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In JET, Ar seeding has proven to be a successful means to reach quasi-stationary regimes that feature, simultaneously, high density, high confinement and an edge radiation belt without significant contamination of the plasma. A detailed analysis shows that in presence of centrally deposited Ion Cyclotron Resonance Heating Ar transport is modified, in the sense of a reduction of the inward pinch convection. Sawtooth crashes also hamper the accumulation of Ar in the core, though their contribution is less relevant compared to the effect of the ICRH. The analysis is carried out by means of a 1D impurity transport code, which has been applied to several Ar-seeded discharges. The result about the role of sawtooth crashes is independent on triangularity. In the high triangularity discharges, with continuous D refueling, the convection of impurities in the core region is typically very small so that ICRH injection itself has little relevance in the control of the Ar behaviour.

Simulation of the time behaviour of impurities in Jet Ar-seeded discharges and its relation with sawtoothing and RF heating

M E Puiatti;M Valisa;
2003

Abstract

In JET, Ar seeding has proven to be a successful means to reach quasi-stationary regimes that feature, simultaneously, high density, high confinement and an edge radiation belt without significant contamination of the plasma. A detailed analysis shows that in presence of centrally deposited Ion Cyclotron Resonance Heating Ar transport is modified, in the sense of a reduction of the inward pinch convection. Sawtooth crashes also hamper the accumulation of Ar in the core, though their contribution is less relevant compared to the effect of the ICRH. The analysis is carried out by means of a 1D impurity transport code, which has been applied to several Ar-seeded discharges. The result about the role of sawtooth crashes is independent on triangularity. In the high triangularity discharges, with continuous D refueling, the convection of impurities in the core region is typically very small so that ICRH injection itself has little relevance in the control of the Ar behaviour.
2003
Istituto gas ionizzati - IGI - Sede Padova
Inglese
45
2011
2024
Controlled thermonuclear fusion
plasma physics
impurity accumulation
radiofrequency heating
particle diffusion
The paper is the result of a collaboration between scientists operating at Consorzio RFX , one of the Italian Research Units part of the European Program on Controlled Thermonuclear Fusion, and the European Fusion Development Agreement (EFDA). It deals with the simulation of the argon behaviour in plasma discharges performed at JET (Joint European Torus), the large tokamak device operating under EFDA. Argon was injected into the plasma to radiatively dissipate a great fraction of the power at the edge, thus reducing the plasma-wall interaction This subject is of great interest in the perspective of the prediction of the impurity behaviour in ITER (the great tokamak under construction in international collaboration), where the impurity concentration tolerable in the plasma center is very low. The paper is published on the most important european journal on plasma physics, where the submitted papers are subjected to a referee procedure that guarantees their notoriety and originality.
2
info:eu-repo/semantics/article
262
M E Puiatti; M Valisa; M Mattioli; T Bolzonella; A Bortolon; I Coffey; R Dux; M von Hellermann; P MonierGarbet; M F F Nave; J Ongena; contributors to ...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/157976
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