A constrained control strategy for the shape control in thermonuclear fusion tokamaks

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• 作者：Massimiliano Mattei^a ; ¹ ; ^{massimiliano.mattei@unina2.it}Author Vitae ; Carmelo Vincenzo Labate^b ; ^{carmelenzo.labate@unirc.it}Author Vitae ; Domenico Famularo^c ; ^{domenico.famularo@unical.it}Author Vitae
• 关键词：Model based control ; Reference Governor ; Predictive control ; Nuclear fusion ; Tokamaks
• 刊名：Automatica
• 出版年：2013
• 出版时间：January, 2013
• 年：2013
• 卷：49
• 期：1
• 页码：169-177
• 全文大小：1580 K

文摘

The paper deals with the application of the so-called Reference (or Command) Governor constrained control strategy to the shape control of plasmas in thermonuclear fusion reactors with the main scope of optimizing tokamak operations also in conditions very close to the operating envelope limits. A primal inner loop controlling the plasma-wall distance is first designed; the Reference Governor device is then tuned to modify, whenever necessary, the reference signals to the inner loop, on the basis of constraints due to voltage saturations on the power supply converters, limitations of currents in the active control coils, minimum clearance between the plasma surface and the vacuum chamber wall, maximum induced magnetic fields and forces on coils. As usual in model predictive paradigms, the reference signal modification is accomplished through an on-line optimization procedure which embodies plasma model forecasts computed along a finite time virtual receding horizon. The ITER (International Thermonuclear Experimental Reactor) tokamak is assumed as the case study. Numerical simulations are carried out on a finite elements nonlinear model taking into account induced currents in the passive structures. The proposed application shows how almost a hundred constraints can be managed on-line by the Reference Governor.