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Main Authors: Phillips, Katie A, Milewski, Paul A
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2406.17138
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author Phillips, Katie A
Milewski, Paul A
author_facet Phillips, Katie A
Milewski, Paul A
contents We present herein the derivation of a lubrication-mediated (LM) quasi-potential model for droplet rebounds off deep liquid baths, assuming the presence of a persistent dynamic air layer which acts as a lubricating pressure transfer. We then present numerical simulations of the LM model for axisymmetric rebounds of solid spheres and compare quantitatively to current results in the literature, including experimental data in the low speed impact regime. In this regime the LM model has the advantage of being far more computationally tractable than DNS and is also able to provide detailed behaviour within the micro-metric thin lubrication region. The LM system has an interesting mathematical structure, with the lubrication layer providing a free boundary elliptic problem mediating the drop and bath free-boundary evolutionary equations.
format Preprint
id arxiv_https___arxiv_org_abs_2406_17138
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Lubrication-mediated rebounds off fluid baths
Phillips, Katie A
Milewski, Paul A
Fluid Dynamics
We present herein the derivation of a lubrication-mediated (LM) quasi-potential model for droplet rebounds off deep liquid baths, assuming the presence of a persistent dynamic air layer which acts as a lubricating pressure transfer. We then present numerical simulations of the LM model for axisymmetric rebounds of solid spheres and compare quantitatively to current results in the literature, including experimental data in the low speed impact regime. In this regime the LM model has the advantage of being far more computationally tractable than DNS and is also able to provide detailed behaviour within the micro-metric thin lubrication region. The LM system has an interesting mathematical structure, with the lubrication layer providing a free boundary elliptic problem mediating the drop and bath free-boundary evolutionary equations.
title Lubrication-mediated rebounds off fluid baths
topic Fluid Dynamics
url https://arxiv.org/abs/2406.17138