Numerical assessment of the new V-shape small-angle slot divertor on DIII-D

R. Maurizio, H. Du, A. Gallo, H. Y. Guo, A. Leonard, X. Ma, G. Sinclair, P. Stangeby, D. M. Thomas, H. Wang, R. S. Wilcox, J. H. Yu, L. Casali, M. W. Shafer

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19 Scopus citations

Abstract

The small-angle slot (SAS) divertor of the DIII-D tokamak, and its upcoming upgrade, the V-shape small-angle slot (SAS-V) divertor, are numerically investigated using the SOLPS-ITER code package, including the effect of particle drifts, for a range of plasma density, heating power, strike point position in the slot, and for both magnetic field directions. The simulations show that the electron temperature near the strike point is reduced in SAS-V compared to SAS, for both magnetic field directions, such that SAS-V achieves divertor detachment at a lower value of the outboard mid-plane separatrix electron density. The detachment threshold is lower because the V-shape focuses recycling neutrals on the V-end, densifying and cooling the plasma in the slot. At sufficiently high density, the V-shape also reduces the radial gradient of the temperature profile at the target, which in turns reduces the radial electric field and the E × B drift velocities, further densifying and cooling the plasma in the slot and leading to detachment. The V-shape effect, however, is reduced for higher heating power. With more heating power, the detachment density increases, reducing the ionization mean free path of recycled neutrals, which therefore become less sensitive to target shape changes. This suggests that in a fusion reactor, where the heating power is high, optimization of the divertor target shape needs to be combined with other strategies to lower the detachment density, such as in-slot injection of low-Z impurities.

Original languageEnglish
Article number116042
JournalNuclear Fusion
Volume61
Issue number11
DOIs
StatePublished - Nov 2021

Bibliographical note

Publisher Copyright:
© 2021 IAEA, Vienna.

Keywords

  • DIII-D
  • SOLPS-ITER
  • slot divertor

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