A numerical analysis of drop impact on liquid film by using a level set method
Sang Hyuk Lee, Nahmkeon Hur* and Seongwon Kang
The Journal of Mechanical Science and Technology, vol. 25, no. 10, pp.2567-2572, 2011
Abstract : Splashing and spreading of a liquid by drop impact on liquid film depends on the impact velocity, drop size, drop properties and liquid
film thickness. These parameters can be summarized by three main dimensionless parameters: Weber number, Ohnesorge number and
non-dimensional film thickness. Upon impact of a drop on liquid film, these parameters influence the shape of the splash and the formation
and propagation of the crown. In the present study, the splashing and spreading resulting from drop impact on liquid film has been
numerically investigated by using a Level Set method for the interface tracking of the two-phase flow simulation. For various dimensionless
parameters, characteristics of the crown formation and spreading were predicted, and the results were found to show good
agreement with available experimental data in the earlier stage of crown formation and show some discrepancies in the later stage of
crown spreading due to the present 2D axi-symmetric computation, which cannot predict the secondary drops.
Keyword : Computational fluid dynamics; Crown propagation; Drop dynamics; Drop impact; Level set method; Liquid film |