Developing high performance RF heating scenarios on the WEST tokamak

Goniche, M.; Ostuni, V.; Bourdelle, C.; Maget, P.; Artaud, J.F.; Bernard, J.M.; Bobkov, V.; Bucalossi, J.; Clairet, F.; Colas, L.; Desgranges, C.; Delpech, L.; Devynck, P.; Dumont, R.; Ekedahl, A.; Fedorczak, N.; Garcia, J.; Gaspar, J.; Gil, C.; Guillemaut, C.; Gunn, J.; Hillairet, J.; Klepper, C.; Lau, C.; Lerche, E.; Lombard, G.; Manas, P.; Martin, E.H.; Mazon, D.; Meyer, O.; Morales, J.; Moreau, Ph.; Nardon, E.; Nouailletas, R.; Pegourié, B.; Peret, M.; Peysson, Y.; Regal-Mezin, X.; Sabot, R.; Shiraiwa, S.; Urbanzyck, G.; Vermare, L.; Vezinet, D.; Wallace, Greg M.; WEST Team

Author(s)

Goniche, M.; Ostuni, V.; Bourdelle, C.; Maget, P.; Artaud, J.F.; ... Show more

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Abstract

High power experiments, up to 9.2 MW with LHCD and ICRH, have been carried out in the full tungsten tokamak WEST. Quasi non inductive discharges have been achieved allowing to extend the plasma duration to 53s with stationary conditions in particular with respect to tungsten contamination. Transitions in H mode are obtained lasting up to 4s with weak energy increment at the power crossing the separatrix is close to the threshold. Hot L mode plasmas (Te(0)>3keV) with a confinement time following the ITER L96 scaling are routinely obtained. The weak aspect ratio dependence of this scaling law is confirmed. Tungsten accumulation is generally not an operational issue on WEST. Difficulty of burning through tungsten can prevent from accessing to a hot core plasma in the ramp-up phase or can lead to rapid collapse of the central temperature when radiation is enhanced by a slight decrease of the temperature. Apart few pulses post-boronization, the plasma radiation is rather high (Prad/Ptot~50%) and is dominated by tungsten. This fraction does not vary as the RF power is ramped up and is quite similar in ICRH and/or LHCD heated plasmas. An estimate of the contribution of the RF antennas to the plasma contamination in tungsten is given.

Description

Submitted for publication in Nuclear Fusion

Date issued

2022-02

URI

https://hdl.handle.net/1721.1/158680

Department

Massachusetts Institute of Technology. Plasma Science and Fusion Center

Journal

Nuclear Fusion

Publisher

IOP

Other identifiers

22ja002

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