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Journal Articles

Development of a laser chipping technique combined with water jet for retrieval of fuel debris at Fukushima Daiichi Nuclear Power Station

Yamada, Tomonori; Takebe, Toshihiko*; Ishizuka, Ippei*; Daido, Hiroyuki*; Hanari, Toshihide; Shibata, Takuya; Omori, Shinya*; Kurosawa, Koichi*; Sasaki, Go*; Nakada, Masahiro*; et al.

Journal of Nuclear Science and Technology, 56(12), p.1171 - 1179, 2019/12

https://doi.org/10.1080/00223131.2019.1647890

Times Cited Count：1 Percentile：11.15(Nuclear Science & Technology)

We describe a new chipping technique combined with a water-jet technique as one of the candidate techniques for the retrieval of fuel debris and support structures as part of the decommissioning of the Fukushima Daiichi Nuclear Power Station. We performed proof-of-principle experiments to demonstrate the removal capability of metal parts, where we focused on the observation of removal processes from a metallic sample using a 5.5-kW continuous wave fiber laser combined with continuous and pulsed water jets.

JAEA Reports

The User manual of the simplified decommissioning cost estimation code for nuclear facilities "DECOST"

Takahashi, Nobuo; Suekane, Yurika; Sakaba, Ryosuke*; Kurosawa, Takuya*; Sato, Koichi; Meguro, Yoshihiro

JAEA-Testing 2018-002, 45 Pages, 2018/07

JAEA-Testing-2018-002.pdf:4.44MB

The Japan Atomic Energy Agency has many nuclear facilities such as research reactors, nuclear fuel facilities and research facilities. Although these facilities will be decommissioned due to the termination of the purpose of use of the facility and aging, it is necessary to evaluate the decommissioning cost of these facilities prior to the decommissioning. We have developed an evaluation method called DECOST code that can efficiently calculate the decommissioning cost in a short time based on factors such as features, similarity, and dismantling methods. This report is as a manual of the DECOST code prepared for improving convenience. Here, the evaluation formulae used for DECOST are presented and the method of using them is explained for each kind of nuclear facilities to be evaluated. In addition, the preparation method of facility information and dismantled waste amount that are need for evaluation is also shown.

Journal Articles

Neutron irradiation effect of high-density MoO $_{3}$ pellets for Mo-99 production, 2

Nishikata, Kaori; Ishida, Takuya; Yonekawa, Minoru; Kato, Yoshiaki; Kurosawa, Makoto; Kimura, Akihiro; Matsui, Yoshinori; Tsuchiya, Kunihiko; Sano, Tadafumi*; Fujihara, Yasuyuki*; et al.

KURRI Progress Report 2014, P. 109, 2015/07

http://www.rri.kyoto-u.ac.jp/PUB/report/PR/ProgRep2014/CO3.pdf

As one of effective applications of the Japan Materials Testing Reactor (JMTR), JAEA has a plan to produce $^{99}$ Mo by (n,) method ((n,) $^{99}$ Mo production), a parent nuclide of $^{99m}$ Tc. In this study, preliminary irradiation test was carried out with the high-density molybdenum trioxide (MoO $_{3}$ ) pellets in the hydraulic conveyer (HYD) of the Kyoto University Research Reactor (KUR) and the $^{99m}$ Tc solution extracted from $^{99}$ Mo was evaluated. After the irradiation test of the high-density MoO $_{3}$ pellets in the KUR, $^{99m}$ Tc was extracted from the Mo solution and the recovery rate of $^{99m}$ Tc achieved the target values. The $^{99m}$ Tc solution also got the value that satisfied the standard value for $^{99m}$ Tc radiopharmaceutical products by the solvent extraction method.

Journal Articles

Neutron irradiation effect of high-density MoO $_{3}$ pellets for Mo-99 production

Nishikata, Kaori; Ishida, Takuya; Yonekawa, Minoru; Kato, Yoshiaki; Kurosawa, Makoto; Kimura, Akihiro; Matsui, Yoshinori; Tsuchiya, Kunihiko; Sano, Tadafumi*; Fujihara, Yasuyuki*; et al.

KURRI Progress Report 2013, P. 242, 2014/10

As one of effective applications of the Japan Materials Testing Reactor (JMTR), JAEA has a plan to produce Mo-99 ( $^{99}$ Mo) by (n,) method ((n,) $^{99}$ Mo production), a parent nuclide of $^{99m}$ Tc. In this study, preliminary irradiation tests were carried out with the high-density MoO $_{3}$ pellets in the KUR and the $^{99}$ Mo production amount was evaluated between the calculation results and measurement results.

Journal Articles

Mo recycling property from generator materials with irradiated molybdenum

Kakei, Sadanori*; Kimura, Akihiro; Niizeki, Tomotake*; Ishida, Takuya; Nishikata, Kaori; Kurosawa, Makoto; Yoshinaga, Hideo*; Hasegawa, Yoshio*; Tsuchiya, Kunihiko

Proceedings of 6th International Symposium on Material Testing Reactors (ISMTR-6) (Internet), 7 Pages, 2013/10

http://www.invap.com.ar/ismtr/images/stories/trabajos/Kakei-Paper.pdf

http://www.invap.com.ar/ismtr/images/stories/trabajos/Kakei-Presentation.pdf

The Japan Materials Testing Reactor (JMTR) is expected to contribute to the expansion of industrial utilization, such as the domestic production of $^{99}$ Mo for the medical diagnosis medicine $^{rm 99m}$ Tc. Production by the (n, ) method is proposed as domestic $^{99}$ Mo production in JMTR because of the low amount of radioactive wastes and the easy $^{99}$ Mo/ $^{rm 99m}$ Tc production process. Molybdenum oxide (MoO $_{3}$ ) pellets, poly zirconium compounds (PZC) and poly titanium compounds (PTC) are used as the irradiation target and generator for the production of $^{99}$ Mo/ $^{rm 99m}$ Tc by the (n, ) method. However, it is necessary to use the enriched $^{98}$ MoO $_{3}$ , which is very expensive, to increase the specific activity of $^{99}$ Mo. Additionally, a large amount of used PZC and PTC is generated after the decay of $^{99}$ Mo. Therefore, this recycling technology of used PZC/PTC has been developed to recover molybdenum (Mo) as an effective use of resources and a reduction of radioactive wastes. The total Mo recovery rate of this process was 95.8%. From the results of the hot experiments, we could demonstrate that the recovery of MoO $_{3}$ and the recycling of PZC are possible. In the future, the equipment of recovering Mo will be installed in JMTR-Hot Cell, and this recycling process will be able to contribute to the reduction of production costs of $^{rm 99m}$ Tc and the reduction of radioactive wastes.

Journal Articles

Development of post-irradiation test facility for domestic production of $^{99}$ Mo

Taguchi, Taketoshi; Yonekawa, Minoru; Kato, Yoshiaki; Kurosawa, Makoto; Nishikata, Kaori; Ishida, Takuya; Kawamata, Kazuo

UTNL-R-0483, p.10_5_1 - 10_5_13, 2013/03

JMTR focus on the activation method. By carrying out the preliminary tests using irradiation facilities existing, and verification tests using the irradiation facility that has developed in the cutting-edge research and development strategic strengthening business, as irradiation tests towards the production of $^{99}$ Mo, we have been conducting research and development that can contribute to supply about 25% for $^{99}$ Mo demand in Japan and the stable supply of radiopharmaceutical. This report describes a summary of the status of the preliminary tests for the production of $^{99}$ Mo: Maintenance of test equipment in the facility in JMTR Hot Laboratory in preparation for research and development for the production of $^{99}$ Mo in JMTR and using MoO $_{3}$ pellet irradiated at Kyoto University Research Reactor Institute (KUR).

JAEA Reports

Development and management of the knowledge base for the geological disposal technology; Annual report 2006

Umeda, Koji; Oi, Takao; Osawa, Hideaki; Oyama, Takuya; Oda, Chie; Kamei, Gento; Kuji, Masayoshi*; Kurosawa, Hideki; Kobayashi, Yasushi; Sasaki, Yasuo; et al.

JAEA-Review 2007-050, 82 Pages, 2007/12

JAEA-Review-2007-050.pdf:28.56MB

This report shows the annual report which shows the summarized results and topic outline of each project on geological disposal technology in the fiscal year of 2006.

Oral presentation

Study on $^{99}$ Mo production method with irradiation of circulating Mo solution, 1; Results of cold tests (preliminary tests)

Inaba, Yoshitomo; Ishikawa, Koji*; Ishida, Takuya; Ishitsuka, Etsuo; Kurosawa, Kiyoko*; Hishinuma, Yukio*; Tatenuma, Katsuyoshi*

no journal, ,

The circulating solution irradiation method is a new production method of $^{99}$ Mo, which is the parent nuclide of $^{99m}$ Tc used as medical diagnosis medicine. In order to realize this method, compatibility between molybdenum solutions and structural materials, etc. were investigated. As a result, it was found that the potassium molybdate solution have good characteristics as an irradiation target.

Oral presentation

Effect on sintering property of MoO $_{3}$ pellets of different MoO $_{3}$ powders

Nishikata, Kaori; Kimura, Akihiro; Kato, Yoshiaki; Kurosawa, Makoto; Ishida, Takuya; Tsuchiya, Kunihiko; Kakei, Sadanori*; Yoshinaga, Hideo*; Niizeki, Tomotake*; Hasegawa, Yoshio*

no journal, ,

no abstracts in English

Oral presentation

Fabrication technique development of high-density MoO $_{3}$ pellets for $^{99}$ Mo/ $^{99m}$ Tc production

Nishikata, Kaori; Kimura, Akihiro; Kato, Yoshiaki; Kurosawa, Makoto; Ishida, Takuya; Tsuchiya, Kunihiko; Kakei, Sadanori*; Yoshinaga, Hideo*; Niizeki, Tomotake*; Hasegawa, Yoshio*

no journal, ,

no abstracts in English

Oral presentation

Irradiation effect of high-density MoO $_{3}$ pellets for $^{99}$ Mo production by (n, ) method

Nishikata, Kaori; Kimura, Akihiro; Kato, Yoshiaki; Kurosawa, Makoto; Ishida, Takuya; Tsuchiya, Kunihiko; Sano, Tadafumi*; Fujihara, Yasuyuki*; Zhang, J.*

no journal, ,

no abstracts in English

Oral presentation

Development of a laser processing technique combined with water jet technique

Ishizuka, Ippei*; Takebe, Toshihiko*; Yamada, Tomonori; Omori, Shinya*; Kurosawa, Koichi*; Sasaki, Go*; Nakada, Masahiro*; Sakai, Hideaki*; Shibata, Takuya

no journal, ,

no abstracts in English

Oral presentation

Comparison of actual dismantling process costs of a nuclear fuel cycle facility with estimation results by the DECOST

Takahashi, Nobuo; Kurosawa, Takuya*; Meguro, Yoshihiro

no journal, ,

We investigated each decommissioning process costs, such as scabbling cost and equipment dismantling cost that based on actual dismantling of nuclear fuel cycle facility. In addition, the each process costs in the facility were estimated using the DECOST (simplified decommissioning cost estimation code for nuclear facilities). The estimated results were comparison with the actual cost data, and the accuracy of the estimated value from the DECOST was evaluated for each cost.

Oral presentation

Development of a laser technique for decommissioning of Fukushima Daiichi Nuclear Power Station

Yamada, Tomonori; Ishizuka, Ippei*; Takebe, Toshihiko*; Hanari, Toshihide; Omori, Shinya*; Kurosawa, Koichi*; Sasaki, Go*; Nakada, Masahiro*; Sakai, Hideaki*; Shibata, Takuya; et al.

no journal, ,

no abstracts in English

Oral presentation

Development of nondestructive identification method by using high-energy X-ray CT for disposal-restricted materials in radioactive waste containers

Murakami, Masashi; Yoshida, Yukihiko; Nango, Nobuhito*; Kubota, Shogo*; Kurosawa, Takuya*; Sasaki, Toshiki

no journal, ,

no abstracts in English

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Development of a laser chipping technique combined with water jet for retrieval of fuel debris at Fukushima Daiichi Nuclear Power Station

The User manual of the simplified decommissioning cost estimation code for nuclear facilities "DECOST"

Neutron irradiation effect of high-density MoO $_{3}$ pellets for Mo-99 production, 2

Neutron irradiation effect of high-density MoO $_{3}$ pellets for Mo-99 production

Mo recycling property from generator materials with irradiated molybdenum

Development of post-irradiation test facility for domestic production of $^{99}$ Mo

Development and management of the knowledge base for the geological disposal technology; Annual report 2006

Study on $^{99}$ Mo production method with irradiation of circulating Mo solution, 1; Results of cold tests (preliminary tests)

Effect on sintering property of MoO $_{3}$ pellets of different MoO $_{3}$ powders

Fabrication technique development of high-density MoO $_{3}$ pellets for $^{99}$ Mo/ $^{99m}$ Tc production

Irradiation effect of high-density MoO $_{3}$ pellets for $^{99}$ Mo production by (n, ) method

Development of a laser processing technique combined with water jet technique

Comparison of actual dismantling process costs of a nuclear fuel cycle facility with estimation results by the DECOST

Development of a laser technique for decommissioning of Fukushima Daiichi Nuclear Power Station

Development of nondestructive identification method by using high-energy X-ray CT for disposal-restricted materials in radioactive waste containers