Integrated modelling of tungsten accumulation control with wave heating: validation in ASDEX Upgrade and predictions for ITER

Integrated modelling of tungsten accumulation control with wave heating: validation in ASDEX Upgrade and predictions for ITER

In present-day fusion devices, central wave heating is crucial to avoid core tungsten (W) accumulation. In this work, we present an integrated modelling framework that reproduces the reduction of core W peaking in ASDEX Upgrade experiments when multiple transport channels are self-consistently evolv...

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Veröffentlicht in:Nuclear fusion 2024-10, Vol.64 (10), p.104001
Hauptverfasser: Fajardo, D., Angioni, C., Fable, E., Tardini, G., Bilato, R., Luda, T., McDermott, R.M., Samoylov, O.
Format: Artikel
Sprache:eng
Schlagworte:
impurity transport
integrated modelling
tungsten
wave heating
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Zusammenfassung:In present-day fusion devices, central wave heating is crucial to avoid core tungsten (W) accumulation. In this work, we present an integrated modelling framework that reproduces the reduction of core W peaking in ASDEX Upgrade experiments when multiple transport channels are self-consistently evolved, emphasizing the effects of wave heating on turbulent and neoclassical W transport. Predictions for the ITER 15 MA baseline are then provided. We show that the core of a reactor is in a different transport regime for W as compared to present-day tokamaks. The challenges introduced by W arise from global radiation losses that can hinder operation in H-mode, instead of local central accumulation.
ISSN:0029-5515
1741-4326
DOI:10.1088/1741-4326/ad6f26