1999
DOI: 10.1063/1.870005
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On a three-dimensional volume tracking model of droplet impact

Abstract: A three-dimensional model has been developed, of droplet impact onto asymmetric surface geometries. The model is based on RIPPLE, and combines a xed-grid control volume discretization of the ow equations with a volume tracking algorithm to track the droplet free surface. Surface tension is modelled as a volume force acting on uid near the free surface. Contact angles are applied as a boundary condition at the contact line. The results of two scenarios are presented, of the oblique impact of a 2 mm water drople… Show more

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Cited by 370 publications
(233 citation statements)
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“…Droplets may land at an incline to the substrate, interact with previously deposited splats, or the liquid-solid contact may become unstable and wavy. 90,91). The influence of the surrounding gas was neglected in the model, the liquid assumed incompressible and fluid flow modeled as being Newtonian and laminar.…”
Section: Numerical Modelingmentioning
confidence: 99%
“…Droplets may land at an incline to the substrate, interact with previously deposited splats, or the liquid-solid contact may become unstable and wavy. 90,91). The influence of the surrounding gas was neglected in the model, the liquid assumed incompressible and fluid flow modeled as being Newtonian and laminar.…”
Section: Numerical Modelingmentioning
confidence: 99%
“…On the other hand, most VOF implementations (and more generally, most interface capturing techniques) utilize cell face normal velocities to advect volume fractions (e.g. [21][22][23]). This implies that the methodology includes an ''implicit" (or ''effective") slip length at no-slip boundaries.…”
Section: Introductionmentioning
confidence: 99%
“…However, in their study, the viscosity and the surface tension forces in the momentum conservation equations were ignored. A volume-tracking methodology was used by Bussman et al [9] and Bussman et al [10]. They developed a three-dimensional model based on the RIPPLE code (Kothe and Mjolsness [11]) to simulate the droplet collision and splash on an inclined surface.…”
Section: Previous Computational Studiesmentioning
confidence: 99%