Development of a Three Dimensional Plasma Fluid Code Using a Lagrange-Monte-Carlo Scheme

Development of a Three Dimensional Plasma Fluid Code Using a Lagrange-Monte-Carlo Scheme

We are developing a Lagrange (LG)-Monte-Carlo (MC) scheme for three-dimensional (3D) SOL/Divertor plasma fluid modeling. By using test particles, the scheme is suitable for handling 3D complex geometries. The semi-implicit treatment of the pressure gradient term enables us to improve the robustness...

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Veröffentlicht in:Plasma and Fusion Research 2020/02/17, Vol.15, pp.1403003-1403003
Hauptverfasser: TATSUMI, Ryoko, RUNOV, Alexei, SCHNEIDER, Ralf, HOSHINO, Kazuo, HATAYAMA, Akiyoshi
Format: Artikel
Sprache:eng
Schlagworte:
Continuity (mathematics)
Finite volume method
fluid simulation
Lagrange scheme
Monte Carlo simulation
Robustness (mathematics)
SOL/Divertor plasma
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Zusammenfassung:We are developing a Lagrange (LG)-Monte-Carlo (MC) scheme for three-dimensional (3D) SOL/Divertor plasma fluid modeling. By using test particles, the scheme is suitable for handling 3D complex geometries. The semi-implicit treatment of the pressure gradient term enables us to improve the robustness of the coupling of the continuity and the momentum equations. Detailed numerical checks of the integrated scheme of LG-MC have been done for a simple 1D geometry. Benchmark tests between the new LG-MC and a conventional Finite-Volume scheme were carried out and good agreement was obtained. A first test calculation for a 3D cylindrical geometry has been also successfully done.
ISSN:1880-6821
1880-6821
DOI:10.1585/pfr.15.1403003