Yoshida Kazuo

ヨシダカズオ | Yoshida Kazuo

Affiliation and department：
Papers (18)：

Yoshida Kazuo, Tamaki Hitoshi, Yoshida Naoki, Yoshida Ryoichiro, Amano Yuki, Abe Hitoshi. Analysis of chemical behavior of nitrogen oxide formed by thermal decomposition of FP nitrates in accident of evaporation to dryness by boiling of reprocessed high-level liquid waste. Nippon Genshiryoku Gakkai Wabun Rombunshi. 2019. 18. 2. 69-80
Tamaki Hitoshi, Yoshida Kazuo, Abe Hitoshi, Sugiyama Tomoyuki, Maruyama Yu. Current status of research for the accident of evaporation to dryness caused by boiling of reprocessed high level radioactive liquid waste. Proceedings of Asian Symposium on Risk Assessment and Management 2017 (ASRAM 2017) (USB Flash Drive). 2017. 9
Yamane Yuichi, Amano Yuki, Tashiro Shinsuke, Abe Hitoshi, Uchiyama Gunzo, Yoshida Kazuo, Ishikawa Jun. Release of radioactive materials from high active liquid waste in small-scale hot test for boiling accident in reprocessing plant. Journal of Nuclear Science and Technology. 2016. 53. 6. 783-789
Yoshida Kazuo, Ishikawa Jun, Abe Hitoshi. Analysis of release and transport of aerial radioactive materials in accident of evaporation to dryness caused by boiling of reprocessed high-level liquid waste. Nihon Genshiryoku Gakkai Wabun Rombunshi. 2015. 14. 4. 213-226
Tashiro Shinsuke, Amano Yuki, Yoshida Kazuo, Yamane Yuichi, Uchiyama Gunzo, Abe Hitoshi. Release Characteristics of Ruthenium from Highly Active Liquid Waste in Drying Step. Nihon Genshiryoku Gakkai Wabun Rombunshi. 2015. 14. 4. 227-234

ｍore...

MISC (64)：

Yoshida Kazuo, Tamaki Hitoshi, Hiyama Mina*. Development of analytical approach of source term for accident of evaporation to dryness by boiling of reprocessed high level liquid waste. JAEA-Research 2023-001. 2023. 26
Yoshida Kazuo, Tamaki Hitoshi, Hiyama Mina*. Development of simulation program; SHAWED for analysis of accident of evaporation to dryness by boiling of reprocessed high level liquid waste in tank. JAEA-Research 2022-011. 2022. 37
Yoshida Kazuo, Tamaki Hitoshi, Hiyama Mina*. Analysis of risk reduction effect of supposed steam condenser implementation as accident measure for accident of evaporation to dryness by boiling of reprocessed high level liquid waste. JAEA-Research 2021-013. 2022. 20
Yoshida Kazuo, Tamaki Hitoshi, Hiyama Mina*. SCHERN-V2: Technical guide of computer program for chemical behavior in accident of evaporation to dryness by boiling of reprocessed high level liquid waste in Fuel Reprocessing Facilities. JAEA-Data/Code 2021-008. 2021. 35
Yoshida Kazuo, Tamaki Hitoshi, Hiyama Mina*. Analysis of behavior of Ru with nitrogen oxide chemical behavior in accident of evaporation to dryness by boiling of reprocessed high level liquid waste. JAEA-Research 2021-005. 2021. 25

ｍore...

Lectures and oral presentations (28)：

Detailed risk assessment with thermal-hydraulics for nuclear fuel facilities
(日本原子力学会2020年春の年会)
Overview of studies conducted at the JAEA on evaporation to dryness accidents of high-level liquid waste in reprocessing plant
(OECD/NEA/CSNI/WGFCS International Workshop on Developments in Safety Assessment Approaches and Safety Management Practices of Fuel Cycle Facilities)
A New standard of systematic procedures for risk assessment of nuclear fuel
(日本原子力学会2017年秋の大会)
Report on PHASE II activities conducted by Working Group of Study on Severe Accidents of Fuel Cycle Facilities, 2; Evaporation to dryness of waste solution
(日本原子力学会2016年秋の大会)
Extension and enhancement of risk assessment, 3; Risk assessment of nuclear fuel cycle facilities
(日本原子力学会2015年春の年会)

ｍore...

※ Researcher’s information displayed in J-GLOBAL is based on the information registered in researchmap. For details, see here.

Return to Previous Page