Simulations of COMPASS vertical displacement events with a self-consistent model for halo currents including neutrals and sheath boundary conditions

F.J. Artola, A. Loarte (Corresponding author), E. Matveeva, J. Havlicek, T. Markovic, J. Adamek, J. Cavalier, L. Kripner, G.T.A. Huijsmans, M. Lehnen, M. Hoelzl, R. Panek

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12 Citaten (Scopus)

Samenvatting

The understanding of the halo current properties during disruptions is key to design and operate large scale tokamaks in view of the large thermal and electromagnetic loads that they entail. For the first time, we present a fully self-consistent model for halo current simulations including neutral particles and sheath boundary conditions. The model is used to simulate vertical displacement events (VDEs) occurring in the COMPASS tokamak. Recent COMPASS experiments have shown that the parallel halo current density at the plasma-wall interface is limited by the ion saturation current during VDE-induced disruptions. We show that usual magneto-hydrodynamic boundary conditions can lead to the violation of this physical limit and we implement this current density limitation through a boundary condition for the electrostatic potential. Sheath boundary conditions for the density, the heat flux, the parallel velocity and a realistic parameter choice (e.g. Spitzer's resistivity and Spitzer-Harm parallel thermal conductivity) extend present VDE simulations beyond the state of the art. Experimental measurements of the current density, temperature and heat flux profiles at the COMPASS divertor are compared with the results obtained from axisymmetric simulations. Since the ion saturation current density (Jsat) is shown to be essential to determine the halo current profile, parametric scans are performed to study its dependence on different quantities such as the plasma resistivity and the particle and heat diffusion coefficients. In this respect, the plasma resistivity in the halo region broadens significantly the Jsat profile, increasing the halo width at a similar total halo current.

Originele taal-2Engels
Artikelnummer064004
Aantal pagina's19
TijdschriftPlasma Physics and Controlled Fusion
Volume63
Nummer van het tijdschrift6
DOI's
StatusGepubliceerd - jun. 2021

Bibliografische nota

Publisher Copyright:
© 2021, ITER Organization.

Financiering

FinanciersFinanciernummer
Horizon 2020 Framework Programme633053

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