Model-based Adaptive Control of Resistive Wall Modes in DIII-D

F. Xie, E. Schuster, D. Humphreys, M. Walker, Y. In

Division of Plasma Physics (DPP) Annual Meeting of the American Physical Society (APS)

Atlanta, Georgia, November 2-6, 2009

Abstract

One of the major non-axisymmetric instabilities under study in the DIII-D tokamak is the resistive wall mode (RWM), a form of plasma kink instability whose growth rate is moderated by the influence of a resistive wall. The General Atomics/FARTECH DIII-D/RWM dynamic model represents the plasma surface as a toroidal current sheet and the wall using an eigenmode approach. We report first on the experimental validation and reconciliation of the proposed dynamic model, which is a required step previous to the potential imple- mentation in the Plasma Control System (PCS) of any model-based controller. The dynamic model is then used to synthesize an adaptive control law for the stabilization of the RWM under time-varying β conditions. Simulation results are presented comparing the performance of the model-based adaptive controller and present non- model-based PD controllers.