A new model-based plasma current and shape controller has been set up and tested on the JET Tokamak with the existing active circuits and control. The installation has been carried out without causing any interference to the plasma operation and without requiring a long commissioning time. Eventually, the new controller was used on really extremely shaped internal transport barrier experiments at high poloidal beta and in the presence of quite large variations of the plasma current density profile (variation range Δβpol up to 1.5 and Δli up to 0.5). The extreme shape controller (XSC) controller architecture and philosophy also offer new interesting opportunities, e.g., the separatrix sweeping on the divertor plates without significantly affecting the overall plasma shape, and the possibility of improving the overall tokamak performance via combined control of plasma shape, current and profile. The adopted methodology constitutes also an important test bed for feedback control strategies of ITER relevance.
DESIGN, IMPLEMENTATION AND TEST OF THE XSC EXTREME SHAPE CONTROLLER IN JET / Albanese, Raffaele; Ambrosino, Giuseppe; Ariola, M.; Cenedese, A.; Crisanti, F.; DE TOMMASI, Gianmaria; Mattei, M.; Piccolo, F.; Pironti, Alfredo; Sartori, F.; Villone, F.; Rubinacci, Guglielmo. - In: FUSION ENGINEERING AND DESIGN. - ISSN 0920-3796. - STAMPA. - 74:(2005), pp. 627-632. [10.1016/j.fusengdes.2005.06.290]
DESIGN, IMPLEMENTATION AND TEST OF THE XSC EXTREME SHAPE CONTROLLER IN JET
ALBANESE, Raffaele;AMBROSINO, GIUSEPPE;DE TOMMASI, GIANMARIA;M. MATTEI;PIRONTI, ALFREDO;F. VILLONE;RUBINACCI, GUGLIELMO
2005
Abstract
A new model-based plasma current and shape controller has been set up and tested on the JET Tokamak with the existing active circuits and control. The installation has been carried out without causing any interference to the plasma operation and without requiring a long commissioning time. Eventually, the new controller was used on really extremely shaped internal transport barrier experiments at high poloidal beta and in the presence of quite large variations of the plasma current density profile (variation range Δβpol up to 1.5 and Δli up to 0.5). The extreme shape controller (XSC) controller architecture and philosophy also offer new interesting opportunities, e.g., the separatrix sweeping on the divertor plates without significantly affecting the overall plasma shape, and the possibility of improving the overall tokamak performance via combined control of plasma shape, current and profile. The adopted methodology constitutes also an important test bed for feedback control strategies of ITER relevance.File | Dimensione | Formato | |
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