Title of article
Asymptotic-preserving scheme for highly anisotropic non-linear diffusion equations
Author/Authors
Andrea Mentrelli، نويسنده , , Andrea and Negulescu، نويسنده , , Claudia، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2012
Pages
17
From page
8229
To page
8245
Abstract
Heat transfer in magnetically confined plasmas is a process characterized by non-linear and extremely high anisotropic diffusion phenomena. Standard numerical methods, successfully employed in the numerical treatment of classical diffusion problems, are generally inefficient, or even prone to break down, when such high anisotropies come into play, leading thus to the need of new numerical techniques suitable for this kind of problems.
present paper, the authors propose a numerical scheme based on an asymptotic-preserving (AP) reformulation of this non-linear evolution problem, generalizing the ideas introduced in a previous paper for the case of elliptic anisotropic problems [P. Degond, A. Lozinski, J. Narski, C. Negulescu, An asymptotic-preserving method for highly anisotropic elliptic equations based on a micro–macro decomposition, J. Comput. Phys. 231 (7) (2012) 2724–2740]. The performances of the here proposed AP scheme are tested numerically; in particular it is shown that the scheme is capable to deal with problems characterized by a high degree of anisotropy, thus proving to be suitable for the study of anisotropic diffusion in magnetically confined plasmas.
Keywords
Asymptotic-Preserving scheme , Magnetically confined plasma simulation , Anisotropic and non-linear diffusion
Journal title
Journal of Computational Physics
Serial Year
2012
Journal title
Journal of Computational Physics
Record number
1484827
Link To Document