摘要
对于系统中不含杂质时两个液滴在不互溶液体中的聚并过程进行理论分析,得到聚并所需时间与两相物理性质和范德华力的关系.该结果也适用于气泡在液体中的聚并.只要知道系统的物性数据和液滴半径,就可以计算聚并时间.理论预测与实验结果符合较好.
The coalescence process between two small drops of different sizes in pure liquid-liquld dispersions has been studied. When two small drops approach each other, a dimpled thin liquid film is formed between them. A model is developed for the dynamics of the thinning film in which the influence of London-van der Waals force has been considered. The model predicts that the coalescence time, which is the time required for the thinning and rupture of the liquid film, can be expressed only by the radii of the drops and the physical properties of two phases. A wide range of viscosity ratio of dispersed phase to continuous phase is examined, so that the theoretical prediction is also valid for bubble coalescence in a liquid. It is shown that the coalescence times are strongly dependent on the viscosity ratios. The prediction results are in good agreement with the previous experimental results.
出处
《物理化学学报》
SCIE
CAS
CSCD
北大核心
1995年第11期997-1003,共7页
Acta Physico-Chimica Sinica
基金
国家自然科学基金
关键词
液滴
薄液膜
聚并时间
Drop
Thin liquid film
Coalescence time