Physics and technology in the ion-cyclotron range of frequency on Tore Supra and TITAN test facility: Implication for ITER

X. Litaudon, J. M. Bernard, L. Colas, R. Dumont, A. Argouarch, H. Bottollier-Curtet, S. Brémond, S. Champeaux, Y. Corre, P. Dumortier, M. Firdaouss, D. Guilhem, J. P. Gunn, Ph Gouard, G. T. Hoang, J. Jacquot, C. C. Klepper, M. Kubič, V. Kyrytsya, G. LombardD. Milanesio, A. Messiaen, P. Mollard, O. Meyer, D. Zarzoso

Research output: Contribution to journalArticlepeer-review

Abstract

To support the design of an ITER ion-cyclotron range of frequency heating (ICRH) system and to mitigate risks of operation in ITER, CEA has initiated an ambitious Research & Development program accompanied by experiments on Tore Supra or test-bed facility together with a significant modelling effort. The paper summarizes the recent results in the following areas: Comprehensive characterization (experiments and modelling) of a new Faraday screen concept tested on the Tore Supra antenna. A new model is developed for calculating the ICRH sheath rectification at the antenna vicinity. The model is applied to calculate the local heat flux on Tore Supra and ITER ICRH antennas. Full-wave modelling of ITER ICRH heating and current drive scenarios with the EVE code. With 20 MW of power, a current of ±400 kA could be driven on axis in the DT scenario. Comparison between DT and DT(3He) scenario is given for heating and current drive efficiencies. First operation of CW test-bed facility, TITAN, designed for ITER ICRH components testing and could host up to a quarter of an ITER antenna. R&D of high permittivity materials to improve load of test facilities to better simulate ITER plasma antenna loading conditions.

Original languageEnglish
Article number083012
JournalNuclear Fusion
Volume53
Issue number8
DOIs
Publication statusPublished - Aug 2013

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