Abstract
A theory-based model for the control of plasma currents for steady-state operation in W7-X is proposed and intended for model-based plasma control. The conceptual outline implies the strength of physics-based models: it offer approaches applicable to future conditions of fusion devices or next-step machines. The application at extrapolated settings is related to the validity range of the theory model. Therefore, the predictive power of theory-based control models could be larger than for data-driven approaches and limitations can be predicted from the validity range for the prediction of bootstrap currents in W7-X. The model predicts the L/R response when density or heating power is changed. The model is based on neoclassical bootstrap current calculations and validated for different discharge conditions. While the model was found to be broadly applicable for conducted electron-cyclotron-heated discharges in W7-X, limits were found for cases when the polarization of the electron cyclotron heating was changed from X2 to O2-heating. The validity assessment attempts to quantify the potential of the derived model for model-based control in the operational space (density, heating power) of W7-X.
Highlights
Wendelstein 7-X (W7-X) is a superconducting fusion device built as a proof-of-principle to demonstrate the reactor potential of optimized stellarators [1]
W7-X is seen as a first-of-a-kind helical axis advanced stellarator (HELIAS) [3] implementing the concept of stellarator optimization
This paper describes an approach to develop theory-based models customized for control applications on W7-X
Summary
While a fully predictive electron cyclotron current drive (ECCD) simulation from measured plasma profiles cannot be conducted sufficiently fast for immediate control applications, simplified models can provide control input within response times required to react on strike-line changes. To summarize the motivation behind this paper, strike-line control is expected to be key to achieve long-pulse operation, especially when higher heating power becomes available in future campaigns leading to higher bootstrap currents.
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