Global performance enhancements via pedestal optimisation on ASDEX Upgrade

M.G. Dunne; L. Frassinetti; M.N.A. Beurkens; M. Cavedon; S. Fietz; R. Fischer; L. Giannone; G.T.A. Huijsmans; B. Kurzan; F. Laggner; P.J. McCarhty; R.M. McDermott; G. Tardini; E. Viezzer; M. Willensdorfer; E. Wolfrum

doi:10.1088/1361-6587/59/2/025010

Global performance enhancements via pedestal optimisation on ASDEX Upgrade

M.G. Dunne
, L. Frassinetti
, M.N.A. Beurkens
, M. Cavedon
, S. Fietz
, R. Fischer
, L. Giannone
, G.T.A. Huijsmans
, B. Kurzan
, F. Laggner
, P.J. McCarhty
, R.M. McDermott
, G. Tardini
, E. Viezzer
, M. Willensdorfer
, E. Wolfrum

Research output: Contribution to journal › Article › Academic › peer-review

60 Citations (Scopus)

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Abstract

Results of experimental scans of heating power, plasma shape, and nitrogen content are presented, with a focus on global performance and pedestal alteration. In detailed scans at low triangularity, it is shown that the increase in stored energy due to nitrogen seeding stems from the pedestal. It is also shown that the confinement increase is driven through the temperature pedestal at the three heating power levels studied. In a triangularity scan, an orthogonal effect of shaping and seeding is observed, where increased plasma triangularity increases the pedestal density, while impurity seeding (carbon and nitrogen) increases the pedestal temperature in addition to this effect. Modelling of these effects was also undertaken, with interpretive and predictive models being employed. The interpretive analysis shows a general agreement of the experimental pedestals in separate power, shaping, and seeding scans with peeling-ballooning theory. Predictive analysis was used to isolate the individual effects, showing that the trends of additional heating power and increased triangularity can be recoverd. However, a simple change of the effective charge in the plasma cannot explain the observed levels of confinement improvement in the present models.

Original language	English
Article number	025010
Pages (from-to)	1-14
Number of pages	14
Journal	Plasma Physics and Controlled Fusion
Volume	59
Issue number	2
Early online date	20 Dec 2016
DOIs	https://doi.org/10.1088/1361-6587/59/2/025010
Publication status	Published - 1 Feb 2017

Keywords

experiment
impurity seeding
pedestal
peeling-ballooning
predictive
tokamak

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10.1088/1361-6587/59/2/025010

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Dunne, M. G., Frassinetti, L., Beurkens, M. N. A., Cavedon, M., Fietz, S., Fischer, R., Giannone, L., Huijsmans, G. T. A., Kurzan, B., Laggner, F., McCarhty, P. J., McDermott, R. M., Tardini, G., Viezzer, E., Willensdorfer, M., & Wolfrum, E. (2017). Global performance enhancements via pedestal optimisation on ASDEX Upgrade. Plasma Physics and Controlled Fusion, 59(2), 1-14. Article 025010. https://doi.org/10.1088/1361-6587/59/2/025010

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title = "Global performance enhancements via pedestal optimisation on ASDEX Upgrade",

abstract = "Results of experimental scans of heating power, plasma shape, and nitrogen content are presented, with a focus on global performance and pedestal alteration. In detailed scans at low triangularity, it is shown that the increase in stored energy due to nitrogen seeding stems from the pedestal. It is also shown that the confinement increase is driven through the temperature pedestal at the three heating power levels studied. In a triangularity scan, an orthogonal effect of shaping and seeding is observed, where increased plasma triangularity increases the pedestal density, while impurity seeding (carbon and nitrogen) increases the pedestal temperature in addition to this effect. Modelling of these effects was also undertaken, with interpretive and predictive models being employed. The interpretive analysis shows a general agreement of the experimental pedestals in separate power, shaping, and seeding scans with peeling-ballooning theory. Predictive analysis was used to isolate the individual effects, showing that the trends of additional heating power and increased triangularity can be recoverd. However, a simple change of the effective charge in the plasma cannot explain the observed levels of confinement improvement in the present models.",

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author = "M.G. Dunne and L. Frassinetti and M.N.A. Beurkens and M. Cavedon and S. Fietz and R. Fischer and L. Giannone and G.T.A. Huijsmans and B. Kurzan and F. Laggner and P.J. McCarhty and R.M. McDermott and G. Tardini and E. Viezzer and M. Willensdorfer and E. Wolfrum",

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Dunne, MG, Frassinetti, L, Beurkens, MNA, Cavedon, M, Fietz, S, Fischer, R, Giannone, L, Huijsmans, GTA, Kurzan, B, Laggner, F, McCarhty, PJ, McDermott, RM, Tardini, G, Viezzer, E, Willensdorfer, M & Wolfrum, E 2017, 'Global performance enhancements via pedestal optimisation on ASDEX Upgrade', Plasma Physics and Controlled Fusion, vol. 59, no. 2, 025010, pp. 1-14. https://doi.org/10.1088/1361-6587/59/2/025010

TY - JOUR

T1 - Global performance enhancements via pedestal optimisation on ASDEX Upgrade

AU - Dunne, M.G.

AU - Frassinetti, L.

AU - Beurkens, M.N.A.

AU - Cavedon, M.

AU - Fietz, S.

AU - Fischer, R.

AU - Giannone, L.

AU - Huijsmans, G.T.A.

AU - Kurzan, B.

AU - Laggner, F.

AU - McCarhty, P.J.

AU - McDermott, R.M.

AU - Tardini, G.

AU - Viezzer, E.

AU - Willensdorfer, M.

AU - Wolfrum, E.

PY - 2017/2/1

Y1 - 2017/2/1

N2 - Results of experimental scans of heating power, plasma shape, and nitrogen content are presented, with a focus on global performance and pedestal alteration. In detailed scans at low triangularity, it is shown that the increase in stored energy due to nitrogen seeding stems from the pedestal. It is also shown that the confinement increase is driven through the temperature pedestal at the three heating power levels studied. In a triangularity scan, an orthogonal effect of shaping and seeding is observed, where increased plasma triangularity increases the pedestal density, while impurity seeding (carbon and nitrogen) increases the pedestal temperature in addition to this effect. Modelling of these effects was also undertaken, with interpretive and predictive models being employed. The interpretive analysis shows a general agreement of the experimental pedestals in separate power, shaping, and seeding scans with peeling-ballooning theory. Predictive analysis was used to isolate the individual effects, showing that the trends of additional heating power and increased triangularity can be recoverd. However, a simple change of the effective charge in the plasma cannot explain the observed levels of confinement improvement in the present models.

AB - Results of experimental scans of heating power, plasma shape, and nitrogen content are presented, with a focus on global performance and pedestal alteration. In detailed scans at low triangularity, it is shown that the increase in stored energy due to nitrogen seeding stems from the pedestal. It is also shown that the confinement increase is driven through the temperature pedestal at the three heating power levels studied. In a triangularity scan, an orthogonal effect of shaping and seeding is observed, where increased plasma triangularity increases the pedestal density, while impurity seeding (carbon and nitrogen) increases the pedestal temperature in addition to this effect. Modelling of these effects was also undertaken, with interpretive and predictive models being employed. The interpretive analysis shows a general agreement of the experimental pedestals in separate power, shaping, and seeding scans with peeling-ballooning theory. Predictive analysis was used to isolate the individual effects, showing that the trends of additional heating power and increased triangularity can be recoverd. However, a simple change of the effective charge in the plasma cannot explain the observed levels of confinement improvement in the present models.

KW - experiment

KW - impurity seeding

KW - pedestal

KW - peeling-ballooning

KW - predictive

KW - tokamak

UR - https://www.scopus.com/pages/publications/85010366313

U2 - 10.1088/1361-6587/59/2/025010

DO - 10.1088/1361-6587/59/2/025010

M3 - Article

SN - 0741-3335

VL - 59

SP - 1

EP - 14

JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

IS - 2

M1 - 025010

ER -

Global performance enhancements via pedestal optimisation on ASDEX Upgrade

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