Tritium Experience in JT-60 DD Plasma Operation

Akira Oikawa; Naoyuki Miya; Kozo Kodama; Takashi Umehara; Takeshi Yamazaki; Kei Masaki; Isamu Akiyama; Kozo Matsushita; Nobuyuki Hosogane

doi:dx.doi.org/10.13182/FST02-A22661

/Create an Account

Home / Publications / Journals / Fusion Science and Technology / Volume 41 / Number 3P2

Tritium Experience in JT-60 DD Plasma Operation

Akira Oikawa, Naoyuki Miya, Kozo Kodama, Takashi Umehara, Takeshi Yamazaki, Kei Masaki, Isamu Akiyama, Kozo Matsushita, Nobuyuki Hosogane

Fusion Science and Technology / Volume 41 / Number 3P2 / May 2002 / Pages 612-616

Device, Facility, and Operation / Proceedings of the Sixth International Conference on Tritium Science and Technology Tsukuba, Japan November 12-16, 2001 / dx.doi.org/10.13182/FST02-A22661

pdf View or Purchase Article

Articles are hosted by Taylor and Francis Online.

Effluent of tritium in vacuum exhaust in JT-60 through the stack to environment always remains a level below detectable level (<10⁻⁵Bq/cm³ at the stack, <10⁻⁷Bq/cm³ at the site boundary). Though tritium concentration of drain water is below the limit of regulations of the local agreement and the law, small tritium contamination in the facility drain and in the rain drain of stack appeared occasionally. For a scheduled maintenance work of the in-vessel components, following an annual deuterium plasma discharge campaign, a 4-week no-deuterium (H or He) plasma discharge campaign and the succeeded ventilation by room air allow to reduce tritium on the interior surface of in-vessel components. This cleaning up shots and air introduction allowed workers to enter into the vacuum vessel. Air blow well tends to remove surface tritium elements and would be necessary before disassembly and replacement of components on vacuum pumping lines.