T. Yamanishi , Y. Kawamura , Y. Iwai , T. Arita ,
T. Maruyama , T. Kakuta , S. Konishi , M. Enoeda ,
S. O'Hira , T. Hayashi , H. Nakamura ,
K. Kobayashi ,
T. Tadokoro , H. Nakamura , T. Ito , M. Yamada ,
T. Suzuki , M. Nishi , T. Nagashima , M. Ohta
Tritium Engineering Laboratory, Japan Atomic Energy Research
Institute, Tokai, Ibaraki, 319-1195 Japan
Abstract
The system composed of a palladium diffuser and an electrolytic
reactor was proposed, and was developed for a Fuel Cleanup system of ITER . The
performance of the system was studied in a stand-alone test in detail. A fuel
simulation loop of ITER was constructed by connecting the developed Fuel
Cleanup and Hydrogen Isotope Separation systems; and the function of each
system in the loop was demonstrated. For the tritium recovery from the exhaust
gas at He glow discharge cleaning of vacuum chamber of ITER, a cryogenic
molecular sieve bed system was proposed and demonstrated.
IAEA 1999