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Tazaki, Makiko; Shimizu, Ryo; Kimura, Takashi; Nakatani, Takayoshi; Tamai, Hiroshi; Suda, Kazunori
Dai-42-Kai Nihon Kaku Busshitsu Kanri Gakkai Nenji Taikai Kaigi Rombunshu (Internet), 4 Pages, 2021/11
no abstracts in English
Tazaki, Makiko; Shimizu, Ryo; Kimura, Takashi; Tamai, Hiroshi; Nakatani, Takayoshi; Suda, Kazunori
Dai-41-Kai Nihon Kaku Busshitsu Kanri Gakkai Nenji Taikai Kaigi Rombunshu (Internet), 4 Pages, 2020/11
no abstracts in English
Shimizu, Ryo; Kimura, Takashi; Tazaki, Makiko; Nakatani, Takayoshi; Tamai, Hiroshi; Suda, Kazunori
Nihon Kaku Busshitsu Kanri Gakkai Dai-40-Kai Nenji Taikai Puroshideingusushu, p.97 - 99, 2019/11
Despite international accusations, Iran pursued uranium enrichment capacity. But through unprecedented strong economic sanctions, Iran accepted the restrictions on uranium enrichment capacity and agreed to accept the additional protocol. Nuclear program of Iran and nuclear deal are good precedents for denuclearization that has solved peacefully through multilateral negotiations, its process and lessons are compiled.
Shimizu, Ryo; Tazaki, Makiko; Kokaji, Lisa; Tamai, Hiroshi; Suda, Kazunori
Kaku Busshitsu Kanri Gakkai (INMM) Nihon Shibu Dai-36-Kai Nenji Taikai Rombunshu (Internet), 6 Pages, 2015/12
On 14 July 2015, E3/EU+3 and Iran reached final agreement on the Joint Comprehensive Plan of Action (JCPOA) regarding Iran's nuclear program. Iran is now allowed to purse peaceful use of nuclear energy including uranium enrichment under certain pre-agreed conditions. From now on, IAEA inspection subjected to the agreed JCPOA will be further applied. Although Iran has not yet ratified the IAEA Additional Protocol (AP) to its Comprehensive Safeguards Agreement, it now provisionally applies the AP and consequently the IAEA is able to access every nuclear related facilities in Iran including not only uranium mines, but also any places and facilities which have been suspected to relate to nuclear weapon activities. In addition, the JCPOA introduces a new system of monitoring procurement of nuclear related materials and services by Iran. In the study, together with Iran's previous nuclear activities and outline of the JCPOA, various IAEA Safeguards activities in nuclear facilities in Iran and its challenges are analysed.
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JNC TN9440 2000-008, 79 Pages, 2000/08
This report summarizes the operating and irradiatlon data of the experimental reactor "JOYO" 35th cycle. Irradiation tests in the 35th cycle are as follows: (1)C-type irradiation rig (C4F) (a)High burnup performance test of advanced austenitic stainless steel cladding fuel pins (in collaboration with France) (2)C-type irradiation rig (C6D) (a)Large diameter fuel pins irradiation tests (3)Core Materials Irradiation Rig (CMIR-5) (a)Cladding tube materials irradiation tests for "MONJU" (4)Structure Materials Irradiation Rigs (SMIR) (a)Decision of material design base standard of structure materials for prototype reactor and large scale reactor (5)Upper core structure irradiation Plug Rig (UPR-1-5) (a)Upper core neutron spectrum effect and accelerated irradiation effect (6)SurVeillance un-instrument Irradiation Rig (SVIR) (a)Confimation of surveillance irradiation condition for "JOYO" (b)Material irradiation tests (based on a contract with universities) The maximum burnup driver assembly "PFD253" reached 67,600 MWd/t (pin average).
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JNC TN9440 2000-005, 164 Pages, 2000/06
This report summarizes the operating and irradiation data of the experimental reactor "JOYO" 34th cycle, and estimates the 35th cycle irradiation condition. Irradiation tests in the 34th cycle are as follows: (1)C-type irradiation rig (C4F) (a)High burnup perfomance test of advanced austenitic stainless steel cladding fuel pins (in collaboration with France) (2)C-type irradiation rig (C6D) (a)Large diameter fuel pins irradiation tests (3)Absorber Materials Irradiation Rig (AMIR-6) (a)Run to absorber pin's cladding breach (4)Core Materials Irradiation Rig (CMIR-5) (a)Cladding tube materials irradiation tests for "MONJU" (5)Structure Materials Irradiation Rigs (SMIR) (a)Decision of material design base standard of structure materials for prototype reactor and large reactor (6)Upper core structure irradiation Plug Rig (UPR-1-5) (a)Upper core neutron spectrum effect and accelerated irradiation effect (7)SurVeillance un-instrument Irradiation Rig (SVIR) (a)Confirmation of surveillance irradiation condition for "JOYO" (b)Material irradiation tests (in collaboration with universities) The maximum burnup driver assembly "PFD537" reached 68,500MWd/t(pin average).
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JNC TN9440 2000-002, 157 Pages, 2000/02
This report summarizes the operating and irradiation data of the experimental reactor "JOYO" 33rd cycle, and estimates the 34th cycle irradiation condition. Irradiation tests in the 33rd cycle are as follows: (1)B-type irradiation rig (B9) (a)High burn up performance tests of "MONJU" fuel pins, advanced austenitic steel cladding fuel pins, large diameter fuel pins, ferrite steel cladding fuel pins and large diameter annular pellet fuel pins (b)Mixed carbide and nitride fuel pins irradiation tests (in collaboration with JAERI) (2)C-type irradiation rig (C4F) (a)High burn up performance test of advanced austenitic stainless steel cladding fuel pins (in collaboration with France) (3)C-type irradiation rig (C6D) (a)Large diameter fuel pins irradiation tests (4)Absorber Materials Irradiation Rig (AMIR-6) (a)Run to absorber pin's cladding breach (5)Core Materials Irradiation Rig (CMIR-5) (a)Cladding tube materials irradiation tests for "MONJU" (6)Core Materials Irradiation Rig (CMIR-5-1) (a)Core materials irradiation tests (7)Structure Materials Irradiation Rigs(SMIR) (a)Material irradiation tests (in collaboration with universities) (b)Surveillance back up tests for "MONJU" (8)Upper core structure Irradiation Plug Rig (UPR-1-5) (a)Upper core neutron spectrum effect and accelerated irradiation effect. The maximum burnup driver assembly "PFD516" reached 64,300MWd/t (pin average).
Power Reactor and Nuclear Fuel Development Corporation
PNC TN9360 95-002, 98 Pages, 1995/11
no abstracts in English
Power Reactor and Nuclear Fuel Development Corporation
PNC TN9360 95-001, 104 Pages, 1995/11
no abstracts in English
Power Reactor and Nuclear Fuel Development Corporation
PNC TN9360 94-002, 100 Pages, 1994/02
no abstracts in English
Power Reactor and Nuclear Fuel Development Corporation
PNC TN9360 94-001, 95 Pages, 1994/02
no abstracts in English
*; *; *; *
PNC TN1410 91-097, 17 Pages, 1991/12
This report describes the results of project JD-12 including JD-9. The objective of this project is to develop a remote surveillance system with a trigger devices which consist of ray monitor and electronic sealing switch. The concept of the system is going to be applied to an automatich storage of new MOX plant which is fully automated.
Seki, Seiichi; ; ; ; Aoki, Isao
PNC TN8440 91-014, 5 Pages, 1991/06
None
Shimizu, Ryo; Suda, Kazunori; Tazaki, Makiko; Tamai, Hiroshi; Kitade, Yuta
no journal, ,
In order to deal with Iran's and DPRK's ambitious nuclear programs, the international community has made various efforts, including negotiation within a multilateral framework and UNSC's economic sanctions. As to Iran's nuclear program, EU3+3 successfully reached a JCPOA (Joint Comprehensive Plan of Action) in July 2015 by lifting sanctions as well as limiting Iran's nuclear capacity. On the other hand, the international community has not been successful so far in discouraging DPRK from conducting nuclear and missile tests. Six-Party Talks is still suspended. In this report, various aspects of Iran's and DPRK's nuclear programs are to be precisely delineated, and then discussed in order to develop possible measures against DPRK's nuclear program, together with potential effects on the countries concerned when implementing such measures.