This paper proposes an approach aimed at avoiding or mitigating the consequences of a plasma disruption in a tokamak. The control strategy is based on a Disruption Predictive Control (DPC) where the use of a set of disruption predictors could allow actively modification of some plasma parameters when a disruption warning is issued. The DPC approach requires the continuous monitoring of various plasma performance indicators, which play the role of disruption precursors. The active control is based on the availability of magnetic and nonmagnetic plasma parameter response models as well as multivariable control algorithms and architectures. © 2012 - IOS Press and the authors.
Modelling and control for plasma disruption avoidance and mitigation / Albanese, Raffaele; Ambrosino, Giuseppe; Cannas, B.; Fanni, A.; Pironti, Alfredo; Rubinacci, Guglielmo; Sias, G.; Ventre, S.; Villone, F.. - In: INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS. - ISSN 1383-5416. - 39:1-4(2012), pp. 73-79. [10.3233/JAE-2012-1445]
Modelling and control for plasma disruption avoidance and mitigation
ALBANESE, Raffaele;AMBROSINO, GIUSEPPE;PIRONTI, ALFREDO;RUBINACCI, GUGLIELMO;F. Villone
2012
Abstract
This paper proposes an approach aimed at avoiding or mitigating the consequences of a plasma disruption in a tokamak. The control strategy is based on a Disruption Predictive Control (DPC) where the use of a set of disruption predictors could allow actively modification of some plasma parameters when a disruption warning is issued. The DPC approach requires the continuous monitoring of various plasma performance indicators, which play the role of disruption precursors. The active control is based on the availability of magnetic and nonmagnetic plasma parameter response models as well as multivariable control algorithms and architectures. © 2012 - IOS Press and the authors.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
