Title :
Results of stability test in subcooled helium for the R&D coil of the LHD helical coil
Author :
Imagawa, S. ; Yanagi, N. ; Hishinuma, Y. ; Mito, T. ; Takahata, K. ; Chikaraishi, H. ; Tamura, H. ; Iwamoto, A. ; Hamaguchi, S. ; Seo, K. ; Yamada, S. ; Nishimura, A. ; Motojima, O.
Author_Institution :
National Inst. of Fusion Sci., Toki, Japan
fDate :
6/1/2004 12:00:00 AM
Abstract :
Helical coils of the Large Helical Device are pool-cooled superconducting magnets. The operating current is restricted below about 90% of the design current because a normal-zone has propagated dynamically at several times at almost the same current. In order to estimate the effect of lowering temperatures on the cryogenic stability, an R&D coil was made of the same conductor. The cryogenic stability of the R&D coil was examined in saturated and subcooled helium. A normal-zone was initiated by a heater inserted between the conductor and the layer to layer spacer. The propagation was detected by voltage taps. In saturated helium of 4.4 K and 0.12 MPa, the minimum current to begin propagation is 10.7 to 10.8 kA. It becomes higher at the lower temperature, and it exceeds 11.7 kA in subcooled helium of 3.5 K as a temperature inside the R&D coil.
Keywords :
aluminium; cooling; cryogenics; electric current; fusion reactor design; heat treatment; liquid helium; stability; stellarators; superconducting magnets; 0.12 MPa; 4.4 K; Al; He; LHD helical coil; Large Helical Device; R&D coil; aluminum stabilizer; cryogenic stability; dynamic stability; heater; minimum propagating current; normal-zone propagation; pool cooling; saturated helium; spacer; subcooled helium; superconducting magnets; temperature lowering effects; voltage taps; Conductors; Cryogenics; Helium; Research and development; Space heating; Stability; Superconducting coils; Superconducting magnets; Temperature; Testing; Aluminum stabilizer; dynamic stability; minimum propagating current; subcooled helium;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2004.830675
