Numerical techniques in radiative heat transfer for general, scattering, plane-parallel media
Abstract
The study of radiative heat transfer with scattering usually leads to the solution of singular Fredholm integral equations. The present paper presents an accurate and efficient numerical method to solve certain integral equations that govern radiative equilibrium problems in plane-parallel geometry for both grey and nongrey, anisotropically scattering media. In particular, the nongrey problem is represented by a spectral integral of a system of nonlinear integral equations in space, which has not been solved previously. The numerical technique is constructed to handle this unique nongrey governing equation as well as the difficulties caused by singular kernels. Example problems are solved and the method's accuracy and computational speed are analyzed.
- Publication:
-
Numerical Heat Transfer
- Pub Date:
- March 1982
- Bibcode:
- 1982NumHT...5...21S
- Keywords:
-
- Anisotropic Media;
- Fredholm Equations;
- Numerical Integration;
- Radiative Heat Transfer;
- Wave Scattering;
- Error Analysis;
- Kernel Functions;
- Run Time (Computers);
- Singularity (Mathematics);
- Fluid Mechanics and Heat Transfer