Wall conditioning by ECRH discharges and He-GDC in the limiter phase of Wendelstein 7-X

T. Wauters, R. Brakel, S. Brezinsek, A. Dinklage, A. Goriaev, H. P. Laqua, S. Marsen, D. Moseev, T. Stange, G. Schlisio, T. Sunn Pedersen, O. Volzke, U. Wenzel

Publikation: Beitrag in FachzeitschriftArtikelBegutachtung

Abstract

Wendelstein 7-X (W7-X) relies on wall conditioning to control the density and the impurity content of the plasma. Wall conditioning in the first operation campaign of W7-X consisted of baking at 150 °C during 1 week prior to operation, glow discharge conditioning (GDC) in helium (He) and electron cyclotron resonance heating (ECRH) discharges. Additionally, the usage of He-GDC was limited to avoid sputtering and migration of metallic plasma facing components. This presented a unique opportunity for studying the applicability of ECRH discharges for initial wall conditioning on a stellarator, albeit in the carbon limiter configuration. A single envelope curve is observed in the normalised outgassing data that takes into account all ECRH discharges. This illustrates that the majority of discharges operates at the limits of a radiative collapse. Hydrogen recycling dominated the fuelling of ECRH discharges throughout while CO outgassing was found strongest at the start of the campaign. A reduction of recycling was observed throughout the campaign. Temporarily depleting the walls from H and impurities was possible by He-GDC. It was shown that the recycling coefficient in H2-ECRH plasmas could be reduced and the pulse duration significantly extended by He-recovery ECRH plasmas. Good wall conditions were defined by normalised outgassing values below 1 × 10-9 mbar kJ-1. In absence of H2-GDC, more than 311 cumulated discharge seconds of ECRH discharges are needed for obtaining lasting low outgassing levels. A release model with two trapping reservoirs could reproduce the normalised outgassing trend, including ECRH and GDC plasma wall interactions.

OriginalspracheEnglisch
Aufsatznummer066013
FachzeitschriftNuclear Fusion
Jahrgang58
Ausgabenummer6
DOIs
PublikationsstatusVeröffentlicht - 20 Apr. 2018

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