J.B. Whitley scite author profile

Strongly peaked electron density profiles have been obtained in ASDEX by different refuelling methods: pellet fuelling (ohmic and co-injection heating), NBI counter-injection and recently by reduced gas puff fuelling scenarios. These discharges show in common increased density limits, a canonical electron temperature profile independent of the density profile and an improvement of the particle and energy confinement. Whereas the changes in particle transport are not fully understood, transport analyses point out that the improved energy transport can be explained by reduced ion conduction losses coming close to the neoclassical ones. The different results for the ion transport with flat and peaked density profiles are quantitatively consistent with that expected from qi-driven modes. The analyses cannot yet explain the anomalous electron energy transport, apart from identified continuous trends such as inverse scaling with the isotope mass and enhancement with heating power.

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The beryllium limiter experiment in ISX-B

Mioduszewski¹,

Edmonds²,

Bush³

et al. 1986

Nucl. Fusion

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An experiment to test beryllium as a limiter material has been performed in the ISX-B tokamak. The effect of the plasma on the limiter and the effect of the limiter on the plasma were studied in detail. Heat and particle fluxes to the limiter were measured, and limiter damage by melting was documented as a function of power flux. Strong melting and evaporation of the limiter caused beryllium gettering of the vacuum vessel. Postmortem analysis of the limiter was performed to document the amount of retained hydrogen and the erosion and impurity deposition on the limiter. The effect of the limiter on the plasma performance was studied in terms of parameter space, impurity content, and confinement for the ungettered and gettered cases. Operational experience with beryllium in a fusion experiment is discussed.

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Particle removal with pump limiters in ISX-B

Mioduszewski

Emerson

Simpkins

et al. 1984

Journal of Nuclear Materials

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J.B. Whitley

Beryllium—a better tokamak plasma‐facing material?

Initial alt-i pump limiter studies on TEXTOR

Auxiliary heated multipellet-fuelled discharges in ASDEX and influence of density profile shape on confinement

The beryllium limiter experiment in ISX-B

Particle removal with pump limiters in ISX-B

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