Simulation of the SPARC plasma boundary with the UEDGE code

S. B. Ballinger, A. Q. Kuang, M. V. Umansky, D. Brunner, J. M. Canik, M. Greenwald, J. D. Lore, B. Labombard, J. L. Terry, M. Wigram

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Abstract

In this work, the UEDGE edge transport code is used to examine conditions in the SPARC divertor and edge plasma for various levels of carbon impurity and power from the core (P SOL). A double-null magnetic configuration is simulated assuming up-down symmetry in geometry and physics. The anomalous heat and particle transport coefficients are tuned to match empirical predictions for SPARC's midplane density profiles, target plate heat flux profiles, and inner/outer divertor power sharing. Convective transport is included on the low-field side, while on the high-field side the transport is modeled as purely diffusive. Hydrogen neutrals are modeled as a fluid with inertial effects, and a carbon impurity is included using the fixed-fraction model. We find that detachment induced by impurity seeding could significantly reduce the heat flux to the divertor surfaces in the SPARC tokamak. At P SOL = 28 MW (the value predicted for SPARC's full-power H-mode scenario) cases with both divertor legs detached were obtained with a carbon impurity fraction between 0.3%-1.4%, far below Z eff limits for SPARC. When the plasma in the outer leg is detached, the peak heat flux density perpendicular to the target plate is below 1 MW m-2, electron and ion temperatures are less than 1.5 eV, and momentum detachment is observed. However, the detachment state is found to be sensitive to the side-wall boundary conditions, the level of neutral pumping, and the target plate tilt. Finally, a broadly similar SOLPS simulation of SPARC is used to assess the appropriateness of the simpler impurity and neutral models used in UEDGE.

Original languageEnglish
Article number086014
JournalNuclear Fusion
Volume61
Issue number8
DOIs
StatePublished - Aug 2021

Funding

This work was supported by the INFUSE program, a DOE SC FES private-public partnership program, grant TC02335; Commonwealth Fusion Systems RPP007; the SPARC Fellowship Fund; and the Samuel W Ing (1953) Memorial Fund, a gift of Mimi and Frank Slaughter.

FundersFunder number
Commonwealth Fusion SystemsRPP007
SPARC

    Keywords

    • SPARC
    • UEDGE
    • detachment
    • divertor
    • tokamak

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