Developing Integrated Tokamak Dynamics Models for Next-Generation Machine Control

Jonathan W. Morrow-Jones*; Marc A. Firestone; Tak Kuen Mau

doi:dx.doi.org/10.13182/FST97-A19903

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Developing Integrated Tokamak Dynamics Models for Next-Generation Machine Control

Jonathan W. Morrow-Jones*, Marc A. Firestone, Tak Kuen Mau

Fusion Science and Technology / Volume 32 / Number 4 / December 1997 / Pages 526-544

Technical Paper / Special Section: Plasma Control Issues for Tokamaks / Instrumentation Control and Data Handling / dx.doi.org/10.13182/FST97-A19903

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The modeling steps needed to create dynamically based automated control of tokamak plasmas are traced. This involves integrating models of current/magnetic-flux dynamics; plasma transport; plasma geometry; and source terms, such as lower hybrid, fast wave, and pellet-fueling deposition. Perturbative analysis of these models then yields the linear response of the tokamak to changes in coil voltages, applied radio-frequency power, or pellet-firing frequency. Comparison of the linear response models to nonlinear numerical calculations reveals that the plasma position and shape modeling will require future refinements.