Spherical torus plasma interactions with large-area liquid lithium surfaces in CDX-U

R. Kaita; R. Majeski; M. Boaz; P. Efthimion; B. Jones; D. Hoffman; H. Kugel; J. Menard; T. Munsat; A. Post-Zwicker; V. Soukhanovskii; J. Spaleta; G. Taylor; J. Timberlake; R. Woolley; L. Zakharov; M. Finkenthal; D. Stutman; G. Antar; R. Doerner; S. Luckhardt; R. Maingi; M. Maiorano; S. Smith

doi:10.1016/S0920-3796(02)00117-5

Spherical torus plasma interactions with large-area liquid lithium surfaces in CDX-U

R. Kaita^*, R. Majeski, M. Boaz, P. Efthimion, B. Jones, D. Hoffman, H. Kugel, J. Menard, T. Munsat, A. Post-Zwicker, V. Soukhanovskii, J. Spaleta, G. Taylor, J. Timberlake, R. Woolley, L. Zakharov, M. Finkenthal, D. Stutman, G. Antar, R. DoernerS. Luckhardt, R. Maingi, M. Maiorano, S. Smith

^*Corresponding author for this work

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

14 Scopus citations

Abstract

The current drive experiment-upgrade (CDX-U) device at the Princeton Plasma Physics Laboratory (PPPL) is a spherical torus (ST) dedicated to the exploration of liquid lithium as a potential solution to reactor first-wall problems such as heat load and erosion, neutron damage and activation, and tritium inventory and breeding. Initial lithium limiter experiments were conducted with a toroidally-local liquid lithium rail limiter (L3) from the University of California at San Diego (UCSD). Spectroscopic measurements showed a clear reduction of impurities in plasmas with the L3, compared to discharges with a boron carbide limiter. The evidence for a reduction in recycling was less apparent, however. This may be attributable to the relatively small area in contact with the plasma, and the presence of high-recycling surfaces elsewhere in the vacuum chamber. This conclusion was tested in subsequent experiments with a fully toroidal lithium limiter that was installed above the floor of the vacuum vessel. The new limiter covered over ten times the area of the L3 facing the plasma. Experiments with the toroidal lithium limiter have recently begun. This paper describes the conditioning required to prepare the lithium surface for plasma operations, and effect of the toroidal liquid lithium limiter on discharge performance.

Original language	English
Pages (from-to)	217-222
Number of pages	6
Journal	Fusion Engineering and Design
Volume	61-62
DOIs	https://doi.org/10.1016/S0920-3796(02)00117-5
State	Published - Nov 2002
Externally published	Yes

Keywords

Lithium limiter
Plasma-surface interactions
Spherical torus

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/S0920-3796(02)00117-5

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Kaita, R., Majeski, R., Boaz, M., Efthimion, P., Jones, B., Hoffman, D., Kugel, H., Menard, J., Munsat, T., Post-Zwicker, A., Soukhanovskii, V., Spaleta, J., Taylor, G., Timberlake, J., Woolley, R., Zakharov, L., Finkenthal, M., Stutman, D., Antar, G., ... Smith, S. (2002). Spherical torus plasma interactions with large-area liquid lithium surfaces in CDX-U. Fusion Engineering and Design, 61-62, 217-222. https://doi.org/10.1016/S0920-3796(02)00117-5

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title = "Spherical torus plasma interactions with large-area liquid lithium surfaces in CDX-U",

abstract = "The current drive experiment-upgrade (CDX-U) device at the Princeton Plasma Physics Laboratory (PPPL) is a spherical torus (ST) dedicated to the exploration of liquid lithium as a potential solution to reactor first-wall problems such as heat load and erosion, neutron damage and activation, and tritium inventory and breeding. Initial lithium limiter experiments were conducted with a toroidally-local liquid lithium rail limiter (L3) from the University of California at San Diego (UCSD). Spectroscopic measurements showed a clear reduction of impurities in plasmas with the L3, compared to discharges with a boron carbide limiter. The evidence for a reduction in recycling was less apparent, however. This may be attributable to the relatively small area in contact with the plasma, and the presence of high-recycling surfaces elsewhere in the vacuum chamber. This conclusion was tested in subsequent experiments with a fully toroidal lithium limiter that was installed above the floor of the vacuum vessel. The new limiter covered over ten times the area of the L3 facing the plasma. Experiments with the toroidal lithium limiter have recently begun. This paper describes the conditioning required to prepare the lithium surface for plasma operations, and effect of the toroidal liquid lithium limiter on discharge performance.",

keywords = "Lithium limiter, Plasma-surface interactions, Spherical torus",

author = "R. Kaita and R. Majeski and M. Boaz and P. Efthimion and B. Jones and D. Hoffman and H. Kugel and J. Menard and T. Munsat and A. Post-Zwicker and V. Soukhanovskii and J. Spaleta and G. Taylor and J. Timberlake and R. Woolley and L. Zakharov and M. Finkenthal and D. Stutman and G. Antar and R. Doerner and S. Luckhardt and R. Maingi and M. Maiorano and S. Smith",

year = "2002",

month = nov,

doi = "10.1016/S0920-3796(02)00117-5",

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Kaita, R, Majeski, R, Boaz, M, Efthimion, P, Jones, B, Hoffman, D, Kugel, H, Menard, J, Munsat, T, Post-Zwicker, A, Soukhanovskii, V, Spaleta, J, Taylor, G, Timberlake, J, Woolley, R, Zakharov, L, Finkenthal, M, Stutman, D, Antar, G, Doerner, R, Luckhardt, S, Maingi, R, Maiorano, M & Smith, S 2002, 'Spherical torus plasma interactions with large-area liquid lithium surfaces in CDX-U', Fusion Engineering and Design, vol. 61-62, pp. 217-222. https://doi.org/10.1016/S0920-3796(02)00117-5

TY - JOUR

T1 - Spherical torus plasma interactions with large-area liquid lithium surfaces in CDX-U

AU - Kaita, R.

AU - Majeski, R.

AU - Boaz, M.

AU - Efthimion, P.

AU - Jones, B.

AU - Hoffman, D.

AU - Kugel, H.

AU - Menard, J.

AU - Munsat, T.

AU - Post-Zwicker, A.

AU - Soukhanovskii, V.

AU - Spaleta, J.

AU - Taylor, G.

AU - Timberlake, J.

AU - Woolley, R.

AU - Zakharov, L.

AU - Finkenthal, M.

AU - Stutman, D.

AU - Antar, G.

AU - Doerner, R.

AU - Luckhardt, S.

AU - Maingi, R.

AU - Maiorano, M.

AU - Smith, S.

PY - 2002/11

Y1 - 2002/11

N2 - The current drive experiment-upgrade (CDX-U) device at the Princeton Plasma Physics Laboratory (PPPL) is a spherical torus (ST) dedicated to the exploration of liquid lithium as a potential solution to reactor first-wall problems such as heat load and erosion, neutron damage and activation, and tritium inventory and breeding. Initial lithium limiter experiments were conducted with a toroidally-local liquid lithium rail limiter (L3) from the University of California at San Diego (UCSD). Spectroscopic measurements showed a clear reduction of impurities in plasmas with the L3, compared to discharges with a boron carbide limiter. The evidence for a reduction in recycling was less apparent, however. This may be attributable to the relatively small area in contact with the plasma, and the presence of high-recycling surfaces elsewhere in the vacuum chamber. This conclusion was tested in subsequent experiments with a fully toroidal lithium limiter that was installed above the floor of the vacuum vessel. The new limiter covered over ten times the area of the L3 facing the plasma. Experiments with the toroidal lithium limiter have recently begun. This paper describes the conditioning required to prepare the lithium surface for plasma operations, and effect of the toroidal liquid lithium limiter on discharge performance.

AB - The current drive experiment-upgrade (CDX-U) device at the Princeton Plasma Physics Laboratory (PPPL) is a spherical torus (ST) dedicated to the exploration of liquid lithium as a potential solution to reactor first-wall problems such as heat load and erosion, neutron damage and activation, and tritium inventory and breeding. Initial lithium limiter experiments were conducted with a toroidally-local liquid lithium rail limiter (L3) from the University of California at San Diego (UCSD). Spectroscopic measurements showed a clear reduction of impurities in plasmas with the L3, compared to discharges with a boron carbide limiter. The evidence for a reduction in recycling was less apparent, however. This may be attributable to the relatively small area in contact with the plasma, and the presence of high-recycling surfaces elsewhere in the vacuum chamber. This conclusion was tested in subsequent experiments with a fully toroidal lithium limiter that was installed above the floor of the vacuum vessel. The new limiter covered over ten times the area of the L3 facing the plasma. Experiments with the toroidal lithium limiter have recently begun. This paper describes the conditioning required to prepare the lithium surface for plasma operations, and effect of the toroidal liquid lithium limiter on discharge performance.

KW - Lithium limiter

KW - Plasma-surface interactions

KW - Spherical torus

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SP - 217

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JO - Fusion Engineering and Design

JF - Fusion Engineering and Design

ER -

Spherical torus plasma interactions with large-area liquid lithium surfaces in CDX-U

Abstract

Keywords

UN SDGs

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