Optimization of JET-DT and ITER Operation by Developing an Understanding of the Role of Low- Z Impurity on the H-Mode Pedestal

Giroud, C.; 相羽, 信行; Chankin, A.; Hatch, D.; Kotschenreuther, M.; Moulton, D.; Parisi, J.; Parra, F.; Buller, S.; Challis, C.; Harrison, J.; Hilleshem, J.; Horvath, L.; Kim, H-T.; Frigione, D.; Lomanowski, B.; Militello, F.; Pamela, S.; Pusztai, I.; Refy, D.; Saarelma, S.; Stavrou, C.; Tal, B.; Barnes, M.; Belonohy, E.; Brezinsek, S.; Bowman, C.; Delabie, E.; Field, A.; Fontdecaba, J.; Huber, A.; Meigs, A.; Menmuir, S.; Simpson, J.; 相羽 信行

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Optimization of JET-DT and ITER Operation by Developing an Understanding of the Role of Low- Z Impurity on the H-Mode Pedestal

https://repo.qst.go.jp/records/54969

Item type

会議発表論文 / Conference Paper(1)

公開日

2019-01-29

タイトル

Optimization of JET-DT and ITER Operation by Developing an Understanding of the Role of Low- Z Impurity on the H-Mode Pedestal

言語

eng

資源タイプ

資源タイプ識別子

http://purl.org/coar/resource_type/c_5794

資源タイプ

conference paper

アクセス権

metadata only access

アクセス権URI

http://purl.org/coar/access_right/c_14cb

著者

Giroud, C.
相羽, 信行

Chankin, A.
Hatch, D.
Kotschenreuther, M.

Moulton, D.
Parisi, J.
Parra, F.
Buller, S.
Challis, C.
Harrison, J.
Hilleshem, J.
Horvath, L.
Kim, H-T.
Frigione, D.
Lomanowski, B.

Militello, F.
Pamela, S.
Pusztai, I.
Refy, D.
Saarelma, S.
Stavrou, C.
Tal, B.
Barnes, M.
Belonohy, E.
Brezinsek, S.
Bowman, C.
Delabie, E.
Field, A.
Fontdecaba, J.

Huber, A.
Meigs, A.
Menmuir, S.
Simpson, J.
相羽信行

抄録

内容記述タイプ

Abstract

内容記述

Robust predictions for the pedestal height in ITER require an understanding of the role of D-gas and impurity injection, such as N and Ne, on the pedestal temperature and density in JET-ILW both in terms of loss of pedestal pressure and/or temperature (with D-gas and Ne) as well as its improvement (with N or C). On JET-ILW, seeding Ne can result in either a decrease or increase on the pedestal density depending on pedestal collisionality and beta_N, but in all cases seeding Ne does not lead to an increase of temperature, unlike with C. Seeding C2D4 counteracts the electron temperature and density degradation of a high D-gas rate injection. The maximum normalised pressure gradient in the pedestal of the low and high-beta_N plasmas is within 20% of the critical normalised pressure gradient calculated a linear MHD code taking the effect of the ion diamagnetic effect and rotation on the stability. ETG instability is identified to be the dominant energy loss mechanism for the low and high-beta_N plasmas but can also drive instabilities in the ion scale level.

書誌情報

Proceedings of the 27th IAEA Fusion Energy Conference (FEC2018)

p. 347, 発行日 2018-10

出版者

International Atomic Energy Agency, Vienna

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2023-05-15 22:54:54.648210

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Optimization of JET-DT and ITER Operation by Developing an Understanding of the Role of Low- Z Impurity on the H-Mode Pedestal

× Giroud, C.

× 相羽, 信行

× Chankin, A.

× Hatch, D.

× Kotschenreuther, M.

× Moulton, D.

× Parisi, J.

× Parra, F.

× Buller, S.

× Challis, C.

× Harrison, J.

× Hilleshem, J.

× Horvath, L.

× Kim, H-T.

× Frigione, D.

× Lomanowski, B.

× Militello, F.

× Pamela, S.

× Pusztai, I.

× Refy, D.

× Saarelma, S.

× Stavrou, C.

× Tal, B.

× Barnes, M.

× Belonohy, E.

× Brezinsek, S.

× Bowman, C.

× Delabie, E.

× Field, A.

× Fontdecaba, J.

× Huber, A.

× Meigs, A.

× Menmuir, S.

× Simpson, J.

× 相羽 信行

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× 相羽信行