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Journal of Engineering Mathematics

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25-05-2018

Drop spreading and drifting on a spatially heterogeneous film: capturing variability with asymptotics and emulation

Authors: Feng Xu, Sam Coveney, Oliver E. Jensen

Published in: Journal of Engineering Mathematics | Issue 1/2018

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Abstract

A liquid drop spreading over a thin heterogeneous precursor film (such as an inhaled droplet on the mucus-lined wall of a lung airway) will experience perturbations in shape and location as its advancing contact line encounters regions of low or high film viscosity. Prior work on spatially one-dimensional spreading over a precursor film having a random viscosity field (Xu and Jensen, Proc R Soc A 472:20160270, 2016) has demonstrated how viscosity fluctuations are swept into a narrow region behind the drop’s effective contact line, where they can impact drop dynamics. In this paper, we investigate two-dimensional drops, seeking to understand the relationship between the statistical properties of the precursor film and those of the spreading drop. Assuming the precursor film is much thinner than the drop and viscosity fluctuations are weak, we use asymptotic methods to derive explicit predictions for the mean and variance of drop area and the drop’s lateral drift. For larger film variability, we use Gaussian process emulation to estimate the variance of outcomes from a restricted set of simulations. Stochastic drift of the droplet is predicted to be the greatest when the initial drop diameter is comparable to the correlation length of viscosity fluctuations.

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https://github.com/samcoveney/maGPy.

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Title: Drop spreading and drifting on a spatially heterogeneous film: capturing variability with asymptotics and emulation
Authors: Feng Xu
Sam Coveney
Oliver E. Jensen
Publication date: 25-05-2018
Publisher: Springer Netherlands
Published in: Journal of Engineering Mathematics / Issue 1/2018
Print ISSN: 0022-0833
Electronic ISSN: 1573-2703
DOI: https://doi.org/10.1007/s10665-018-9961-y

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