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Strasser, P.*; Abe, Mitsushi*; Aoki, Masaharu*; Choi, S.*; Fukao, Yoshinori*; Higashi, Yoshitaka*; Higuchi, Takashi*; Iinuma, Hiromi*; Ikedo, Yutaka*; Ishida, Katsuhiko*; et al.
EPJ Web of Conferences, 198, p.00003_1 - 00003_8, 2019/01
Times Cited Count:13 Percentile:99.06(Quantum Science & Technology)Ueno, Yasuhiro*; Aoki, Masaharu*; Fukao, Yoshinori*; Higashi, Yoshitaka*; Higuchi, Takashi*; Iinuma, Hiromi*; Ikedo, Yutaka*; Ishida, Katsuhiko*; Ito, Takashi; Iwasaki, Masahiko*; et al.
Hyperfine Interactions, 238(1), p.14_1 - 14_6, 2017/11
Times Cited Count:3 Percentile:86.59(Physics, Atomic, Molecular & Chemical)Strasser, P.*; Aoki, Masaharu*; Fukao, Yoshinori*; Higashi, Yoshitaka*; Higuchi, Takashi*; Iinuma, Hiromi*; Ikedo, Yutaka*; Ishida, Katsuhiko*; Ito, Takashi; Iwasaki, Masahiko*; et al.
Hyperfine Interactions, 237(1), p.124_1 - 124_9, 2016/12
Times Cited Count:7 Percentile:90.97(Physics, Atomic, Molecular & Chemical)Ueta, Shohei; Inoi, Hiroyuki; Mizutani, Yoshitaka; Ohashi, Hirofumi; Iwatsuki, Jin; Sakaba, Nariaki; Sawa, Kazuhiro
Proceedings of 21st International Conference on Nuclear Engineering (ICONE-21) (DVD-ROM), 4 Pages, 2013/07
Japan Atomic Energy Agency (JAEA) has planned to investigate on iodine release behavior from fuel through the testing operation of High Temperature Engineering Test Reactor (HTTR) in order to contribute to the reasonable estimation of the radiation exposure necessary for the realization of HTGR in the future. In this test, the fractional release of iodine will be measured and evaluated by measuring xenon isotopes, the daughter nuclides of iodine isotopes, in the primary coolant sampling under the loss-of-forced cooling (LOFC) test by which the primary coolant circulator is shut down and/or the manual scram test of HTTR. In parallel, the local area of primary coolant circuit where iodine is plated-out will be evaluated. This paper describes the testing plan and the preliminary analytical study on the release behavior of iodine and xenon isotopes through the operation of HTTR.
Ueta, Shohei; Aihara, Jun; Mizutani, Yoshitaka; Ohashi, Hirofumi; Sakaba, Nariaki; Tachibana, Yukio; Honda, Masaki*; Tanaka, Hideki*; Furihata, Noboru*
no journal, ,
In the small-sized high temperature gas-cooled reactor, the improved fuel of which the burnup is designed over 100 GWd/t is used in order to upgrade economy and to decrease radioactive waste. On the other hand, to attain over three times higher burnup than that of a conventional HTTR fuel, 33 GWd/t, researches and developments of the fuel should be needed with regards to the design preventing the fuel from the failure by internal pressure due to gases in the coated fuel particle, the technologies for fabrication of the improved fuel, and the irradiation test to confirm its integrity under the irradiation. A design work, fabrication tests and a plan of the irradiation test for the improved fuel in order to demonstrate the performance are reported.
Ueta, Shohei; Aihara, Jun; Mizutani, Yoshitaka; Ohashi, Hirofumi; Sakaba, Nariaki; Tachibana, Yukio; Kunitomi, Kazuhiko
no journal, ,
Clean Burn High Temperature Gas-cooled Reactor (CBHTR) is loaded with the coated fuel particle having a fuel kernel made with solid solution of plutonium dioxide (PuO
) and yttrium stabilized zirconia (YSZ) as the inert matrix. To establish the fundamental technique of fabrication of PuO-YSZ coated fuel particle, research plans on fabrications of the fuel kernel by sol-gel process and of multi-ceramics coatings by chemical vapor deposition are reported.
Ueta, Shohei; Mizutani, Yoshitaka; Sakaba, Nariaki; Furihata, Noboru*; Honda, Masaki*; Asset, S.*; Gizatulin, S.*; Chakrov, P.*
no journal, ,
A capsule irradiation test with the high temperature gas-cooled reactor (HTGR) fuel by WWR-K in the Institute of Nuclear Physics of the Republic of Kazakhstan (INP) is being carried out. The HTGR fuel specimens were newly designed at the target burnup of 100 GWd/t. A plan of the irradiation test and results on evaluation of the integrity of the HTGR fuel specimen based on fission gas (FP) release rate under the irradiation are reported.
Mizutani, Yoshitaka*; Honda, Masaki*; Nishi, Tsuyoshi*; Hayashi, Hirokazu
no journal, ,
no abstracts in English
Sonoda, Shinya*; Nabetani, Akira*; Kimura, Hiroyuki*; Kabuki, Shigeto*; Takada, Atsushi*; Kubo, Hidetoshi*; Komura, Shotaro*; Sawano, Tatsuya*; Tanimori, Toru*; Matsuoka, Yoshihiro*; et al.
no journal, ,
We present the performance results using this new ETCC such as the imaging test using F-18 in point-like and rod-like phantoms with varying the intense of radiation. In addition, the measurementof Tc-95m which is produced by Japan Atomic Energy Agency was performed. Tc-95m emitsthe 
-rays with the energy, 204, 583, and 835 keV, and then an image with multi-energies is examined. The position resolution achieves less than about 8 degrees from 10 degrees at 511 keV by this improvement. Further improvement of the angular resolution (position resolution) will be presented until 2015 spring. Also, we are developing the next ETCC by increasing the thickness of the scintillator from 1 rad. to 2 rad. and the gas pressure from 1 atm to 3 atm which improvethe detection efficiency by a factor of 
5 at 511 keV. By these improvements, the imaging time of mouse is expected to be reduced from several hours with to 
20 minutes for lots of kinds of RIs with the energy band from 0.1-2 MeV.
