@article{CTT100862579, author = {Takeshi Muramoto and Jun Nishiyama and Toru Obara}, title = {Granular fuel debris shape modeling in MPS-DEM for the simulation of fuel debris bed formation in water}, journal = {Journal of Nuclear Science and Technology}, year = 2022, } @article{CTT100860992, author = {Kodai Fukuda and Takeshi Muramoto and Jun Nishiyama and Toru Obara}, title = {Impact of neutron generation time on released energy in falling fuel debris at supercritical condition}, journal = {Journal of Nuclear Science and Technology}, year = 2022, } @article{CTT100857983, author = {Takeshi Muramoto and Jun Nishiyama and Toru Obara}, title = {Characteristics of reactivity change as fuel debris falls in water}, journal = {Progress in Nuclear Energy}, year = 2021, } @article{CTT100834891, author = {P.A. Pugachev and E.V. Bogdanova and I.S. Saldikov and A.D. Smirnov and M.Y. Ternovykh and G.V. Tikhomirov and H. Takezaw and T. Muramoto and J. Nishiyama and T. Obara}, title = {Visualization of neutron characteristics distribution of debris particles}, journal = {Scientific Visualization}, year = 2020, } @article{CTT100832947, author = {Anton D. Smirnov and Ekaterina V. Bogdanova and Pavel A. Pugachev and Ivan S. Saldikov and Mikhail Yu. Ternovykh and Georgy V. Tikhomirov and Hiroki Takezawa and Takeshi Muramoto and Jun Nishiyama and Toru Obara}, title = {Neutronic modeling of a subcritical system with corium particles and water (from international benchmark)}, journal = {Nuclear Energy and Technology}, year = 2020, } @article{CTT100793307, author = {Takeshi Muramoto and Jun Nishiyama and Toru Obara}, title = {Numerical analysis of criticality of fuel debris falling in water}, journal = {Annals of Nuclear Energy}, year = 2019, } @inproceedings{CTT100884000, author = {Toru Obara and Taro Fumimoto and Takeshi Muramoto and Jun Nishiyama}, title = {Criticality Analysis of Fuel Debris Falling in Water Considering Water Surface Oscillation}, booktitle = {Transactions of the American Nuclear Society}, year = 2022, } @inproceedings{CTT100845511, author = {Toru OBARA and Jun Nishiyama and Takeshi Muramoto and Taro Fumimoto and Hiroki Takezawa and Anton D. Smirnov and Ekaterina V. Bogdanova and Pavel A. Pugachev and Ivan S. Saldikov and Mikhail Yu. Ternovykh and Georgy Tikhomirov}, title = {日露共同研究による燃料デブリ臨界安全解析}, booktitle = {Proc. of 2021 Annual meeting of Atomic Energy Society of Japan}, year = 2021, } @inproceedings{CTT100845512, author = {Taro Fumimoto and Takeshi Muramoto and Jun Nishiyama and Toru OBARA}, title = {Criticality safety analysis in fuel debris falling down simulation using MPS in real scale geometry}, booktitle = {Proc. of 2021 Annual meeting of Atomic Energy Society of Japan}, year = 2021, } @inproceedings{CTT100845513, author = {Kodai Fukuda and Takeshi Muramoto and Jun Nishiyama and Toru OBARA}, title = {Effect of neutron Generation Time on Supercritical Transient Analysis in Fuel Debris during Falling Down in Water}, booktitle = {Proc. of 2021 Annual meeting of Atomic Energy Society of Japan}, year = 2021, } @inproceedings{CTT100832037, author = {Takeshi Muramoto and Jun Nishiyama and Toru OBARA}, title = {Development of Criticality Evaluation Method of Fuel Debris Bed Formation Process by Falling in Water -Modeling of Granular Fuel Debris Shape by Parameter Calibration of Particle Method Applying Optimization Method-}, booktitle = {Proc. of 2020 Autumn meeting of Atomic Energy Society of Japan}, year = 2020, } @inproceedings{CTT100820498, author = {Takeshi Muramoto and Jun Nishiyama and Toru OBARA}, title = {Criticality Safety Evaluation of Powder Fuel Debris using DEM and MPS Method}, booktitle = {Proc. of 2020 Annual meeting of Atomic Energy Society of Japan}, year = 2020, } @inproceedings{CTT100832969, author = {福田 貴斉 and Tomohiro Okamura and 大杉 遥 and 左藤 維摩 and Takeshi Muramoto}, title = {学生連絡会六ケ所原子力施設見学会の活動報告}, booktitle = {}, year = 2019, } @inproceedings{CTT100810735, author = {Takeshi Muramoto and Jun Nishiyama and Toru Obara}, title = {Development of Criticality Safety Evaluation Method Based on the Actual Dynamic Behavior of the Fuel Debris in Water}, booktitle = {Proc. of Reactor Physics Asia Conference 2019 (RPHA19)}, year = 2019, } @inproceedings{CTT100806373, author = {Takeshi Muramoto and Jun Nishiyama and Toru Obara}, title = {Numerical analysis of criticality of fuel debris falling in water by coupling computational fluid dynamics and the continuous energy Monte Carlo code}, booktitle = {Proc. of ICNC2019 – 11th International Conference on Nuclear Criticality Safety}, year = 2019, } @inproceedings{CTT100761302, author = {Takeshi Muramoto and Jun Nishiyama and Toru OBARA}, title = {Criticality safety analysis in falling down of fuel debris in water}, booktitle = {Proc. of 2018 annual meeting of Atomic Energy Society of Japan}, year = 2018, } @misc{CTT100887889, author = {Takeshi Muramoto}, title = {粒子法及び中性子輸送モンテカルロ法の結合による燃料デブリ水中落下時の臨界性評価シミュレーション}, year = 2021, } @misc{CTT100844489, author = {Takeshi Muramoto}, title = {粒子法及び中性子輸送モンテカルロ法の結合による燃料デブリ水中落下時の臨界性評価シミュレーション}, year = 2021, } @misc{CTT100844491, author = {Takeshi Muramoto}, title = {粒子法及び中性子輸送モンテカルロ法の結合による燃料デブリ水中落下時の臨界性評価シミュレーション}, year = 2021, } @misc{CTT100844492, author = {Takeshi Muramoto}, title = {粒子法及び中性子輸送モンテカルロ法の結合による燃料デブリ水中落下時の臨界性評価シミュレーション}, year = 2021, } @phdthesis{CTT100887889, author = {Takeshi Muramoto}, title = {粒子法及び中性子輸送モンテカルロ法の結合による燃料デブリ水中落下時の臨界性評価シミュレーション}, school = {Tokyo Institute of Technology}, year = 2021, } @phdthesis{CTT100844489, author = {Takeshi Muramoto}, title = {粒子法及び中性子輸送モンテカルロ法の結合による燃料デブリ水中落下時の臨界性評価シミュレーション}, school = {Tokyo Institute of Technology}, year = 2021, } @phdthesis{CTT100844491, author = {Takeshi Muramoto}, title = {粒子法及び中性子輸送モンテカルロ法の結合による燃料デブリ水中落下時の臨界性評価シミュレーション}, school = {Tokyo Institute of Technology}, year = 2021, } @phdthesis{CTT100844492, author = {Takeshi Muramoto}, title = {粒子法及び中性子輸送モンテカルロ法の結合による燃料デブリ水中落下時の臨界性評価シミュレーション}, school = {Tokyo Institute of Technology}, year = 2021, }