@article{oai:repo.qst.go.jp:00048581,
 author = {枝尾, 祐希 and 岩井, 保則 and 佐藤, 克美 and 林, 巧 and 枝尾 祐希 and 岩井 保則 and 佐藤 克美 and 林 巧},
 journal = {Fusion Engineering and Design},
 month = {Nov},
 note = {A method combined oxidation catalytic reactor and water bubbler is the most quantitative analysis method for gaseous tritium. We developed a tritium measurement system with high accuracy using an organic-based hydrophobic platinum catalyst previously. However, the previous measurement system had a shortcoming that the catalyst was combustible over 100oC. To overcome the shortcoming, we developed an inorganic-based hydrophobic platinum catalyst (Pt/SiO2) which was noncombustible. The developed Pt/SiO2 catalyst was specially enhanced the hydrophobicity to prevent adsorption of water vapor on the surface of catalyst. To oxidize tritium efficiently, the particle diameter of 1mmwas selected for the catalyst and hydrogen was intentionally added at the inlet of the catalytic reactor to be the optimal concentration for oxidation. The performance tests showed that a modified quantitative tritium analysis system using by the hydrophobic Pt/SiO2 catalyst provides tritium measurement with high accuracy more than 99.9%. We have confirmed the modified quantitative tritium analysis system is available in various conditions.},
 pages = {818--821},
 title = {Performance of tritium analysis system using inorganic-based hydrophobic platinum catalyst},
 volume = {124},
 year = {2017}
}