Deuterium pellets are injected into an initially pure hydrogen H-mode plasma in order to control the hydrogen: deuterium (H:D) isotope mixture. The pellets are deposited in the outer 20% of the minor radius, similar to that expected in ITER, creating transiently hollow electron density profiles. A H: D isotope mixture of approximately 45%:55% is obtained in the core with a pellet fuelling throughput of Phi(pel) = 0.045P(aux)/T-e,T-ped similar to previous pellet fuelling experiments in pure deuterium. Evolution of the H: D mix in the core is reproduced using a simple model, although deuterium transport could be higher at the beginning of the pellet train compared with the flat-top phase.

Control of the hydrogen:deuterium isotope mixture using pellets in JET / Valovič, M.; Baranov, Y.; Boboc, A.; Buchanan, J.; Citrin, J.; Delabie, E.; Frassinetti, L.; Fontdecaba, J. M.; Garzotti, L.; Giroud, C.; Mckean, R.; Lerche, E.; Kiptily, V.; Köchl, F.; Marin, M.; Maslov, M.; Menmuir, S.; Tvalashvili, G.; Weisen, H.; Subba, F.. - In: NUCLEAR FUSION. - ISSN 0029-5515. - 59:10(2019). [10.1088/1741-4326/ab3812]

Control of the hydrogen:deuterium isotope mixture using pellets in JET

Subba, F.
2019

Abstract

Deuterium pellets are injected into an initially pure hydrogen H-mode plasma in order to control the hydrogen: deuterium (H:D) isotope mixture. The pellets are deposited in the outer 20% of the minor radius, similar to that expected in ITER, creating transiently hollow electron density profiles. A H: D isotope mixture of approximately 45%:55% is obtained in the core with a pellet fuelling throughput of Phi(pel) = 0.045P(aux)/T-e,T-ped similar to previous pellet fuelling experiments in pure deuterium. Evolution of the H: D mix in the core is reproduced using a simple model, although deuterium transport could be higher at the beginning of the pellet train compared with the flat-top phase.
2019
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2986800