Two-Phase Wall and Interfacial Friction Forces in Triangle Tight Lattice Rod Bundle Subchannel
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概要
- 論文の詳細を見る
In order to obtain the data on wall and interfacial friction forces for two-phase flows in a triangle tight lattice subchannel, adiabatic experiments were conducted for single- and two-phase flows under hydrodynamic equilibrium flow conditions. In the experiment, air was used as the test gas, while water and water with a surfactant as test liquids to know the effects of the reduced surface tension on the wall and the interfacial friction forces. The data showed that both the wall and the interfacial friction forces were higher in air-water with a surfactant system than air-water one. In the analysis, the respective data have been compared with the predicted values by existing correlations, and the existing correlations were modified to improve its prediction accuracy against the present data. The modified correlations can predict well the present data on the wall and the interfacial friction forces for both air-water and air-water with a surfactant systems.
- 一般社団法人 日本機械学会の論文
著者
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Sadatomi Michio
Department Of Mechanical Engineering & Materials Science Kumamoto University
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Kawahara Akimaro
Department Of Mechanical Engineering & Materials Science Kumamoto University
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Shirai Hiroshi
Tepco Systems Corporation
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KAWAHARA Akimaro
Department of Mechanical System Engineering, Kumamoto University
関連論文
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- H206 EFFECT OF ENTRAINED LIQUID ON TURBULENT MIXING RATE BETWEEN SUBCHANNELS IN ANNULAR TWO-PHASE FLOWS(BWR thermal hydraulics)
- Single- and Two-Phase Turbulent Mixing Rate between Subchannels in Triangle Tight Lattice Rod Bundle(International Conferences on Power and Energy)
- Void Fraction and Pressure Drop in Two-Phase Equilibrium Flows in a Vertical 2×3 Rod Bundle Channel : Assessment of Correlations against the Present Subchannel Data(International Conferences on Power and Energy)
- Single- and Two-Phase Diversion Cross-Flows Between Triangle Tight Lattice Rod Bundle Subchannels -Data on Flow Resistance and Interfacial Friction Coefficients for the Cross-Flow
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