Fusion power plants will require active detachment control to mitigate sputtering. Although detachment control has been demonstrated on current fusion experiments, achieving this on fusion power plants will be more challenging due to their reduced diagnostic set. Real-time scrape-off-layer (SOL) modeling will help to fill this "diagnostic gap". To determine the minimal set of physics required for accurate SOL modeling, we use the configurable Hermes-3 edge modeling framework to perform simple, fixed-fraction-impurity 1D Braginskii simulations. We show that these simulations reproduce distinctive attached and detached conditions, as well as the characteristic ion-flux rollover. We also perform scans of the input heat flux and impurity concentration, and show that the results predict similar trends to the lower-fidelity Lengyel model. This allows us to also indirectly compare to SOLPS simulations, and we find that the Lengyel model has similar "over-estimation" factors to Hermes-1D and SOLPS. This indirect comparison highlights a series of extensions to bring our Hermes-1D results closer to the higher-fidelity 2D modeling, with the goal of developing time-dependent detachment control suitable for next-generation fusion devices.
Comment: Conference paper for PSI-26 (26th Conference on Plasma Surface Interactions, Marseille)