ARIES-RS power core - recent development in Li/V designs

ARIES-RS power core - recent development in Li/V designs

The ARIES-RS fusion plant design study is based on reversed-shear (RS) physics with a Li/V (lithium breeder and vanadium structure) blanket. The reversed-shear discharge has been documented in many large tokamak experiments. The plasma in the RS mode has a high beta, low current, and low current dri...

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Veröffentlicht in:Fusion engineering and design 1998-09, Vol.41 (Pt B), p.371-376
Hauptverfasser: Sze, Dai-Kai, Billone, Michael C, Hua, Thanh Q, Tillack, Mark, Najmabadi, Farrokh, Wang, Xueren, Malang, Siegfried, El-Guebaly, Laila A, Sviatoslavsky, Igor N, Blanchard, James P, Crowell, Jeffrey A, Khater, Hesham Y, Mogahed, Elsayed A, Waganer, Lester M, Lee, Dennis, Cole, Dick
Format: Artikel
Sprache:eng
Schlagworte:
Accident prevention
Breeding blankets
Heat flux
High temperature operations
Lithium
Reactor cores
Tokamak devices
Tritium
Vanadium
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Zusammenfassung:The ARIES-RS fusion plant design study is based on reversed-shear (RS) physics with a Li/V (lithium breeder and vanadium structure) blanket. The reversed-shear discharge has been documented in many large tokamak experiments. The plasma in the RS mode has a high beta, low current, and low current drive requirement. Therefore, it is an attractive physics regime for a fusion power plant. The blanket system based on Li/V has high temperature operating capability, good tritium breeding, excellent high heat flux removal capability, long structural life time, low activation, low after heat and good safety characteristics. For these reasons, the ARIES-RS reactor study selected Li/V as the reference blanket. The combination of attractive physics and attractive blanket engineering is expected to result in a superior power plant design. This paper summarizes the power core design of the ARIES-RS power plant study.
ISSN:0920-3796