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所在单位: 能源与动力工程学院

学历: 博士研究生毕业

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学位: 博士

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Effect of non-condensation gas on pressure oscillation of submerged steam jet condensation

发布时间:2025-04-30
点击次数:
发布时间:
2025-04-30
论文名称:
Effect of non-condensation gas on pressure oscillation of submerged steam jet condensation
发表刊物:
Nuclear Engineering and Design
摘要:
The effect of air with low mass fraction on the oscillation intensity and oscillation frequency of a submerged steam jet condensation is investigated under stable condensation region. With air mixing in steam, an obvious dynamic pressure peak appears along the jet direction. The intensity peak increases monotonously with the rise of steam mass flux and water temperature. Peak position moves downstream with the rise of air mass fraction. Moreover, when compared with that of pure steam jet, the oscillation intensity clearly decreases as air is mixed. However, when water temperature is lower than approximately 45 °C, oscillation intensity increases slightly with the rise of air mass fraction, and when water temperature is higher than 55 °C, the oscillation intensity decreases greatly with the rise of air mass fraction. Both the first and second dominant frequencies decrease with rise of air mass fraction. Finally, effect of air mass fractions on the oscillation power of the first and second dominant frequency bands shows similar trends. Under low water temperature, the mixed air has little effect on the oscillation power of both first and second frequency bands. However, when water temperature is high, the oscillation power of both first and second frequency bands appears an obvious peak when air mass fraction is about 1%. With further rise of air mass fraction, the oscillation power decreases gradually.
合写作者:
Zhao Q,Cong Y, Wang Y, Chen W. Chong D, Yan J
卷号:
305:
页面范围:
110-120
是否译文:
发表时间:
2016-08-01