Optimization of pellet scenarios for long pulse fuelling to high densities at JET

P. T. Lang; B. Alper; L. R. Baylor; M. Beurskens; J. G. Cordey; R. Dux; R. Felton; L. Garzotti; G. Haas; L. D. Horton; S. Jachmich; T. T.C. Jones; P. J. Lomas; A. Lorenz; M. Maraschek; H. W. Müller; J. Ongena; J. Rapp; M. Reich; K. F. Renk; R. Sartori; G. Schmidt; M. Stamp; W. Suttrop; E. Villedieu

doi:10.1088/0029-5515/42/4/303

Optimization of pellet scenarios for long pulse fuelling to high densities at JET

P. T. Lang
, B. Alper
, L. R. Baylor
, M. Beurskens
, J. G. Cordey
, R. Dux
, R. Felton
, L. Garzotti
, G. Haas
, L. D. Horton
, S. Jachmich
, T. T.C. Jones
, P. J. Lomas
, A. Lorenz
, M. Maraschek
, H. W. Müller
, J. Ongena
, J. Rapp
, M. Reich
, K. F. Renk

R. Sartori, G. Schmidt, M. Stamp, W. Suttrop, E. Villedieu

Laboratory for Plasma Physics

Max-Planck-Institut für Plasmaphysik
Culham Centre for Fusion Energy
Oak Ridge National Laboratory
FOM-Instituut voor Plasmafysica 'Rijnhuizen'
Consorzio Rfx
FORSCHUNGSZENTRUM JULICH GMBH
Universität Regensburg
EFDA CSU-Garching
Princeton Plasma Physics Laboratory

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

23 Zitate (Scopus)

Abstract

Pellet injection was investigated for its fuelling capability to high densities in ELMy H mode discharges at JET. Applying the high field side launch system, optimized refuelling scenarios were developed on the basis of conventional discharge configurations with I_p = 2.5 MA, B_t = 2.4 T, averaged triangularity 〈δ〉 ≈ 0.34 and mainly neutral beam heating at a level of approximately 17 MW. The accessible operational range was extended with respect to gas puff refuelling by the use of pellet injection. For example, H mode conditions could be maintained at densities beyond the Greenwald level. Plasma energy confinement was observed to become density independent at high densities. Deep pellet particle deposition made possible the uncoupling of edge and core density, allowing more peaked density profiles. When confinement deterioration due to pellet triggered MHD activity or parasitic pellet borne gas was avoided in appropriate pulse schedules, an enhanced particle inventory was achieved while maintaining the plasma pressure profile. In a technical assessment it was found that there is still room for further enhancement of the injection scenario by improved adaptation to high density plasma operation.

Originalsprache	Englisch
Seiten (von - bis)	388-402
Seitenumfang	15
Fachzeitschrift	Nuclear Fusion
Jahrgang	42
Ausgabenummer	4
DOIs	https://doi.org/10.1088/0029-5515/42/4/303
Publikationsstatus	Veröffentlicht - Apr. 2002

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10.1088/0029-5515/42/4/303

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Lang, P. T., Alper, B., Baylor, L. R., Beurskens, M., Cordey, J. G., Dux, R., Felton, R., Garzotti, L., Haas, G., Horton, L. D., Jachmich, S., Jones, T. T. C., Lomas, P. J., Lorenz, A., Maraschek, M., Müller, H. W., Ongena, J., Rapp, J., Reich, M., ... Villedieu, E. (2002). Optimization of pellet scenarios for long pulse fuelling to high densities at JET. Nuclear Fusion, 42(4), 388-402. https://doi.org/10.1088/0029-5515/42/4/303

@article{ca293a4903bd4dc4806d41684ad6e23c,

title = "Optimization of pellet scenarios for long pulse fuelling to high densities at JET",

abstract = "Pellet injection was investigated for its fuelling capability to high densities in ELMy H mode discharges at JET. Applying the high field side launch system, optimized refuelling scenarios were developed on the basis of conventional discharge configurations with Ip = 2.5 MA, Bt = 2.4 T, averaged triangularity 〈δ〉 ≈ 0.34 and mainly neutral beam heating at a level of approximately 17 MW. The accessible operational range was extended with respect to gas puff refuelling by the use of pellet injection. For example, H mode conditions could be maintained at densities beyond the Greenwald level. Plasma energy confinement was observed to become density independent at high densities. Deep pellet particle deposition made possible the uncoupling of edge and core density, allowing more peaked density profiles. When confinement deterioration due to pellet triggered MHD activity or parasitic pellet borne gas was avoided in appropriate pulse schedules, an enhanced particle inventory was achieved while maintaining the plasma pressure profile. In a technical assessment it was found that there is still room for further enhancement of the injection scenario by improved adaptation to high density plasma operation.",

author = "Lang, \{P. T.\} and B. Alper and Baylor, \{L. R.\} and M. Beurskens and Cordey, \{J. G.\} and R. Dux and R. Felton and L. Garzotti and G. Haas and Horton, \{L. D.\} and S. Jachmich and Jones, \{T. T.C.\} and Lomas, \{P. J.\} and A. Lorenz and M. Maraschek and M{\"u}ller, \{H. W.\} and J. Ongena and J. Rapp and M. Reich and Renk, \{K. F.\} and R. Sartori and G. Schmidt and M. Stamp and W. Suttrop and E. Villedieu",

year = "2002",

month = apr,

doi = "10.1088/0029-5515/42/4/303",

language = "English",

volume = "42",

pages = "388--402",

journal = "Nuclear Fusion",

issn = "0029-5515",

number = "4",

}

Lang, PT, Alper, B, Baylor, LR, Beurskens, M, Cordey, JG, Dux, R, Felton, R, Garzotti, L, Haas, G, Horton, LD, Jachmich, S, Jones, TTC, Lomas, PJ, Lorenz, A, Maraschek, M, Müller, HW, Ongena, J, Rapp, J, Reich, M, Renk, KF, Sartori, R, Schmidt, G, Stamp, M, Suttrop, W & Villedieu, E 2002, 'Optimization of pellet scenarios for long pulse fuelling to high densities at JET', Nuclear Fusion, Jg. 42, Nr. 4, S. 388-402. https://doi.org/10.1088/0029-5515/42/4/303

TY - JOUR

T1 - Optimization of pellet scenarios for long pulse fuelling to high densities at JET

AU - Lang, P. T.

AU - Alper, B.

AU - Baylor, L. R.

AU - Beurskens, M.

AU - Cordey, J. G.

AU - Dux, R.

AU - Felton, R.

AU - Garzotti, L.

AU - Haas, G.

AU - Horton, L. D.

AU - Jachmich, S.

AU - Jones, T. T.C.

AU - Lomas, P. J.

AU - Lorenz, A.

AU - Maraschek, M.

AU - Müller, H. W.

AU - Ongena, J.

AU - Rapp, J.

AU - Reich, M.

AU - Renk, K. F.

AU - Sartori, R.

AU - Schmidt, G.

AU - Stamp, M.

AU - Suttrop, W.

AU - Villedieu, E.

PY - 2002/4

Y1 - 2002/4

N2 - Pellet injection was investigated for its fuelling capability to high densities in ELMy H mode discharges at JET. Applying the high field side launch system, optimized refuelling scenarios were developed on the basis of conventional discharge configurations with Ip = 2.5 MA, Bt = 2.4 T, averaged triangularity 〈δ〉 ≈ 0.34 and mainly neutral beam heating at a level of approximately 17 MW. The accessible operational range was extended with respect to gas puff refuelling by the use of pellet injection. For example, H mode conditions could be maintained at densities beyond the Greenwald level. Plasma energy confinement was observed to become density independent at high densities. Deep pellet particle deposition made possible the uncoupling of edge and core density, allowing more peaked density profiles. When confinement deterioration due to pellet triggered MHD activity or parasitic pellet borne gas was avoided in appropriate pulse schedules, an enhanced particle inventory was achieved while maintaining the plasma pressure profile. In a technical assessment it was found that there is still room for further enhancement of the injection scenario by improved adaptation to high density plasma operation.

AB - Pellet injection was investigated for its fuelling capability to high densities in ELMy H mode discharges at JET. Applying the high field side launch system, optimized refuelling scenarios were developed on the basis of conventional discharge configurations with Ip = 2.5 MA, Bt = 2.4 T, averaged triangularity 〈δ〉 ≈ 0.34 and mainly neutral beam heating at a level of approximately 17 MW. The accessible operational range was extended with respect to gas puff refuelling by the use of pellet injection. For example, H mode conditions could be maintained at densities beyond the Greenwald level. Plasma energy confinement was observed to become density independent at high densities. Deep pellet particle deposition made possible the uncoupling of edge and core density, allowing more peaked density profiles. When confinement deterioration due to pellet triggered MHD activity or parasitic pellet borne gas was avoided in appropriate pulse schedules, an enhanced particle inventory was achieved while maintaining the plasma pressure profile. In a technical assessment it was found that there is still room for further enhancement of the injection scenario by improved adaptation to high density plasma operation.

UR - https://www.scopus.com/pages/publications/0036531004

U2 - 10.1088/0029-5515/42/4/303

DO - 10.1088/0029-5515/42/4/303

M3 - Article

AN - SCOPUS:0036531004

SN - 0029-5515

VL - 42

SP - 388

EP - 402

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 4

ER -

Optimization of pellet scenarios for long pulse fuelling to high densities at JET

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