrete ordinates method has evolved as a powerful tool in the analysis of radiative heat trans...
The solution accuracy of S-n or Discrete Ordinates Method (DOM) was assessed by comparing its predic...
In this article a spectrally resolved solution of the integrated radiative transfer equation for the...
In this work the method of discrete ordinates is applied for the solution of the problem of transfer...
The ability to solve the radiative transfer equation in a fast and accurate fashion is central to se...
A methodology based on the method of lines solution of discrete ordinates method for solution of the...
In this article a spectrally resolved solution of the integrated radiative transfer equation for the...
In recent years, the interest in radiative heat transfer in cylindrical media has increased primaril...
This article deals with the analysis of radiative transport with and without conduction in a finite ...
The scattering of radiation from collimated irradiation is accurately treated via normalization of p...
The finite-volume method (FVM) and the discrete ordinate method (DOM) are implemented to assess thei...
Radiative transfer in a cubic enclosure, subject to varying conditions, is determined using the disc...
International audienceThe discrete ordinates method is widely used to solve the radiative transfer e...
A known transformation associated to the integral form of the radiative transfer equation along with...
Predictive accuracy of the method-of-lines (MOL) solution of discrete ordinates method (DOM) for tra...
The discrete ordinates method has evolved as a powerful tool in the analysis of radiative heat trans...
The solution accuracy of S-n or Discrete Ordinates Method (DOM) was assessed by comparing its predic...
In this article a spectrally resolved solution of the integrated radiative transfer equation for the...
In this work the method of discrete ordinates is applied for the solution of the problem of transfer...
The ability to solve the radiative transfer equation in a fast and accurate fashion is central to se...
A methodology based on the method of lines solution of discrete ordinates method for solution of the...
In this article a spectrally resolved solution of the integrated radiative transfer equation for the...
In recent years, the interest in radiative heat transfer in cylindrical media has increased primaril...
This article deals with the analysis of radiative transport with and without conduction in a finite ...
The scattering of radiation from collimated irradiation is accurately treated via normalization of p...
The finite-volume method (FVM) and the discrete ordinate method (DOM) are implemented to assess thei...
Radiative transfer in a cubic enclosure, subject to varying conditions, is determined using the disc...