Multiphase fluid dynamics and transport processes of low capillary number cavitating flows 被引量：6

Multiphase fluid dynamics and transport processes of low capillary number cavitating flows

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摘要 To better understand the multiphase fluid dynamics and associated transport processes of cavitating flows at the capillary number of 0.74 and 0.54, and to validate the numerical results, a combined computational and experimental investigation of flows around a hydrofoil is studied based on flow visualizations and time-resolved interface movement. The computational model is based on a modified RNG k-ε model as turbulence closure, along with a vapor-liquid mass transfer model for treating the cavitation process. Overall, favorable agreement between the numerical and experimental results is observed. It is shown that the cavi- tation structure depends on the interaction of the water-vapor mixture and the vapor among the whole cavitation stage, the interface between the vapor and the two-phase mixture exhibits substantial unsteadiness. And, the adverse motion of the interface relates to pressure and velocity fluctuations inside the cavity. In particular, the velocity in the vapor region is lower than that in the two-phase region. To better understand the multiphase fluid dynamics and associated transport processes of cavitating flows at the capillary number of 0.74 and 0.54, and to validate the numerical results, a combined computational and experimental investigation of flows around a hydrofoil is studied based on flow visualizations and time-resolved interface movement. The computational model is based on a modified RNG k-ε model as turbulence closure, along with a vapor-liquid mass transfer model for treating the cavitation process. Overall, favorable agreement between the numerical and experimental results is observed. It is shown that the cavi- tation structure depends on the interaction of the water-vapor mixture and the vapor among the whole cavitation stage, the interface between the vapor and the two-phase mixture exhibits substantial unsteadiness. And, the adverse motion of the interface relates to pressure and velocity fluctuations inside the cavity. In particular, the velocity in the vapor region is lower than that in the two-phase region.

作者 Xiangbin Li Guoyu Wang Zhiyi Yu Wei Shyy

机构地区 Department of Thermal Energy Engineering Department of Nuclear Science and Engineering Department of Aerospace Engineering

出处《Acta Mechanica Sinica》 SCIE EI CAS CSCD 2009年第2期161-172,共12页 力学学报（英文版）

基金 supported by the National Natural Science Foundation of China (50679001) NASA Constellation University Institutes Program

关键词 Low capillary number cavitation Multiphasedynamics Flow visualization Turbulent cavitationmodeling Low capillary number cavitation Multiphasedynamics Flow visualization Turbulent cavitationmodeling

分类号 O35 [理学—流体力学] TQ021.1 [化学工程]

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参考文献44

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Multiphase fluid dynamics and transport processes of low capillary number cavitating flows 被引量：6

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