The radiated power limit in impurity seeded JET-ILW plasmas

A. Huber, M. Wischmeier, S. Wiesen, M. Bernert, A. V. Chankin, S. Aleiferis, S. Brezinsek, V. Huber, G. Sergienko, C. Giroud, M. Groth, S. Jachmich, Ch Linsmeier, B. Lomanowski, C. Lowry, G. F. Matthews, A. G. Meigs, Ph Mertens, S. Silburn, G. Telesca

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Résumé

The total radiated fraction is examined in high density H-mode plasmas (Greenwald fraction of about 85 %) in JET by the variation of the auxiliary heating power of Pheat = 14 MW-29 MW. An achieved radiation fraction of about 75 % at most has been observed in JET-ILW, which is less than the highest achievable (≈90 %) fraction in JET-C during the high radiative power scenarios with N2 seeding. It is shown that the maximal achievable total radiation fraction averaged over ELM cycles has a strong dependence on the radiation efficiency of the ELM energy, θrad: [Formula presented] About 50 % and 16 % of the ELM induced diamagnetic energy drop (ΔWELM) radiates during the ELM in JET-C and JET-ILW, respectively, which corresponds to the maximum total radiated powers of γrad,JET-Cmax=0.87 and γrad,JET-ILWmax=0.77. These values of the maximum of the radiative power fractions are in good agreement with γradmax experimentally observed in JET-C (90 %) and JET-ILW (75 %).

langue originaleAnglais
Numéro d'article101299
journalNuclear Materials and Energy
Volume33
Les DOIs
étatPublié - oct. 2022

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