Three-Dimensional Analysis Method for Sloshing Behavior of FBR and Its Application to Uni- and Multi-Vessel Type FBRs.

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概要

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• A three-dimensional analysis method for sloshing behavior of FBR is developed. The method treats the coolant in a reactor vessel as a potential flow with moving liquid surfaces. The Laplace equation of velocity potential is solved by a boundary element method with its boundary conditions described by a Bernoulli equation. <BR>The method is applied to analysis of sloshing behavior of uni- and multi-vessel type FBRs and results are presented. The latter consists of vessels for the core, heat exchangers and pumps, all of which are connected by piping. In the uni-vessel type, heat exchangers and pumps are placed in the reactor vessel.

• 一般社団法人 日本原子力学会の論文

著者

• Yamakawa Masanori

  Energy Research Laboratory Hitachi Ltd.

• AMANO Ken

  Energy Research Laboratory, Hitachi Ltd.

• NAITO Masanori

  Energy Research Laboratory, Hitachi Ltd.

• TAKAKUWA Masayuki

  Hitachi Works, Hitachi Ltd.

• YAMAKAWA Masanori

  Energy Research Laboratory, Hitachi Ltd.

関連論文

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• Three-Dimensional Analysis Method for Sloshing Behavior of FBR and Its Application to Uni- and Multi-Vessel Type FBRs.
• Numerical solution method for prediction of heat transfer in tube bundles of large-size intermediate heat exchangers in FBR plants.

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