Simulation on Annular Flow of R1234ze(E) Flow Boiling in Micro-tubes
A theoretical model for annular flow of R1234ze(E) flow boiling in micro-tubes was proposed in this paper. The surface coefficient of heat transfer and pressure drop were calculated using the model. The variation in the liquid film thickness profile due to the gravitational effect, surface tension,...
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| Published in | Zhìlěng xuébào Vol. 41 |
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| Main Authors | , |
| Format | Journal Article |
| Language | Chinese |
| Published |
Journal of Refrigeration Magazines Agency Co., Ltd
01.01.2020
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0253-4339 |
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| Abstract | A theoretical model for annular flow of R1234ze(E) flow boiling in micro-tubes was proposed in this paper. The surface coefficient of heat transfer and pressure drop were calculated using the model. The variation in the liquid film thickness profile due to the gravitational effect, surface tension, and liquid-vapor interfacial stress was considered. The effect of the variation in the liquid film thickness profile on the heat transfer was analyzed. Furthermore, certain existing surface coefficients of heat transfer and empirical correlations of two-phase friction pressure drop were compared with the numerical results, and the comparison revealed deviations within 30%. The numerical results indicated that the variation in the liquid film thickness profile is evidently affected by gravity in the initial flow area, and the gravitational effect starts to weaken with the flow boiling process. The surface coefficient of heat transfer of annular flow with gravity was higher than that without gravity. Hence, the mean |
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| AbstractList | A theoretical model for annular flow of R1234ze(E) flow boiling in micro-tubes was proposed in this paper. The surface coefficient of heat transfer and pressure drop were calculated using the model. The variation in the liquid film thickness profile due to the gravitational effect, surface tension, and liquid-vapor interfacial stress was considered. The effect of the variation in the liquid film thickness profile on the heat transfer was analyzed. Furthermore, certain existing surface coefficients of heat transfer and empirical correlations of two-phase friction pressure drop were compared with the numerical results, and the comparison revealed deviations within 30%. The numerical results indicated that the variation in the liquid film thickness profile is evidently affected by gravity in the initial flow area, and the gravitational effect starts to weaken with the flow boiling process. The surface coefficient of heat transfer of annular flow with gravity was higher than that without gravity. Hence, the mean |
| Author | 王金 李俊明 |
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| Snippet | A theoretical model for annular flow of R1234ze(E) flow boiling in micro-tubes was proposed in this paper. The surface coefficient of heat transfer and... |
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| Title | Simulation on Annular Flow of R1234ze(E) Flow Boiling in Micro-tubes |
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