Yukie Yamamoto scite author profile

Yukie Yamamoto

2Publications

5Citation Statements Received

21Citation Statements Given

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National Institute for Fusion Science

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Development of an active tritium sampler for discriminating chemical forms without the use of combustion gases in a fusion test facility

Tanaka

Kato

Yamamoto

et al. 2017

Applied Radiation and Isotopes

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A new type of active tritium sampler that can discriminate between chemical forms in a fusion test facility without the use of combustion gases was developed. The proposed tritium sampler was operated using water vapour instead of combustion gases. To test the operation and performance of the device when water vapour is used, we evaluated the catalytic oxidation properties, and the evaporation and collection of water vapour under actual sampling conditions. The properties of the added water mass and the operation temperature of catalysts in the proposed sampling system were then determined. Thereafter, we carried out air sampling for tritium monitoring. The levels of tritium concentration measured by the proposed tritium sampling system were similar to the values measured by the conventional sampling system. Our findings show that the proposed tritium sampling system without combustion gases is a good replacement for the conventional tritium sampling system in a fusion test facility.

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Monitoring of Tritium Concentration by Simplified Active Sampler in a Fusion Test Facility

Tanaka

Yamamoto

Iwata

2018

Plasma and Fusion Research

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From the viewpoints of radiation management and public acceptance, the monitoring of tritium concentration in the stack is one of the key issues for the deuterium plasma experiment in the Large Helical Device (LHD). Since 2012, an active tritium sampler was employed in the stack to monitor the background levels of tritium and discriminate between its chemical forms. However, the operation procedure became complicated, so we developed a simplified active tritium sampler to reduce the work after sampling. In this sampler system, there was no discrimination between tritium chemical forms, instead, all tritium chemical forms were collected in one process. To verify the performance of the simplified active tritium sampler, tritium concentration data was compared with the existing tritium active sampler and environmental tritium data at the NIFS site. The results revealed a correlation between these tritium data. Therefore, the simplified active tritium sampler was applied in the stack with a primary monitoring system for the deuterium plasma experiment in the LHD.

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Yukie Yamamoto

Development of an active tritium sampler for discriminating chemical forms without the use of combustion gases in a fusion test facility

Monitoring of Tritium Concentration by Simplified Active Sampler in a Fusion Test Facility

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