Title :
A Flexible System for the Control of External Magnetic Perturbations in the JET Tokamak
Author :
Alves, Diogo ; Coelho, Rui ; Neto, Andre C. ; Smith, Paul ; Valcarcel, Daniel F. ; Card, Peter ; Felton, Robert ; Lomas, Peter J. ; McCullen, Paul
Author_Institution :
Inst. de Plasmas e Fusao Nucl., Univ. de Lisboa, Lisbon, Portugal
Abstract :
External magnetic perturbations are typically utilized in tokamak devices with two operational or experimental purposes: 1) correction of intrinsic 3-D error fields and 2) mitigation or suppression of edge localized modes (ELMs). At Joint European Torus (JET), dedicated coils are used for the generation of these toroidally asymmetric perturbations. While error fields exist even in the absence of plasma, in ELM mitigation experiments, the external fields are meant to slightly ergodize the magnetic topology in the plasma periphery hence reducing the drive for the destabilization of these instabilities. The control of the magnetic field produced by these coils is achieved by controlling the current flowing in them. The real-time system responsible for this control recently underwent a number of functional improvements since its original implementation utilizing the present voltage-controlled voltage sources. This paper describes the overall system, built-in functionality, and control algorithms and presents preliminary experimental results along with performance assessment studies. In particular, the main improvements are: 1) the possibility of automatically reducing the current references in case the plasma amplifies the applied perturbation; 2) a real-time limitation of dI/dt to reduce the electromotive force in machine protection diagnostic systems; 3) implementation of a model predictive controller as an alternative to the proportional integral derivative; and 4) the possibility of adapting the current references, in real time, using an external system. The result is a flexible control system contributing toward state-of-the-art physics research at JET´s international and dynamic scientific environment.
Keywords :
Tokamak devices; plasma boundary layers; plasma diagnostics; plasma instability; plasma magnetohydrodynamics; plasma toroidal confinement; predictive control; ELM mitigation experiments; Joint European Torus Tokamak; coils; edge localized mode mitigation; edge localized mode suppression; electromotive force reduction; external magnetic perturbation control; intrinsic 3D error field correction; machine protection diagnostic systems; magnetic topology; plasma instability destabilization; predictive controller model; proportional integral derivative; real-time system; toroidally asymmetric perturbation generation; voltage-controlled voltage sources; Coils; Control systems; Linux; Magnetic resonance; Real-time systems; Tokamaks; Control; nuclear fusion; real time; real time.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2015.2388674