Analysis of outgassing after Joint European Torus discharges under beryllium first wall conditionsFunded under: FP3-FUSION 11C
During the beryllium phase of JET, hydrogen (H(2), HD, D(2)), hydrocarbon (C(x)H(y)), and CO outgassing after discharges has been analysed by means of mass spectroscopy and penning gauges. This analysis has been performed over a period of up to 3000 s after ohmic and additionally heated limiter and X-point discharges. It has been found that the temporal behaviour of hydrogenic outgassing can be characterised by a uniform power law t(-n) with n = 0.73 +/- 0.1, which is independent of plasma operation parameters. This result is discussed in view of possible transport and retention mechanism in, and deuterium release mechanism from, plasma facing surfaces. It is concluded that several mechanisms can explain the release behaviour. However, one of the most plausible explanations is the accumulation of hydrogen in limiters and walls. Outgassing of hydrocarbon and CO were significantly lower under beryllium wall conditions as compared to the earlier, all carbon wall conditions.
Bibliographic Reference: Article: Journal of Vacuum Science Technology A, Vol. 11 (1993) No. 2, pp. 437-445
Record Number: 199410044 / Last updated on: 1994-11-28
Original language: en
Available languages: en