Title :
Operational status of the superconducting system for LHD
Author :
Mito, Toshiyuki ; Nishimura, Arata ; Yamada, Shuichi ; Imagawa, Shinsaku ; Takahata, Kazuya ; Yanagi, Nagato ; Chikaraishi, Hirotaka ; Tamura, Hitoshi ; Maekawa, Ryuji ; Motojima, Osamu
Author_Institution :
Nat. Inst. for Fusion Sci., Japan
fDate :
6/1/2003 12:00:00 AM
Abstract :
Large Helical Device (LHD) is a heliotron-type experimental fusion device which has the capability of confining current-less and steady-state plasma. The primary feature on the engineering aspect of LHD is using superconducting (SC) coils for magnetic confinement: two pool boiling helical coils (H1, H2) and three pairs of forced-flow poloidal coils (IV, IS, OV). These coils are connected to the power supplies by SC bus-lines. Five plasma experimental campaigns have been performed successfully in four years from 1998. The fifth operation cycle started in August 2001 and finished in March 2002. We have succeeded to obtain high plasma parameters such as 10 keV of electron temperature, 5 keV of ion temperature and beta value of 3.2%. The operational histories of the SC coils, the SC bus-lines and the cryogenic system have been demonstrating high reliability of the large scale SC system. The operational status and the results of device engineering experiments are summarized.
Keywords :
cryogenics; fusion reactors; plasma toroidal confinement; stellarators; superconducting coils; 10 keV; 5 keV; LHD superconducting system; Large Helical Device; cryogenic system; forced-flow poloidal coils; heliotron-type experimental fusion device; magnetic confinement; operational status; pool boiling helical coils; steady-state plasma confinement; superconducting bus-lines; superconducting coils; Electrons; Hydrogen; Magnetic confinement; Plasma confinement; Plasma devices; Plasma temperature; Power engineering and energy; Power supplies; Steady-state; Superconducting coils;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2003.812741
