Development and application of a predictive model for advanced tokamak scenario design

Author:

Schramm RaphaelORCID,Bock AlexanderORCID,Fable EmilianoORCID,Stober JörgORCID,Maraschek Marc,Reisner Maximilian,Fischer Rainer,Zohm Hartmut,

Abstract

Abstract Advanced tokamak (AT) scenarios applying additional heating during the current ramp (early-heating) usually require many iterations if developed fully empirically. To reduce the required experimental time, a model has been developed in the ASTRA framework, capable of doing predictive simulations of the relevant parameters. As scenario development requires fast iterations and inter-discharge runs, a sufficiently short run-time is required. While using a simplified transport model to achieve this, comparisons to experimental data from ASDEX-Upgrade (AUG) still show good agreement. Using this model, a new high performance early-heating AT scenario has been developed and successfully run on AUG with the results matching the predictions.

Funder

EUROfusion

Publisher

IOP Publishing

Subject

Condensed Matter Physics,Nuclear and High Energy Physics

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