Seismic Isolation Design for JSFR

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概要

• 論文の詳細を見る

• This paper describes the seismic design of Japan Sodium-Cooled Fast Reactor (JSFR), which includes the seismic condition, the seismic isolation system, and the seismic evaluation of the primary components. Since the design seismic loading is set out severely than ever since The Niigata-ken Chuetsu-oki Earthquake in 2007, an advanced seismic isolation system is aimed to reduce the seismic force loaded on the primary components of JSFR to be less than that of the previous seismic isolation system. The advanced seismic isolation system is developed by optimizing the performance based on the previous seismic isolation system considering the natural frequency of the primary components. The laminated rubber bearings thicker than the previous ones and oil dampers are adopted for the advanced seismic isolation system of SFR. The seismic evaluation of nuclear reactor components applying the advanced seismic isolation system is performed and its feasibility is confirmed.

著者

• KOTAKE Shoji

  The Japan Atomic Power Company

• KAMISHIMA Yoshio

  Mitsubishi FBR Systems, Inc.

• OKAMURA Shigeki

  Mitsubishi FBR Systems

• NEGISHI Kazuo

  The Japan Atomic Power Company

• SAKAMOTO Yoshihiko

  Japan Atomic Energy Agency

• KITAMURA Seiji

  Japan Atomic Energy Agency

関連論文

• Development of Advanced Fuel Handling Machine for JSFR
• Development of System Based Code (2) Application of Reliability Target for Configuration of ISI Requirement
• Seismic Isolation Design for JSFR
• Analytical Model for Peak Temperature within a Sodium-Water Reaction Jet
• Establishment of Analytical Model for Peak Temperature Within a Sodium-Water Reaction Jet, (I) : Axial Temperature Profile Within an Inert Hot Gas Jet Injected into a Cold Liquid
• Design Study and R&D Progress on Japan Sodium-Cooled Fast Reactor
• Seismic Isolation Design for JSFR

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