Improved confinement with edge radiative cooling at high densities and high heating power in TEXTOR

A. M. Messiaen, J. Ongena, U. Samm, B. Unterberg, P. E. Vandenplas, G. Van Oost, G. Van Wassenhove, J. Winter, D. Boucher, P. Dumortier, F. Durodie, H. G. Esser, H. Euringer, B. Giesen, E. Hintz, M. Lochter, M. Z. Tokar, G. H. Wolf, G. Fuchs, D. L. HillisF. Hoenen, P. Huttemann, R. Koch, L. Konen, H. R. Koslowski, A. Kramer-Flecken, D. Pettiaux, A. Pospieszczyk, B. Schweer, H. Soltwisch, G. Telesca, R. Uhlemann, R. Van Nieuwenhove, M. Vervier, G. Waidmann, R. R. Weynants

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Résumé

Improved confinement is achieved on TEXTOR under high power conditions (up to 4 MW of additional heating with NBI-co+ICRH, NBI-co+counter or NBI-co+counter+ICRH) with edge radiative cooling employing silicon or neon as the radiating impurities. It is shown that in quasi-stationary conditions up to 85% of the input power can be radiated. Such high power fractions offer the possibility of utilizing these techniques to facilitate the power exhaust problem for a Tokamak reactor. Discharges with edge radiative cooling exhibit enhanced confinement properties at high densities, e.g. at a central line averaged electron density of 7.5*1013 cm-3, an enhancement factor of 1.7 over ITER L89-P confinement scaling is obtained with an edge q value as low as 2.7. Stable discharges have been obtained even with the q=2 surface located inside the radiating zone. Furthermore, for radiatively cooled discharges heated with balanced NBI-co+counter with or without ICRH, supershot-like peaked electron density profiles, with central density values above 1.0*1014 cm-3 are observed. The present results show that there is no impurity accumulation in the centre and the Ne and/or Si concentration is so low that the reactivity of the plasma remains unaffected.

langue originaleAnglais
Numéro d'articleI06
Pages (de - à)825-836
Nombre de pages12
journalNuclear Fusion
Volume34
Numéro de publication6
Les DOIs
étatPublié - 1994

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