Taniguchi Yoshinori

タニグチヨシノリ | Taniguchi Yoshinori

Affiliation and department：
Papers (13)：

Taniguchi Yoshinori, Mihara Takeshi, Kakiuchi Kazuo, Udagawa Yutaka. High-temperature rupture failure of high-burnup LWR-MOX fuel under a reactivity-initiated accident condition. Annals of Nuclear Energy. 2024. 195. 110144\_1-110144\_11
Mihara Takeshi, Kakiuchi Kazuo, Taniguchi Yoshinori, Udagawa Yutaka. Behavior of high-burnup BWR UO$_{2}$ fuel with additives under reactivity-initiated accident conditions. Journal of Nuclear Science and Technology. 2023. 60. 5. 512-525
Shimada Asako, Taniguchi Yoshinori, Kakiuchi Kazuo, Ohira Saki, Iida Yoshihisa, Sugiyama Tomoyuki, Amaya Masaki, Maruyama Yu. Radiochemical analysis of the drain water sampled at the exhaust stack shared by Units 1 and 2 of the Fukushima Daiichi Nuclear Power Station. Scientific Reports (Internet). 2022. 12. 1. 2086\_1-2086\_11
Taniguchi Yoshinori, Mihara Takeshi, Udagawa Yutaka. Simulation of the effect of radially oriented hydride precipitates on failure limit of high-burnup BWR fuel cladding under PCMI loading. Proceedings of TopFuel 2021 (Internet). 2021. 10
Mihara Takeshi, Kakiuchi Kazuo, Taniguchi Yoshinori, Udagawa Yutaka. Follow-up experimental study on causes of the low-enthalpy failure observed in the reactivity-initiated-accident-simulated test on LWR additive fuels. Proceedings of TopFuel 2021 (Internet). 2021. 10

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MISC (1)：

Taniguchi Yoshinori, Kakiuchi Kazuo, Amaya Masaki. Fuel Safety Research Meeting 2018. Kaku Nenryo. 2019. 54-1. 16-19

Lectures and oral presentations (13)：

Development of analytical model on high temperature oxidation behavior of Cr-coated accident tolerant fuel cladding
(事故耐性燃料開発に関するワークショップ)
Development of fuel performance code RANNS for analysis of accident conditions; High temperature oxidation behavior of Cr-coated accident tolerant fuel cladding
(日本原子力学会2023年秋の大会)
Study on the failure behavior of high-burnup fuels under reactivity initiated accident conditions (Analyses of the failure mode change observed on a PWR-MOX fuel and its occurrence condition)
(日本原子力学会2022年秋の大会)
High temperature rupture failure of M5 sheathed MOX fuel rod under high temperature and high pressure RIA transient
(Fuel Safety Research Meeting 2021 (FSRM 2021))
Overview of research activities of the Fuel Safety Research Group
(令和3年度原子力規制庁技術基盤グループ-原子力機構安全研究・防災支援部門合同研究成果報告会)

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