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Comparison of the Discrete-Ordinates Method and the Finite-Volume Method for Steady-State and Ultrafast Radiative Transfer Analysis in Cylindrical Coordinates
Accepted manuscript   Open access   Peer reviewed

Comparison of the Discrete-Ordinates Method and the Finite-Volume Method for Steady-State and Ultrafast Radiative Transfer Analysis in Cylindrical Coordinates

Brian Hunter and Zhixiong Guo
Numerical Heat Transfer, Part B: Fundamentals, Vol.59(5), pp.339-359
2011
DOI:
https://doi.org/10.7282/T3T72KPQ

Abstract

Radiation Heat Transfer Computation Discrete-Ordinates Method Finite Volume Method
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.
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url
http://dx.doi.org/10.1080/10407790.2011.572719View
Numerical Heat Transfer, Part B: Fundamentals
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