Well-posedness of an evaporation model for a spherical droplet exposed to an air flow

Eberhard Bänsch; Martin Doß; Carsten Gräser; Nadja Ray

doi:10.4171/ifb/524

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Well-posedness of an evaporation model for a spherical droplet exposed to an air flow

Eberhard Bänsch
Friedrich-Alexander University Erlangen-Nürnberg, Erlangen, Germany
Martin Doß
Friedrich-Alexander University Erlangen-Nürnberg, Erlangen, Germany
Carsten Gräser
Friedrich-Alexander University Erlangen-Nürnberg, Erlangen, Germany
Nadja Ray
Friedrich-Alexander University Erlangen-Nürnberg, Erlangen, Germany; Catholic University Eichstätt–Ingolstadt, Ingolstadt, Germany

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Abstract

In this paper, we address the well-posedness of an evaporation model for a spherical liquid droplet taking into account the convective impact of an air flow in the ambient gas phase. From a mathematical perspective, we are dealing with a coupled ODE–PDE system for the droplet radius, the temperature distribution, and the vapor concentration. The nonlinear coupling arises from the evaporation rate modeled by the Hertz–Knudsen equation. Under physically meaningful assumptions, we prove existence and uniqueness of a weak solution until the droplet has evaporated completely. Numerical simulations are performed to illustrate how different air flows affect the evaporation process.

Cite this article

Eberhard Bänsch, Martin Doß, Carsten Gräser, Nadja Ray, Well-posedness of an evaporation model for a spherical droplet exposed to an air flow. Interfaces Free Bound. (2024), published online first

DOI 10.4171/IFB/524