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  • 陈伟雄

  • 教授

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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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性别: 男

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学位: 博士

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Flow Visualization of Submerged Steam Jet in Subcooled Water

发布时间:2025-04-30
点击次数:
发布时间:
2025-04-30
论文名称:
Flow Visualization of Submerged Steam Jet in Subcooled Water
发表刊物:
Journal of Heat Transfer
摘要:
Steam discharged into subcooled water is investigated experimentally to demonstrate the direct contact condensation phenomena in nuclear reactor safety system and underwater propulsion apparatus. The steam jet condenses to various shapes at different thermal hydraulic conditions. A condensation regime diagram is drawn to classify the regime for different flow patterns, among which there are three typical shapes of steam plume characterizing the chugging, condensation oscillation, stable condensation regime (Figure 1). The flow region can be separated into three parts—vapor, water and two-phase regions, and the white patch in the image indicating the two-phase region is a mixture of condensed vapor and subcooled water. Three typical stages of bubble motions—growth (subimage 1 to 6, Figure 2), necking (subimage 7 to 10, Figure 2), and detachment (subimage 11 to 13, Figure 2) —are demonstrated. The bubble diameter reaches the maximum at the necking stage and remains approximately invariant with the connecting neck prolonging for a period. A series of sequent photos exhibits shape transformations at the stable condensation regime, implying that the steam plume grows and shortens periodically due to comprehensive effects of injection, viscosity damping and condensation (Figure 3). The dimensionless penetration length, defined as the ratio of penetration length to nozzle diameter, is in the range of 8.23—11.67 in the Figure 3. The majority of previous literatures present the average dimensionless penetration length which is closely related with time-averaged heat transfer characteristic.
合写作者:
Yuan F, Zhao Q, Chen W, Chong D
卷号:
138(2):
页面范围:
020905
是否译文:
发表时间:
2015-12-01