Design and physics basis for the upcoming DIII-D SAS-VW campaign to quantify tungsten leakage and transport in a new slot divertor geometry

T. Abrams, G. Sinclair, J. H. Nichols, E. A. Unterberg, D. C. Donovan, J. Duran, J. D. Elder, F. Glass, B. A. Grierson, H. Y. Guo, T. Hall, X. Ma, R. Maurizio, A. G. McLean, C. Murphy, R. Nguyen, D. L. Rudakov, P. C. Stangeby, D. M. Thomas, S. A. Zamperini

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24 Scopus citations

Abstract

A set of experiments are planned to exploit the high SOL collisionality enabled by a tightly baffled slot divertor geometry to suppress tungsten leakage in DIII-D. A toroidal row of graphite tiles from the Small Angle Slot (SAS) divertor is being coated with 10-15 μm of tungsten. New spectroscopic viewing chords with in-vacuo optics will measure the W gross erosion source from the divertor surface with high spatial and temporal resolution. In parallel, the bottom of the SAS divertor is changed from a flat to a 'V' shape. New SOLPS-ITER/DIVIMP simulations conducted with drifts using the planned 'V' shape predict a substantial reduction in W sourcing and SOL accumulation in either B ∇B direction relative to either the old SAS divertor shape or the open, lower divertor. Dedicated studies are planned to carefully characterize the level of W sourcing, leakage, and scrape-off-layer (SOL) accumulation in DIII-D over a wide range of plasma scenarios. Various actuators will be assessed for their efficacy in further reducing high-Z impurity sources and leakage from the slot divertor geometry. This coupled code-experiment validation effort will be used to stress-test physics models and build confidence in extrapolations to advanced, high-Z divertor geometries for next-step devices.

Original languageEnglish
Article number124073
JournalPhysica Scripta
Volume96
Issue number12
DOIs
StatePublished - Dec 2021

Keywords

  • DIII-D
  • DIVIMP
  • SOLPS
  • divertors
  • spectroscopy
  • tokamaks
  • tungsten

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