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Equilibrium shape of a water droplet
Posted 20 giu 2023, 01:47 GMT-4 Fluid & Heat, Computational Fluid Dynamics (CFD), Microfluidics Version 6.1 2 Replies
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Hello everyone!
Could anyone suggest the most efficient strategy to compute the stationary equilibrium shape of a water droplet? I know it is a sphere if only surface tension is present, but it can be something else under additional forces such as from an external electric field.
Now I know how to compute the transient deformations of the droplet under e.g. surface tension - with moving mesh, freely deforming domain and single phase laminar flow. So in principle I can get the stationary solution by waiting long enough till the transient ceases and the stationay state is reached, but I am wondering if there is a more direct way to get the final shape of the droplet starting with a reasonable guess?
Can the moving mesh deform at once into the correct shape in a stationary study? Or do I have to use other methods instead, such as phase field/level set?