论文信息 - Interfacial area transport equation: model development and benchmark experiments

Interfacial area transport equation: model development and benchmark experiments

Abstract The interfacial area transport equation dynamically models two-phase flow regime transitions and predicts continuous changes of the interfacial area concentration along the flow field. It replaces the flow regime-dependent correlations for the interfacial area concentration in thermal-hydraulic system analysis. In the present study, detailed formulation of the interfacial area transport equation is presented along with its evaluation results based on the detailed benchmark experiments. In view of model evaluation, the equation is simplified into one-dimensional steady state one-group interfacial area transport equation. The prediction made by model agrees well with the experimental data obtained in round pipes of various diameters. The framework for the two-group transport equation and the necessary constitutive relations are also presented in view of bubble transport of various sizes and shapes.

[1] Mamoru Ishii,et al. One-group interfacial area transport in vertical bubbly flow , 1998 .

[2] D. Drew. Mathematical Modeling of Two-Phase Flow , 1983 .

[3] Mamoru Ishii,et al. Two-fluid model and hydrodynamic constitutive relations , 1984 .

[4] N. Zuber,et al. Drag coefficient and relative velocity in bubbly, droplet or particulate flows , 1979 .

[5] Seungjin Kim,et al. Interfacial area transport equation and measurement of local interfacial characteristics , 1999 .

[6] Mamoru Ishii,et al. Study of two-fluid model and interfacial area , 1980 .

[7] M. Ishii,et al. Flow regime transition criteria for upward two-phase flow in vertical tubes , 1984 .

[8] J. N. Reyes. Statistically derived conservation equations for fluid particle flows , 1989 .

[9] Mamoru Ishii,et al. Local drag laws in dispersed two-phase flow , 1979 .

[10] Mamoru Ishii,et al. Foundation of the interfacial area transport equation and its closure relations , 1995 .

[11] H. Blanch,et al. Bubble coalescence and break‐up in air‐sparged bubble columns , 1990 .

[12] Mamoru Ishii,et al. Sensitivity study on double-sensor conductivity probe for the measurement of interfacial area concentration in bubbly flow , 1999 .