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JAEA Reports

Analysis of the radioactivity concentrations in radioactive waste generated from JRR-3, JRR-4 and JRTF facilities, 2

Tobita, Minoru*; Goto, Katsunori*; Omori, Takeshi*; Osone, Osamu*; Haraga, Tomoko; Aono, Ryuji; Konda, Miki; Tsuchida, Daiki; Mitsukai, Akina; Ishimori, Kenichiro

JAEA-Data/Code 2023-011, 32 Pages, 2023/11

JAEA-Data-Code-2023-011.pdf:0.93MB

Radioactive wastes generated from nuclear research facilities in Japan Atomic Energy Agency are planning to be buried in the near surface disposal field as trench and pit. Therefore, it is required to establish the method to evaluate the radioactivity concentrations of radioactive wastes until the beginning of disposal. In order to contribute to the study of radioactivity concentration evaluation methods for radioactive wastes generated from nuclear research facilities, we collected and analyzed concrete samples generated from JRR-3, JRR-4 and JAERI Reprocessing Test Facility. In this report, we summarized the radioactivity concentrations of 23 radionuclides ( $^{3}$ H, $^{14}$ C, $^{36}$ Cl, $^{41}$ Ca, $^{60}$ Co, $^{63}$ Ni, $^{90}$ Sr, $^{94}$ Nb, $^{rm 108m}$ Ag, $^{137}$ Cs, $^{133}$ Ba, $^{152}$ Eu, $^{154}$ Eu, $^{rm 166m}$ Ho, $^{234}$ U, $^{235}$ U, $^{238}$ U, $^{238}$ Pu, $^{239}$ Pu, $^{240}$ Pu, $^{241}$ Am, $^{243}$ Am, $^{244}$ Cm) which were obtained from radiochemical analysis of the samples in fiscal years 2021-2022.

JAEA Reports

Analysis of the radioactivity concentrations in radioactive waste generated from JRR-2, JRR-3 and Hot laboratory

Aono, Ryuji; Mitsukai, Akina; Tsuchida, Daiki; Konda, Miki; Haraga, Tomoko; Ishimori, Kenichiro; Kameo, Yutaka

JAEA-Data/Code 2023-002, 81 Pages, 2023/05

JAEA-Data-Code-2023-002.pdf:3.0MB

Radioactive wastes generated from nuclear research facilities in Japan Atomic Energy Agency are planning to be buried in the near surface disposal field as trench and pit. Therefore, it is required to establish the method to evaluate the radioactivity concentrations of radioactive wastes until the beginning of disposal. In order to contribute to this work, we collected and analyzed the samples generated from JRR-2, JRR-3 and Hot laboratory facilities. In this report, we summarized the radioactivity concentrations of 20 radionuclides ( $^{3}$ H, $^{14}$ C, $^{36}$ Cl, $^{60}$ Co, $^{63}$ Ni, $^{90}$ Sr, $^{94}$ Nb, $^{99}$ Tc, $^{rm 108m}$ Ag, $^{129}$ I, $^{137}$ Cs, $^{152}$ Eu, $^{154}$ Eu, $^{234}$ U, $^{238}$ U, $^{238}$ Pu, $^{239}$ Pu, $^{240}$ Pu, $^{241}$ Am, $^{244}$ Cm) which were obtained from radiochemical analysis of the samples in fiscal year 2020.

Journal Articles

Development of HCl-free solid phase extraction combined with ICP-MS/MS for rapid assessment of difficult-to-measure radionuclides, 2; Highly sensitive monitoring of $^{126}$ Sn in concrete rubble

Do, V. K.; Furuse, Takahiro; Ota, Yuki; Iwahashi, Hiroyuki; Hirosawa, Takashi; Watanabe, Masahisa; Sato, Soichi

Journal of Radioanalytical and Nuclear Chemistry, 331(12), p.5631 - 5640, 2022/12

https://doi.org/10.1007/s10967-022-08612-7

Times Cited Count：2 Percentile：53.91(Chemistry, Analytical)

$^{126}$ Sn is one of the long-lived fission products that might have been released into the environment after the Fukushima nuclear accident in Japan in 2011. The presence of radionuclides must be monitored for the proper treatment of wastes obtained from decommissioning accident-related nuclear facilities and the surrounding environment. In the work, we propose a reliable method for verifying the presence of $^{126}$ Sn in construction materials by combining the HCl-free solid phase extraction on TEVA resin and a selective measurement by inductively coupled plasma tandem mass spectrometry (ICP-MS/MS). The method has been optimized and characterized step by step. More than 95% of chemical recovery was achieved for Sn from typical concrete matrixes. The interference caused by an isobar $^{126}$ Te and possible polyatomic interferences from matrixes were effectively suppressed by the developed chemical separation and the tandem MS/MS configuration. The total decontamination factor for the Te interference was of the order of 10 $^{5}$ . The estimated method detection limit for $^{126}$ Sn in concrete as measured at m/z = 160 was 12.1 pg g $^{-1}$ , which is equivalent to 6.1 mBq g $^{-1}$ .

JAEA Reports

Analysis of the radioactivity concentrations in radioactive waste generated from JRR-3, JRR-4 and JRTF facilities

Tobita, Minoru*; Konda, Miki; Omori, Takeshi*; Nabatame, Tsutomu*; Onizawa, Takashi*; Kurosawa, Katsuaki*; Haraga, Tomoko; Aono, Ryuji; Mitsukai, Akina; Tsuchida, Daiki; et al.

JAEA-Data/Code 2022-007, 40 Pages, 2022/11

JAEA-Data-Code-2022-007.pdf:1.99MB

Radioactive wastes generated from nuclear research facilities in Japan Atomic Energy Agency are planning to be buried in the near surface disposal field. Therefore, it is required to establish the method to evaluate the radioactivity concentrations of radioactive wastes until the beginning of disposal. In order to contribute to this work, we collected and analyzed concrete, ash, ceramic and brick samples generated from JRR-3, JRR4 and JRTF facilities. In this report, we summarized the radioactivity concentrations of 24 radionuclides ( $^{3}$ H, $^{14}$ C, $^{36}$ Cl, $^{41}$ Ca, $^{60}$ Co, $^{63}$ Ni, $^{90}$ Sr, $^{94}$ Nb, $^{99}$ Tc, $^{rm 108m}$ Ag, $^{129}$ I, $^{137}$ Cs, $^{133}$ Ba, $^{152}$ Eu, $^{154}$ Eu, $^{rm 166m}$ Ho, $^{234}$ U, $^{238}$ U, $^{238}$ Pu, $^{239}$ Pu, $^{240}$ Pu, $^{241}$ Am, $^{243}$ Am, $^{244}$ Cm) which were obtained from radiochemical analysis of the samples in fiscal years 2020-2021.

JAEA Reports

Analysis of the radioactivity concentrations in low-level radioactive waste generated from JPDR, JRR-3 and JRR-4 Facilities

Tsuchida, Daiki; Mitsukai, Akina; Aono, Ryuji; Haraga, Tomoko; Ishimori, Kenichiro; Kameo, Yutaka

JAEA-Data/Code 2022-004, 87 Pages, 2022/07

JAEA-Data-Code-2022-004.pdf:6.73MB

Radioactive wastes generated from nuclear research facilities in Japan Atomic Energy Agency are planning to be buried in the near surface disposal field. Therefore, it is required to establish the method to evaluate the radioactivity concentrations of radioactive wastes until by the beginning of disposal. In order to contribute to this work, we collected and analyzed samples generated from JPDR, JRR-3 and JRR-4. In this report, radioactivity concentrations of 20 radionuclides ( $^{3}$ H, $^{14}$ C, $^{36}$ Cl, $^{60}$ Co, $^{63}$ Ni, $^{90}$ Sr, $^{94}$ Nb, $^{99}$ Tc, $^{rm 108m}$ Ag, $^{129}$ I, $^{137}$ Cs, $^{152}$ Eu, $^{154}$ Eu, $^{234}$ U, $^{238}$ U, $^{238}$ Pu, $^{239+240}$ Pu, $^{241}$ Am, $^{244}$ Cm) were determined based on radiochemical analysis and summarized as basic data for the study of evaluation method of radioactive concentration.

JAEA Reports

Analysis of the radioactivity concentrations in radioactive waste generated from JPDR Facility

Tobita, Minoru*; Haraga, Tomoko; Endo, Tsubasa*; Omori, Hiroyuki*; Mitsukai, Akina; Aono, Ryuji; Ueno, Takashi; Ishimori, Kenichiro; Kameo, Yutaka

JAEA-Data/Code 2021-013, 30 Pages, 2021/12

JAEA-Data-Code-2021-013.pdf:1.47MB

Radioactive wastes generated from nuclear research facilities in Japan Atomic Energy Agency are planning to be buried in the near surface disposal field. Therefore, it is required to establish the method to evaluate the radioactivity concentrations of radioactive wastes until the beginning of disposal. In order to contribute to this work, we collected and analyzed concrete samples generated from JPDR facility. In this report, we summarized the radioactivity concentrations of 21 radionuclides ( $^{3}$ H, $^{14}$ C, $^{36}$ Cl, $^{41}$ Ca, $^{60}$ Co, $^{63}$ Ni, $^{90}$ Sr, $^{94}$ Nb, $^{rm 108m}$ Ag, $^{137}$ Cs, $^{152}$ Eu, $^{154}$ Eu, $^{rm 166m}$ Ho, $^{234}$ U, $^{238}$ U, $^{238}$ Pu, $^{239}$ Pu, $^{240}$ Pu, $^{241}$ Am, $^{243}$ Am, $^{244}$ Cm) which were obtained from radiochemical analysis of the samples in fiscal year 2018-2019.

JAEA Reports

Analysis of the radioactivity concentrations in low-level radioactive waste generated from JRR-3 and JPDR facilities

Tsuchida, Daiki; Haraga, Tomoko; Tobita, Minoru*; Omori, Hiroyuki*; Omori, Takeshi*; Murakami, Hideaki*; Mitsukai, Akina; Aono, Ryuji; Ishimori, Kenichiro; Kameo, Yutaka

JAEA-Data/Code 2020-022, 34 Pages, 2021/03

JAEA-Data-Code-2020-022.pdf:1.74MB

Radioactive wastes generated from nuclear research facilities in Japan Atomic Energy Agency are planning to be buried in the near surface disposal field. Therefore, it is required to establish the method to evaluate the radioactivity concentrations of radioactive wastes until the beginning of disposal. In order to contribute to this work, we collected and analyzed concrete samples generated from JRR-3 and JPDR. In this report, we summarized the radioactivity concentrations of 22 radionuclides( $^{3}$ H, $^{14}$ C, $^{36}$ Cl, $^{41}$ Ca, $^{60}$ Co, $^{63}$ Ni, $^{90}$ Sr, $^{94}$ Nb, $^{rm 108m}$ Ag, $^{133}$ Ba, $^{137}$ Cs, $^{152}$ Eu, $^{154}$ Eu, $^{rm 166m}$ Ho, $^{234}$ U, $^{238}$ U, $^{238}$ Pu, $^{239+240}$ Pu, $^{241}$ Am, $^{243}$ Am, $^{244}$ Cm) which were obtained from radiochemical analysis of the samples.

JAEA Reports

Analysis of the radioactivity concentrations in low-level radioactive waste generated from JPDR and JRR-4

Aono, Ryuji; Mitsukai, Akina; Haraga, Tomoko; Ishimori, Kenichiro; Kameo, Yutaka

JAEA-Data/Code 2020-006, 70 Pages, 2020/08

JAEA-Data-Code-2020-006.pdf:2.59MB

Radioactive wastes which generated from research and testing reactors in Japan Atomic Energy Agency are planning to be buried at the near surface disposal field. Therefore, it is required to establish the method to evaluate the radioactivity concentrations of radioactive wastes by the time it starts disposal. In order to contribute to this work, we collected and analyzed the samples generated from JPDR and JRR-4. In this report, we summarized the radioactivity concentrations of 19 radionuclides ( $^{3}$ H, $^{14}$ C, $^{36}$ Cl, $^{60}$ Co, $^{63}$ Ni, $^{90}$ Sr, $^{94}$ Nb, $^{99}$ Tc, $^{rm 108m}$ Ag, $^{129}$ I, $^{137}$ Cs, $^{152}$ Eu, $^{154}$ Eu, $^{234}$ U, $^{238}$ U, $^{238}$ Pu, $^{239+240}$ Pu, $^{241}$ Am, $^{244}$ Cm) which were obtained from radiochemical analysis of those samples.

Journal Articles

Influence of chemical speciation in reactor cooling system on pH of suppression pool during BWR severe accident

Shiotsu, Hiroyuki; Ishikawa, Jun; Sugiyama, Tomoyuki; Maruyama, Yu

Journal of Nuclear Science and Technology, 55(4), p.363 - 373, 2018/04

https://doi.org/10.1080/00223131.2017.1403381

Times Cited Count：6 Percentile：52.79(Nuclear Science & Technology)

Journal Articles

Radiochemical study of the kinematics of multi-nucleon transfer reactions in $^{48}$ Ca + $^{248}$ Cm collisions 10% above the Coulomb barrier

Gtz, M.*; Gtz, S.*; Kratz, J. V.*; Dllmann, Ch. E.*; Mokry, Ch.*; Runke, J.*; Thrle-Pospiech, P.*; Wiehl, N.*; Schdel, M.; Ballof, J.*; et al.

Nuclear Physics A, 961, p.1 - 21, 2017/05

https://doi.org/10.1016/j.nuclphysa.2017.02.006

Times Cited Count：6 Percentile：47.01(Physics, Nuclear)

The kinematics of multi-nucleon transfer reactions in the $^{48}$ Ca + $^{248}$ Cm collisions were investigated using a stacked-foil technique and radiochemical separations. In previous studies, isotopic distributions of the products of below-target isotopes were found to be broader than those of above-target isotopes, which had been interpreted as larger contributions of strongly dumped collisions in the productions of below-target isotopes than above-target ones. However, in the present study, the average total kinetic energy loss (TKEL), and thus, the average excitation energies were determined for both below-target and above-target isotopes, and they were found to be similar. This contradicts the previous interpretation, and thus, a new interpretation has been proposed; highly excited above-target products are lost by fission.

Journal Articles