分手
人口平衡方程
破损
下降(电信)
机械
聚结(物理)
液态液体
色散(光学)
现象学模型
人口
体积流量
热力学
统计物理学
材料科学
化学
物理
数学
色谱法
光学
工程类
统计
机械工程
复合材料
人口学
社会学
天体生物学
作者
C.A. Coulaloglou,Lawrence L. Tavlarides
标识
DOI:10.1016/0009-2509(77)85023-9
摘要
Phenomenological models are proposed to describe drop breakup and coalescence in a turbulently agitated liquid-liquid dispersion. Based on these models, breakage and coalescence rate functions are developed and used to solve the general population balance equation describing drop interactions in a continuous flow vessel. Parameters of the models are evaluated by comparison with experimental data on drop size distributions and mixing frequencies obtained in a continuous flow vessel over a range of operating conditions. The favorable agreement between experimental observation and the model are encouraging that the model is suitable for predicting dispersion properties such as drop size distributions, interfacial areas and mixing frequencies.
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