Comparison of dust transport modelling codes in a tokamak plasma | Zendy

A. Uccello | Zendy; G. Gervasini | Zendy; F. Ghezzi | Zendy; E. Lazzaro | Zendy; M. Bacharis | Zendy; J. Flanagan | Zendy; G.F. Matthews | Zendy; A. Järvinen | Zendy; M. Sertoli | Zendy

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Comparison of dust transport modelling codes in a tokamak plasma

Author(s) -

A. Uccello,

G. Gervasini,

F. Ghezzi,

E. Lazzaro,

M. Bacharis,

J. Flanagan,

G.F. Matthews,

A. Järvinen,

M. Sertoli

Publication year - 2016

Publication title -

physics of plasmas

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.75

H-Index - 160

eISSN - 1089-7674

pISSN - 1070-664X

DOI - 10.1063/1.4964672

Subject(s) - physics , joint european torus , tokamak , plasma , torus , tungsten , trajectory , mechanics , nuclear engineering , ablation , atomic physics , nuclear physics , aerospace engineering , astronomy , chemistry , geometry , mathematics , organic chemistry , engineering

Since the installation on the Joint European Torus of the ITER-like Wall (ILW), intense radiation spikes have been observed, especially in the discharges following a disruption, and have been associated with possible sudden injection of tungsten (W) impurities consequent to full ablation of W dust particles. The problem of dust production, mobilization, and interaction both with the plasma and the vessel tiles is therefore of great concern and requires the setting up of dedicated and validated numerical modeling tools. Among these, a useful role is played by the dust trajectory calculators, which can present in a relatively clear way the qualitative and quantitative description of the mobilization and fate of selected bunches of dust grains.

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