Analysis of Subcooled Boiling with the Two-Fluid Particle Interaction Method
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概要
- 論文の詳細を見る
A particle interaction method called MPS (the Moving Particle Semi-implicit method), which formulates the differential operators in Navier-Stokes’ equation as interactions between particles characterized by a kernel function, has been developed in recent years. We have extended this method to a two-fluid system with a potential-type surface tension in order to analyze the two-phase flow without experimental correlation. This extended method (Two-Fluid MPS: TF-MPS) was successfully applied to a subcooled boiling experiment. The most important element in any effective subcooled boiling model is to be able to accurately calculate where significant void fraction appears, that is, the location of the void departure point. The location of the initial void ejection into the subcooled liquid core can be determined fairly well experimentally and conventionally is given in terms of a critical subcooling. We investigated the relation between Stanton and Péclet numbers at the void departure point in the calculated results with TF-MPS method, varying the inlet water velocity to change Péclet number.
- 社団法人 日本原子力学会の論文
- 2003-03-25
著者
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SHIRAKAWA Noriyuki
TOSHIBA Power & Industrial Systems R&D Center
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HORIE Hideki
TOSHIBA Power & Industrial Systems R&D Center
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YAMAMOTO Yuichi
Toshiba Advanced Systems Corporation
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Shirakawa N
Power & Industrial Systems Reserch & Development Center Toshiba Corporation
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Shirakawa Noriyuki
Toshiba Power & Industrial Systems R&d Center
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Shirakawa Noriyuki
Institute Of Environmental Systems Faculty Of Engineering Kyushu University
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Yamamoto Yuichi
Toshiba It-solutions Corporation
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TSUNOYAMA Shigeaki
University of Aizu, University-Business Innovation Center
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Horie H
Toshiba Power & Industrial Systems R&d Center
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Tsunoyama Shigeaki
University Of Aizu University-business Innovation Center
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