Demonstration of Control Rod Holding Stability of the Self Actuated Shutdown System in Joyo for Enhancement of Fast Reactor Inherent Safety
スポンサーリンク
概要
- 論文の詳細を見る
Self actuated shutdown system (SASS) with a Curie point electromagnet (CPEM) has been developed for use in a large-scale liquid metal cooled fast breeder reactor (LMFBR) in order to establish the passive shutdown capability against anticipated transient without scram (ATWS) events. The basic characteristics of SASS have already been investigated by various out-of-pile tests for material elements. As the final stage of the development, the stability of SASS needs to be confirmed under the actual reactor-operational environment with high temperature, high neutron flux, and flowing sodium to ensure the high plant availability factor. For this purpose, the demonstration test of holding stability using the reduced-scale experimental equipment of SASS was conducted in the 1st and 2nd operational cycles of the experimental fast reactor Joyo MK-III. The rod-holding stability and the rod-recovering functions of the driving system to re-connect and pull out the separated control rod were fully confirmed. The results also indicate there is no essential problem for the practical use of SASS about its operational trouble involving the unexpected drop during reactor operation.
- 社団法人 日本原子力学会の論文
- 2007-03-25
著者
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TAKAMATSU Misao
Japan Atomic Energy Agency
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SEKINE Takashi
Japan Atomic Energy Agency
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KOTAKE Shoji
Japan Atomic Energy Agency
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Kotake Shoji
Japan Atomic Power Company
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Uchida Masato
Japan Atomic Power Company
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AOYAMA Takafumi
Japan Atomic Energy Agency, Oarai R&D Center
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Aoyama Takafumi
Japan Atomic Energy Agency
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Sekine Takashi
Japan Atomic Energy Agency Oarai R&d Center
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Aoyama Takafumi
Japan Atomic Energy Agency Oarai R&d Center
関連論文
- Development of Observation Techniques in Reactor Vessel of Experimental Fast Reactor Joyo
- Electromagnetic Pumps for Main Cooling Systems of Commercialized Sodium-Cooled Fast Reactor
- Core Modification to Improve Irradiation Efficiency of the Experimental Fast Reactor Joyo
- Safety Strategy of JSFR Eliminating Severe Recriticality Events and Establishing In-Vessel Retention in the Core Disruptive Accident
- Measurement of Burnup in FBR MOX Fuel Irradiated to High Burnup
- Demonstration of Control Rod Holding Stability of the Self Actuated Shutdown System in Joyo for Enhancement of Fast Reactor Inherent Safety
- Electromagnetic Pumps for Main Cooling Systems of Commercialized Sodium-Cooled Fast Reactor
- Transmutation of Technetium in the Experimental Fast Reactor "JOYO"
- Safety Strategy of JSFR Eliminating Severe Recriticality Events and Establishing In-Vessel Retention in the Core Disruptive Accident
- Core Modification to Improve Irradiation Efficiency of the Experimental Fast Reactor Joyo
- Irradiation Test of Fuel Containing Minor Actinides in the Experimental Fast Reactor Joyo
- Verification of JUPITER Standard Analysis Method for Upgrading Joyo MK-III Core Design and Management