Kubo Shinji

クボシンジ | Kubo Shinji

Affiliation and department：
Research theme for competitive and other funds (1)：

マルチ放射線プローブによるオンライン溶液組成計測法の研究

Papers (65)：

Shibata Taiju, Nishihara Tetsuo, Kubo Shinji, Sato Hiroyuki, Sakaba Nariaki, Kunitomi Kazuhiko. Present status of JAEA's R\&D toward HTGR deployment. Nuclear Engineering and Design. 2022. 398. 111964\_1-111964\_4
Myagmarjav O., Shibata Ai*, Tanaka Nobuyuki, Noguchi Hiroki, Kubo Shinji, Nomura Mikihiro*, Takegami Hiroaki. Fabrication, permeation, and corrosion stability measurements of silica membranes for HI decomposition in the thermochemical iodine-sulfur process. International Journal of Hydrogen Energy. 2021. 46. 56. 28435-28449
Tanaka Nobuyuki, Takegami Hiroaki, Noguchi Hiroki, Kamiji Yu, Myagmarjav O., Kubo Shinji. Introduction of loop operating system to improve the stability of continuous hydrogen production for the thermochemical water-splitting iodine-sulfur process. International Journal of Hydrogen Energy. 2021. 46. 55. 27891-27904
Myagmarjav O., Tanaka Nobuyuki, Nomura Mikihiro*, Noguchi Hiroki, Imai Yoshiyuki, Kamiji Yu, Kubo Shinji, Takegami Hiroaki. Development of a membrane reactor with a closed-end silica membrane for nuclear-heated hydrogen production. Progress in Nuclear Energy. 2021. 137. 103772\_1-103772\_7
Noguchi Hiroki, Kamiji Yu, Tanaka Nobuyuki, Takegami Hiroaki, Iwatsuki Jin, Kasahara Seiji, Myagmarjav O., Imai Yoshiyuki, Kubo Shinji. Hydrogen production using thermochemical water-splitting iodine-sulfur process test facility made of industrial structural materials; Engineering solutions to prevent iodine precipitation. International Journal of Hydrogen Energy. 2021. 46. 43. 22328-22343

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MISC (68)：

Kubo Shinji. R\&D progress of thermochemical hydrogen production iodine-sulfur process in JAEA. Nihon Enerugi Gakkai Kikan-Shi Enerumikusu. 2023. 102. 4. 428-438
Kubo Shinji. Current status and prospects of technology development for hydrogen production using high temperature gas-cooled reactor. Suiso Enerugi Shisutemu. 2023. 48. 2. 126-132
Takeda Tetsuaki*, Inagaki Yoshiyuki, Aihara Jun, Aoki Takeshi, Fujiwara Yusuke, Fukaya Yuji, Goto Minoru, Ho H. Q., Iigaki Kazuhiko, Imai Yoshiyuki, et al. High temperature gas-cooled reactors. High Temperature Gas-Cooled Reactors; JSME Series in Thermal and Nuclear Power Generation, Vol.5. 2021. 464
Nishihara Tetsuo, Yan X., Tachibana Yukio, Shibata Taiju, Ohashi Hirofumi, Kubo Shinji, Inaba Yoshitomo, Nakagawa Shigeaki, Goto Minoru, Ueta Shohei, et al. Excellent feature of Japanese HTGR technologies. JAEA-Technology 2018-004. 2018. 182
Kubo Shinji, Iwatsuki Jin, Takegami Hiroaki, Kasahara Seiji, Tanaka Nobuyuki, Noguchi Hiroki, Kamiji Yu, Onuki Kaoru. Research and development on chemical reactors made of industrial structural materials and hydriodic acid concentration technique for thermochemical hydrogen production IS process. JAEA-Technology 2015-028. 2015. 32

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Patents (21)：

水素製造プラント
熱化学水素製造法のISプロセスにおけるプロセス溶液濃度の調整方法及びその装置
熱化学水素製造法のISプロセスにおけるプロセス溶液濃度の調整方法及びその装置
液位測定機能を有する硫酸分解反応器
ブンゼン反応器

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Lectures and oral presentations (97)：

Modified dip-coating method for fabrication of pinhole-free supports for hydrogen-separation silica membranes
(2024 8th International Conference on Material Engineering and Manufacturing (ICMEM 2024))
Evaluation of leakage flow rate in sealing part using graphite gland packing to mount hydrogen separation membrane tube for HI decomposition membrane reaction
(化学工学会第54回秋季大会)
Extension lecturer; R\&D of HTGR and heat utilization technology in JAEA
(大学等への公開特別講座)
R\&D of high-temperature gas-cooled reactor and hydrogen production system toward 2050 carbon neutrality in JAEA
(いばらき脱炭素経営シンポジウム2022)
R\&D of HTGR and heat utilization technology in JAEA
(第35回エネルギー総合工学シンポジウム)

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