Publication

From coating flow patterns to porous body wake dynamics via multiscale models

Pier Giuseppe Ledda
2022
Thèse EPFL
Résumé

Multiscale phenomena are involved in countless problems in fluid mechanics. Coating flows are known to exhibit a broad variety of patterns, such as wine tears in a glass and dripping of fresh paint applied on a wall. Coating flows are typically modeled under the assumption that the thickness of the fluid layer is much smaller than the characteristic length of the free-surface deformations, i.e. there is a separation of scales between the microscopic variations of the velocity and pressure field along the thin layer and the macroscopic modulations of the free-surface. A different multiscale phenomenon of undeniable interest in the fluid dynamics community is the flow around and through porous objects. Dandelion seeds are transported by the wind thanks to a hairy structure, called pappus, known to present larger values of the aerodynamic drag and a more stable wake compared to an impervious disk in the same flow conditions.This thesis investigates the pattern formation of several coating flows and the wake dynamics past diverse permeable bodies via multiscale models. We initially consider the flow of a thin viscous film underneath an inclined planar substrate. We show the emergence of free-surface structures modulated along the direction transversal to the main flow, called rivulets. These rivulets result from a pure equilibrium between hydrostatic gravity and surface tension effects, and may destabilize with the formation of traveling drops. We determine via a linear stability analysis the critical values of the inclination angle and film thickness beyond which rivulets destabilize. We numerically study the linear and non-linear response with respect to a harmonic forcing in the inlet flow rate, determining the diverse lenses' patterns emerging on a steady rivulet. The dripping problem is deepened by considering a single drop deposited on a very thin film. Very slight inclinations with respect to the horizontal, of the order of degrees, lead to the formation of a rivulet in the wake of a shrinking drop. Subsequently, we investigate the role of these instabilities in karst draperies formation, by coupling the hydrodynamic model with the deposition of calcium carbonate on the substrate. We implement an algorithm which retrieves the asymptotic properties of the two-dimensional linear impulse response from numerical simulations. The analysis shows the predominance of streamwise structures, reminiscent of draperies, growing on the substrate. The role of modifications of the substrate is then investigated in the cases of dewetting of very thin polymer films, in the context of production of optical metasurfaces, and in the case of three-dimensional spreading of a mass of fluid. The last part of the thesis is devoted to the modifications of wake flows instabilities past bluff bodies when composed of a permeable microstructure, with a focus on the case of a porous sphere and a cylindrical circular membrane. We develop an inverse procedure to optimize and retrieve the microstructure based on flow objectives. The analysis is concluded by studying the path instability of a freely-falling permeable disk. A complex series of bifurcations occurs but, as the ratio between voids and solid structure increases, all wake and path instabilities are damped.

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vignette|redresse=2|Couches limites laminaires et turbulentes d'un écoulement sur une plaque plane (avec profil des vitesses moyennes). La couche limite est la zone d'interface entre un corps et le fluide environnant lors d'un mouvement relatif entre les deux. Elle est la conséquence de la viscosité du fluide et est un élément important en mécanique des fluides (aérodynamique, hydrodynamique), en météorologie, en océanographie vignette|Profil de vitesses dans une couche limite.
Dynamique des fluides
La dynamique des fluides (hydrodynamique ou aérodynamique), est l'étude des mouvements des fluides, qu'ils soient liquides ou gazeux. Elle fait partie de la mécanique des fluides avec l'hydrostatique (statique des fluides). La résolution d'un problème de dynamique des fluides demande de calculer diverses propriétés des fluides comme la vitesse, la viscosité, la densité, la pression et la température en tant que fonctions de l'espace et du temps.
Mécanique des fluides
La mécanique des fluides est un domaine de la physique consacré à l’étude du comportement des fluides (liquides, gaz et plasmas) et des forces internes associées. C’est une branche de la mécanique des milieux continus qui modélise la matière à l’aide de particules assez petites pour relever de l’analyse mathématique, mais assez grandes par rapport aux molécules pour être décrites par des fonctions continues. Elle comprend deux sous-domaines : la statique des fluides, qui est l’étude des fluides au repos, et la dynamique des fluides, qui est l’étude des fluides en mouvement.
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