Eiji Hoashi, Shunya Yamada, Takafumi Okita. Evaluation of influence of wall roughness on wall turbulence using LES simulation with MSGD model for liquid Li flow inside two-staged contraction nozzle. Journal of Nuclear Science and Technology. 2024. 1-10
Eiji Hoashi, Daichi Hagari, Yosuke Ogino, Takafumi Okita, Makoto Oyaizu, Kentaro Ochiai. Investigation of hydrodynamic characteristics of Li jet flowing along concave flow channel using LES for A-FNS. Fusion Engineering and Design. 2024. 202. 114361-114361
Takafumi Okita, Shori Okunaka, Taiki Kojima, Eiji Hoashi, Makoto Oyaizu, Kentaro Ochiai. Investigation of applicability of long-distance LP system for Li target diagnostics in Fusion Neutron Source. Fusion Engineering and Design. 2024. 202. 114326-114326
OKITA Takafumi, TAKEDA Satoshi, HOASHI Eiji, KITADA Takanori. Fundamental design activity of fast reactor with inherent safety characteristics for effective transmutation of minor actinide. Mechanical Engineering Journal. 2023. advpub
Yusei Shimamoto, Eiji Hoashi, Takanori Kitada, Satoshi Takeda, Takafumi Okita. Design range of Fast Reactor with Inherent Safety for Effective Transmutation of Minor Actinide: 1. Screening with constraint of negative void reactivity. International Conference on Nuclear Engineering, Proceedings, ICONE. 2023. 2023-May
Investigation of applicability of long-distance LP system for Li target diagnostics in Fusion Neutron Source
(15th International Symposium on Fusion Nuclear Technology (ISFNT-15) 2023)
Investigation of hydrodynamic characteristics of Li jet flowing along concave flow channel using LES for A-FNS
(15th International Symposium on Fusion Nuclear Technology (ISFNT-15) 2023)
Design range of fast reactor with inherent safety for effective transmutation of minor actinide: 2.Verification of heat removal via natural convection in core section
(30th International Conference on Nuclear Engineering (ICONE30))
Design range of fast reactor with inherent safety for effective transmutation of minor actinide: 1.Screening with constraint of negative void reactivity
(30th International Conference on Nuclear Engineering (ICONE30))