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ladderUeda, Hiroshi*; Onoda, Shigeki*; Yamaguchi, Yasuhiro*; Kimura, Tsuyoshi*; Yoshizawa, Daichi*; Morioka, Toshiaki*; Hagiwara, Masayuki*; Hagihara, Masato*; Soda, Minoru*; Masuda, Takatsugu*; et al.
Physical Review B, 101(14), p.140408_1 - 140408_6, 2020/04
Times Cited Count:6 Percentile:24.53(Materials Science, Multidisciplinary)Ito, Shinichi*; Yokoo, Tetsuya*; Masuda, Takatsugu*; Yoshizawa, Hideki*; Soda, Minoru*; Ikeda, Yoichi*; Ibuka, Soshi*; Kawana, Daichi*; Sato, Taku*; Nambu, Yusuke*; et al.
JPS Conference Proceedings (Internet), 8, p.034001_1 - 034001_6, 2015/09
Deki, Manato; Ito, Takuto*; Yamamoto, Minoru*; Tomita, Takuro*; Matsuo, Shigeki*; Hashimoto, Shuichi*; Kitada, Takahiro*; Isu, Toshiro*; Onoda, Shinobu; Oshima, Takeshi
Applied Physics Letters, 98(13), p.133104_1 - 133104_3, 2011/03
Times Cited Count:13 Percentile:47.55(Physics, Applied)Yanagie, Hironobu*; Kumada, Hiroaki*; Nakamura, Takemi; Higashi, Shushi*; Ikushima, Ichiro*; Morishita, Yasuyuki*; Shinohara, Atsuko*; Fujiwara, Mitsuteru*; Suzuki, Minoru*; Sakurai, Yoshinori*; et al.
Proceedings of 14th International Congress on Neutron Capture Therapy (ICNCT-14) (CD-ROM), p.157 - 160, 2010/10
Tomita, Takuro*; Iwami, Masahiro*; Yamamoto, Minoru*; Deki, Manato*; Matsuo, Shigeki*; Hashimoto, Shuichi*; Nakagawa, Yoshinori*; Kitada, Takahiro*; Isu, Toshiro*; Saito, Shingo*; et al.
Materials Science Forum, 645-648, p.239 - 242, 2010/04
no abstracts in English
Nakai, Satoru; Aoyama, Takafumi; Ito, Chikara; Yamamoto, Masaya; Iijima, Minoru; Nagaoki, Yoshihiro; Kobayashi, Atsuko; Onoda, Yuichi; Ohgama, Kazuya; Uwaba, Tomoyuki; et al.
Kosoku Jikkenro "Joyo" Rinkai 30-Shunen Kinen Hokokukai Oyobi Gijutsu Koenkai, 154 Pages, 2008/06
no abstracts in English
Haba, Hiromitsu*; Tsukada, Kazuaki; Asai, Masato; Toyoshima, Atsushi; Akiyama, Kazuhiko; Nishinaka, Ichiro; Hirata, Masaru; Yaita, Tsuyoshi; Ichikawa, Shinichi; Nagame, Yuichiro; et al.
Journal of the American Chemical Society, 126(16), p.5219 - 5224, 2004/04
Times Cited Count:44 Percentile:72.37(Chemistry, Multidisciplinary)Fluoride complexation of element 104, rutherfordium (Rf), produced in the 
Cm(
O,5n)
Rf reaction has been studied by anion-exchange chromatography on an atom-at-a-time scale. The anion-exchangechromatographic behavior of Rf was investigated in 1.9-13.9 M hydrofluoric acid together with those of the group-4 elements Zr and Hf produced in the O-induced reactions on Ge and Gd targets, respectively. It was found that the adsorption behavior of Rf on anion-exchange resin is quite different from those of Zr and Hf, suggesting the influence of relativistic effect on the fluoride complexation of Rf.
solutionsHaba, Hiromitsu; Tsukada, Kazuaki; Asai, Masato; Goto, Shinichi*; Toyoshima, Atsushi; Nishinaka, Ichiro; Akiyama, Kazuhiko; Hirata, Masaru; Ichikawa, Shinichi; Nagame, Yuichiro; et al.
Journal of Nuclear and Radiochemical Sciences, 3(1), p.143 - 146, 2002/06
We have investigated the sorption behavior of element 104 rutherfordium (Rf) on an anion exchange resin from HCl and HNO solutions. In the HCl experiments, the distribution coefficients of Rf increase with an increase of HCl concentration from 7.0 M to 11.5 M, indicating that anionic species such as [Rf(OH)Cl
]
or [RfCl
] are formed. This sorption behavior of Rf is typical of the group-4 elements Zr and Hf, and is quite different from that of the pseudo-homologue Th. It is also noted that the distribution coefficients decrease in the order Rf, Zr, Hf at 9.0 M HCl, which is consistent with the expected order of ionic radii. On the other hand, Rf appears to behave like Zr and Hf in 8 M HNO not like Pu and Th.
; ;
JNC TN9410 99-013, 72 Pages, 1999/04
Fast breeder reactors use metallic sodium as a coolant, therefore, sodium removal is necessary in the dismantling. An intermediate heat exchanger (IHX) exchanges heat between primary and secondary sodium. The dismantling and sodium removal of IHX is difficult because of the future of IHX such as residing of sodium on both primary and secondary surface, existing of the cover gas region, large amount of bulk residual sodium. In the dismantling and sodium removal of the 50MWt IHX, the effective and safe procedure of dismantling and sodium removal was carefullny examined to prevent of sodium ignition and large sodium water reaction and to store safely during the dismantling. Sodium carbonation had been carried out by introducing carbon dioxide in the IHX at the 50MW Steam Generator Test Facility (50MWSGTF) to prevent sodium ignition. After separation to inner shroud and outer shell, each part was transported to the sodium processing facility where each part was dismantled and sodium was removed by steam cleaning device in the atmosphere. Followings are the major results of this experience. (1)Expelimentally obtained sodium shearing force of 0.3 MPa was confirmed by the separation of inner shroud and outer shell (2)No sodium ignition was observed during the dismantling. Therefore introducing carbon dioxide to IHX could be effective. (3)When quantity and condition of residual sodium cannot be confirmed visually, it is important to control steam volume in nitrogen gas and control reaction between sodium and steam. And also it is important to avoid quick approach for the sodium removal observation due to time delay of sodium and steam reaction after steam injection. (4)Sodium removal weight was about 60kg. The residual sodium of the sodium dipped area was about 0.23mg/cm
and it was about l3.7mg/cm in the cover gas region. (5)The tube bundle rotation was effective for the improvement in safety and efficiency of the cleaning and decommissioning. A newly ...
; Hirabayashi, Masaru; ; Oki, Shigeo; ; Ara, Kuniaki
JNC TN9400 99-030, 123 Pages, 1999/04
In order to develop a numerical code simulating sodium fires initiated frame dispersion of droplets, measured data of droplet diameter as well as its distribution are needed. In the present experiment the distribution of droplet diameter was measured using water, oil and sodium. The tests elucidated the influential factors with respect to the droplet diameter. In addition, we sought to develop a similarity law between water and sodium. The droplet size distribution of sodium using the large diameter droplet (Elnozzle) was predicted. The results are as follows. (1)Verification of existing method to determine droplet size distribution. Using a phase Doppler system the droplet size distribution to water spray from a binary fluid nozzle was measured. We found that there was not a large difference between the measured distribution and Nukiyama-Tanasawa distribution function. (2)Characterization of inferential parameters with respect to droplet size distribution. Here we note that the droplet size distribution using a nozzle with binary fluid was different from the one using a compression nozzle was used. It was clarified that the viscosity and surface tensjon are the primary factors which influence the volumetric average diameter. The correlation equation between droplet diameter containing viscosity and surface tension terms, was derived. (3)Evaluation on the droplet size distribution to sodium spray from the El nozzle. A relationship between the volumetric average diameter and the pressure was studied and the volumetric average diameter was formulated as a function of the physical properties (viscosity, surface tension) in the case of the E1 nozzle. Finally, the droplet size distribution to sodium spray from the E1 nozzle was estimated using the developed correlation equation.
Gunji, Minoru; Yamamoto, Shimpei; Onojima, Takamitsu
PNC TN9450 98-009, 150 Pages, 1998/06
None
; ; ; ; ;
Technical committee meeting on "Sodium removal and disposal from LMFR's in normal operation and in, ,
None
Deki, Manato*; Ito, Takuto*; Yamamoto, Minoru*; Tomita, Takuro*; Matsuo, Shigeki*; Hashimoto, Shuichi*; Kitada, Takahiro*; Isu, Toshiro*; Onoda, Shinobu; Oshima, Takeshi
no journal, ,
no abstracts in English
Deki, Manato; Yamamoto, Minoru*; Ito, Takuto*; Tomita, Takuro*; Matsuo, Shigeki*; Hashimoto, Shuichi*; Kitada, Takahiro*; Isu, Toshiro*; Onoda, Shinobu; Oshima, Takeshi
no journal, ,
no abstracts in English
Takeda, Shiho; Yonezawa, Minoru; Fukazawa, Takeyasu; Kiyofuji, Taeko; Onose, Takatoshi*; Minakawa, Takashi*; Yokoyama, Daisuke*
no journal, ,
no abstracts in English
