Sato Takumi

サトウタクミ | Sato Takumi

Affiliation and department：
Papers (7)：

Yamashita Susumu, Sato Takumi, Nagae Yuji, Kurata Masaki, Yoshida Hiroyuki. Numerical simulation method using a Cartesian grid for oxidation of core materials under steam-starved conditions. Journal of Nuclear Science and Technology. 2023. 60. 9. 1029-1045
Shirasu Noriko, Sato Takumi, Suzuki Akihiro*, Nagae Yuji, Kurata Masaki. Study on chemical interaction between UO$_{2}$ and Zr at precisely controlled high temperatures. Journal of Nuclear Science and Technology. 2023. 60. 6. 697-714
Sato Takumi, Nagae Yuji, Kurata Masaki, Quaini A.*, Gu\'eneau C.*. Thermodynamic analysis for solidification path of simulated ex-vessel corium. CALPHAD; Computer Coupling of Phase Diagrams and Thermochemistry. 2022. 79. 102481\_1-102481\_11
Yamashita Takuya, Sato Takumi, Madokoro Hiroshi, Nagae Yuji. BWR lower head penetration failure test focusing on eutectic melting. Annals of Nuclear Energy. 2022. 173. 109129\_1-109129\_15
Sudo Ayako, Sato Takumi, Ogi Hiroshi, Takano Masahide. Experimental evaluation of Sr and Ba distribution in ex-vessel debris under a temperature gradient. Journal of Nuclear Science and Technology. 2021. 58. 4. 473-481

ｍore...

MISC (2)：

Ikeuchi Hirotomo, Sasaki Shinji, Onishi Takashi, Nakayoshi Akira, Arai Yoichi, Sato Takumi, Ohgi Hiroshi, Sekio Yoshihiro, Yamaguchi Yukako, Morishita Kazuki, et al. Analysis of deposits inside the reactor at Fukushima Daiichi Nuclear Power Station in JFY2021; The Subsidy program of "Project of Decommissioning and Contaminated Water Management (Development of Analysis and Estimation Technology for Characterization of Fuel Debris)" starting FY2021. JAEA-Data/Code 2023-005. 2023. 418
Sudo Ayako, M\'esz\'aros B.*, Sato Takumi, Nagae Yuji. Segregation of components of molten core oxidic materials using cold crucible induction heating technique (Joint research). JAEA-Research 2023-007. 2023. 31

Lectures and oral presentations (17)：

Clarification of debris formation conditions on the basis of the sampling data and experimental study using simulated fuel debris, 5; Damage behavior of lower plenum due to reaction with metallic debris
(日本原子力学会2024年春の年会)
Clarification of debris formation conditions on the basis of the sampling data and experimental study using simulated fuel debris, 6; Evaluation of damage by reaction between metallic debris and structural materials in lower plenum
(日本原子力学会2024年春の年会)
Phenomenological damage behavior of BWR pressure vessel by reaction between metal debris and structural materials
(Materials Modelling and Simulation for Nuclear Fuel (MMSNF) Workshop 2023)
Metal-rich debris formation by solid-liquid reaction in RPV during BWR severe accident progression, 3; Failure behavior of lower plenum due to reaction with metal-rich debris
(日本原子力学会2023年秋の大会)
BWR lower plenum damage by reaction between metallic debris and structural materials
(7th International Forum on the Decommissioning of the Fukushima Daiichi Nuclear Power Station)

ｍore...

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

Return to Previous Page