The impact of fuelling and W radiation on the performance of high-power, ITER-baseline scenario plasmas in JET-ILW

A. R. Field; S. Aleiferis; E. Belonohy; P. Carvalho; I. Coffey; D. Frigione; L. Garzotti; L. Horvath; Hyun Tae Kim; M. Lennholm; E. Lerche; P. Lomas; C. G. Lowry; J. Mailloux; F. Rimini; C. M. Roach; M. Sertoli; Štancar; G. Szepesi; D. Van Eester

doi:10.1088/1361-6587/ac1567

The impact of fuelling and W radiation on the performance of high-power, ITER-baseline scenario plasmas in JET-ILW

A. R. Field, S. Aleiferis, E. Belonohy, P. Carvalho, I. Coffey, D. Frigione, L. Garzotti, L. Horvath, Hyun Tae Kim, M. Lennholm, E. Lerche, P. Lomas, C. G. Lowry, J. Mailloux, F. Rimini, C. M. Roach, M. Sertoli, Štancar, G. Szepesi, D. Van Eester

Laboratory for Plasma Physics

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

Abstract

Sustained operation of high-performance, ITER-baseline scenario plasmas at the high levels of input power () required to achieve ∼15 MW of D-T fusion power in JET-ILW requires careful optimisation of the fuelling to avoid an unacceptable disruption rate due to excessive radiation, primarily from W impurities, which are sputtered by edge-localised modes (ELMs) from the divertor targets. By using a train of ELM-pacing pellets from a high-frequency pellet injector to promote regular ELMs, which flush W and other impurities from the confined plasma, such high-performance plasmas can be sustained (for ∼5 s) while maintaining a high normalised confinement factor H 98,y2 ∼ 1, which would otherwise be degraded by reducing the pedestal confinement if a higher rate of D2 gas fuelling were used instead of the pellets to mitigate the W contamination. The causes underlying the improved performance and energy confinement obtained using this combined, gas and pellet fuelling scheme is investigated here in some detail.

Original language	English
Article number	095013
Journal	Plasma Physics and Controlled Fusion
Volume	63
Issue number	9
DOIs	https://doi.org/10.1088/1361-6587/ac1567
Publication status	Published - Sept 2021

Keywords

H-mode
ITER-baseline
JET-ILW
fuelling
pellets
scenario
tungsten

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10.1088/1361-6587/ac1567

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Field, A. R., Aleiferis, S., Belonohy, E., Carvalho, P., Coffey, I., Frigione, D., Garzotti, L., Horvath, L., Kim, H. T., Lennholm, M., Lerche, E., Lomas, P., Lowry, C. G., Mailloux, J., Rimini, F., Roach, C. M., Sertoli, M., Štancar, Szepesi, G., & Van Eester, D. (2021). The impact of fuelling and W radiation on the performance of high-power, ITER-baseline scenario plasmas in JET-ILW. Plasma Physics and Controlled Fusion, 63(9), Article 095013. https://doi.org/10.1088/1361-6587/ac1567

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title = "The impact of fuelling and W radiation on the performance of high-power, ITER-baseline scenario plasmas in JET-ILW",

abstract = "Sustained operation of high-performance, ITER-baseline scenario plasmas at the high levels of input power () required to achieve ∼15 MW of D-T fusion power in JET-ILW requires careful optimisation of the fuelling to avoid an unacceptable disruption rate due to excessive radiation, primarily from W impurities, which are sputtered by edge-localised modes (ELMs) from the divertor targets. By using a train of ELM-pacing pellets from a high-frequency pellet injector to promote regular ELMs, which flush W and other impurities from the confined plasma, such high-performance plasmas can be sustained (for ∼5 s) while maintaining a high normalised confinement factor H 98,y2 ∼ 1, which would otherwise be degraded by reducing the pedestal confinement if a higher rate of D2 gas fuelling were used instead of the pellets to mitigate the W contamination. The causes underlying the improved performance and energy confinement obtained using this combined, gas and pellet fuelling scheme is investigated here in some detail.",

keywords = "H-mode, ITER-baseline, JET-ILW, fuelling, pellets, scenario, tungsten",

author = "Field, {A. R.} and S. Aleiferis and E. Belonohy and P. Carvalho and I. Coffey and D. Frigione and L. Garzotti and L. Horvath and Kim, {Hyun Tae} and M. Lennholm and E. Lerche and P. Lomas and Lowry, {C. G.} and J. Mailloux and F. Rimini and Roach, {C. M.} and M. Sertoli and {\v S}tancar and G. Szepesi and {Van Eester}, D.",

note = "Publisher Copyright: {\textcopyright} 2021 Crown copyright. Reproduced with the permission of the Controller of Her Majesty's Stationery Office..",

year = "2021",

month = sep,

doi = "10.1088/1361-6587/ac1567",

language = "English",

volume = "63",

journal = "Plasma Physics and Controlled Fusion",

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Field, AR, Aleiferis, S, Belonohy, E, Carvalho, P, Coffey, I, Frigione, D, Garzotti, L, Horvath, L, Kim, HT, Lennholm, M, Lerche, E, Lomas, P, Lowry, CG, Mailloux, J, Rimini, F, Roach, CM, Sertoli, M, Štancar, Szepesi, G & Van Eester, D 2021, 'The impact of fuelling and W radiation on the performance of high-power, ITER-baseline scenario plasmas in JET-ILW', Plasma Physics and Controlled Fusion, vol. 63, no. 9, 095013. https://doi.org/10.1088/1361-6587/ac1567

TY - JOUR

T1 - The impact of fuelling and W radiation on the performance of high-power, ITER-baseline scenario plasmas in JET-ILW

AU - Field, A. R.

AU - Aleiferis, S.

AU - Belonohy, E.

AU - Carvalho, P.

AU - Coffey, I.

AU - Frigione, D.

AU - Garzotti, L.

AU - Horvath, L.

AU - Kim, Hyun Tae

AU - Lennholm, M.

AU - Lerche, E.

AU - Lomas, P.

AU - Lowry, C. G.

AU - Mailloux, J.

AU - Rimini, F.

AU - Roach, C. M.

AU - Sertoli, M.

AU - Štancar,

AU - Szepesi, G.

AU - Van Eester, D.

PY - 2021/9

Y1 - 2021/9

N2 - Sustained operation of high-performance, ITER-baseline scenario plasmas at the high levels of input power () required to achieve ∼15 MW of D-T fusion power in JET-ILW requires careful optimisation of the fuelling to avoid an unacceptable disruption rate due to excessive radiation, primarily from W impurities, which are sputtered by edge-localised modes (ELMs) from the divertor targets. By using a train of ELM-pacing pellets from a high-frequency pellet injector to promote regular ELMs, which flush W and other impurities from the confined plasma, such high-performance plasmas can be sustained (for ∼5 s) while maintaining a high normalised confinement factor H 98,y2 ∼ 1, which would otherwise be degraded by reducing the pedestal confinement if a higher rate of D2 gas fuelling were used instead of the pellets to mitigate the W contamination. The causes underlying the improved performance and energy confinement obtained using this combined, gas and pellet fuelling scheme is investigated here in some detail.

AB - Sustained operation of high-performance, ITER-baseline scenario plasmas at the high levels of input power () required to achieve ∼15 MW of D-T fusion power in JET-ILW requires careful optimisation of the fuelling to avoid an unacceptable disruption rate due to excessive radiation, primarily from W impurities, which are sputtered by edge-localised modes (ELMs) from the divertor targets. By using a train of ELM-pacing pellets from a high-frequency pellet injector to promote regular ELMs, which flush W and other impurities from the confined plasma, such high-performance plasmas can be sustained (for ∼5 s) while maintaining a high normalised confinement factor H 98,y2 ∼ 1, which would otherwise be degraded by reducing the pedestal confinement if a higher rate of D2 gas fuelling were used instead of the pellets to mitigate the W contamination. The causes underlying the improved performance and energy confinement obtained using this combined, gas and pellet fuelling scheme is investigated here in some detail.

KW - H-mode

KW - ITER-baseline

KW - JET-ILW

KW - fuelling

KW - pellets

KW - scenario

KW - tungsten

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U2 - 10.1088/1361-6587/ac1567

DO - 10.1088/1361-6587/ac1567

M3 - Article

AN - SCOPUS:85113370830

SN - 0741-3335

VL - 63

JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

IS - 9

M1 - 095013

ER -

The impact of fuelling and W radiation on the performance of high-power, ITER-baseline scenario plasmas in JET-ILW

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Keywords

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