ELM mitigation by nitrogen seeding in the JET gas box divertor

J. Rapp; T. Eich; M. Von Hellermann; A. Herrmann; L. C. Ingesson; S. Jachmich; G. F. Matthews; V. Philipps; G. Saibene

doi:10.1088/0741-3335/44/6/302

ELM mitigation by nitrogen seeding in the JET gas box divertor

J. Rapp
, T. Eich
, M. Von Hellermann
, A. Herrmann
, L. C. Ingesson
, S. Jachmich
, G. F. Matthews
, V. Philipps
, G. Saibene

Laboratory for Plasma Physics

FORSCHUNGSZENTRUM JULICH GMBH
FOM-Instituut voor Plasmafysica 'Rijnhuizen'
Max Planck Institute for Plasma Physics
Culham Centre for Fusion Energy
EFDA CSU-Garching

Onderzoeksoutput: Bijdrage aan een tijdschrift › Congresartikel › peer review

46 Citaten (Scopus)

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One of the most severe problems for fusion reactors is the power load on the divertor target plates. Technically only power loads of less than 10 MW m^-2 are acceptable. However, strong edge localized mode (ELM) activity can lead to power loads in excess of 800 MW m^-2. In order to reduce the steady-state heat flux and the transient heat flux due to ELMs, radiation cooling experiments were performed at JET. Nitrogen was puffed into the divertor up to a radiative power fraction of 90%. This was achieved at a density of 0.85 times the Greenwald density (Greenwald M 1988 Nucl. Fusion 28 2199), while maintaining an H-factor of f_H98 = 0.82. The Z_eff in all those discharges stayed around 2.0. At approximately 55% radiative power fraction, the ELM characteristic changes from type I to type III, resulting in a loss of confinement of about 25% due to a degradation of the edge pedestal and hence a reduction of the ELM power load to the divertor tiles. By increasing the radiative power fraction to values of about 90%, the heat flux is reduced to 2 MW m^-2.

Originele taal-2	Engels
Artikelnummer	302
Pagina's (van-tot)	639-652
Aantal pagina's	14
Tijdschrift	Plasma Physics and Controlled Fusion
Volume	44
Nummer van het tijdschrift	6
DOI's	https://doi.org/10.1088/0741-3335/44/6/302
Status	Gepubliceerd - jun. 2002
Evenement	IAEA Technical Committee Meeting on Divertor Concepts - Aix-en-Provence, Frankrijk Duur: 11 sep. 2001 → 14 sep. 2001

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title = "ELM mitigation by nitrogen seeding in the JET gas box divertor",

abstract = "One of the most severe problems for fusion reactors is the power load on the divertor target plates. Technically only power loads of less than 10 MW m-2 are acceptable. However, strong edge localized mode (ELM) activity can lead to power loads in excess of 800 MW m-2. In order to reduce the steady-state heat flux and the transient heat flux due to ELMs, radiation cooling experiments were performed at JET. Nitrogen was puffed into the divertor up to a radiative power fraction of 90\%. This was achieved at a density of 0.85 times the Greenwald density (Greenwald M 1988 Nucl. Fusion 28 2199), while maintaining an H-factor of fH98 = 0.82. The Zeff in all those discharges stayed around 2.0. At approximately 55\% radiative power fraction, the ELM characteristic changes from type I to type III, resulting in a loss of confinement of about 25\% due to a degradation of the edge pedestal and hence a reduction of the ELM power load to the divertor tiles. By increasing the radiative power fraction to values of about 90\%, the heat flux is reduced to 2 MW m-2.",

author = "J. Rapp and T. Eich and \{Von Hellermann\}, M. and A. Herrmann and Ingesson, \{L. C.\} and S. Jachmich and Matthews, \{G. F.\} and V. Philipps and G. Saibene",

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T1 - ELM mitigation by nitrogen seeding in the JET gas box divertor

AU - Rapp, J.

AU - Eich, T.

AU - Von Hellermann, M.

AU - Herrmann, A.

AU - Ingesson, L. C.

AU - Jachmich, S.

AU - Matthews, G. F.

AU - Philipps, V.

AU - Saibene, G.

PY - 2002/6

Y1 - 2002/6

N2 - One of the most severe problems for fusion reactors is the power load on the divertor target plates. Technically only power loads of less than 10 MW m-2 are acceptable. However, strong edge localized mode (ELM) activity can lead to power loads in excess of 800 MW m-2. In order to reduce the steady-state heat flux and the transient heat flux due to ELMs, radiation cooling experiments were performed at JET. Nitrogen was puffed into the divertor up to a radiative power fraction of 90%. This was achieved at a density of 0.85 times the Greenwald density (Greenwald M 1988 Nucl. Fusion 28 2199), while maintaining an H-factor of fH98 = 0.82. The Zeff in all those discharges stayed around 2.0. At approximately 55% radiative power fraction, the ELM characteristic changes from type I to type III, resulting in a loss of confinement of about 25% due to a degradation of the edge pedestal and hence a reduction of the ELM power load to the divertor tiles. By increasing the radiative power fraction to values of about 90%, the heat flux is reduced to 2 MW m-2.

AB - One of the most severe problems for fusion reactors is the power load on the divertor target plates. Technically only power loads of less than 10 MW m-2 are acceptable. However, strong edge localized mode (ELM) activity can lead to power loads in excess of 800 MW m-2. In order to reduce the steady-state heat flux and the transient heat flux due to ELMs, radiation cooling experiments were performed at JET. Nitrogen was puffed into the divertor up to a radiative power fraction of 90%. This was achieved at a density of 0.85 times the Greenwald density (Greenwald M 1988 Nucl. Fusion 28 2199), while maintaining an H-factor of fH98 = 0.82. The Zeff in all those discharges stayed around 2.0. At approximately 55% radiative power fraction, the ELM characteristic changes from type I to type III, resulting in a loss of confinement of about 25% due to a degradation of the edge pedestal and hence a reduction of the ELM power load to the divertor tiles. By increasing the radiative power fraction to values of about 90%, the heat flux is reduced to 2 MW m-2.

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DO - 10.1088/0741-3335/44/6/302

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SN - 0741-3335

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JO - Plasma Physics and Controlled Fusion

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T2 - IAEA Technical Committee Meeting on Divertor Concepts

Y2 - 11 September 2001 through 14 September 2001

ER -

ELM mitigation by nitrogen seeding in the JET gas box divertor

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