Journal ArticleDOI
Wave interactions on a viscous film coating a vertical fibre: Formation of bound states
Camille Duprat,Dmitri Tseluiko,Sergey Saprykin,Serafim Kalliadasis,Frédérique Giorgiutti-Dauphiné +4 more
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TLDR
In this article, the authors investigate the details of the interaction between surface tension and viscosity effects and show that regular patterns of bound states can be obtained by external forcing and provide a qualitative theoretical explanation of the experimental findings.Abstract:
Fibre coating has attracted considerable attention over the past years due to its engineering applications as well as fundamental interest generated by the fascinating complexity of the resulting flow. A liquid film coating axisymmetrically a vertical fibre and flowing under the action of gravity spontaneously breaks up into a regular drop-like wave train. This instability results primarily from the capillary pressure induced by the azimuthal curvature (Rayleigh–Plateau instability) while the pressure induced by the axial curvature has a stabilising effect. Streamwise viscous diffusion plays a dispersive role that dramatically affects the waves selection, speeds and shapes. When both surface tension and viscosity effects are strong, complex wave interactions lead to the formation of bound states. In this study, we investigate experimentally the details of those interactions and show that regular patterns of bound states can be obtained by external forcing. A qualitative theoretical explanation of the experimental findings is provided with a simple model for the flow.read more
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Water vapor capturing using an array of traveling liquid beads for desalination and water treatment
TL;DR: A study of water vapor condensation on cold liquid beads traveling down a massive array of vertical cotton threads that act as pseudo-superhydrophilic surfaces that enhance vapor diffusion toward the liquid surface, a critical rate-limiting step.
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Low Kapitza falling liquid films
TL;DR: In this paper, a 2D thickness measurement of a vertical falling film of Dipropilene glycol (Ka = 3.7 ± 2 % ) using the light absorption technique is presented.
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Evolution of the lithium morphology from cycling of thin film solid state batteries
TL;DR: In this article, the dewetting process of thin film batteries is characterized as functions of the cycle number, duty cycle, cathode composition, and protective coating over the lithium.
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Numerical simulation of vertical liquid-film wave dynamics
TL;DR: In this article, the flow of liquid film on a vertical fiber is simulated using a multi-fluid model and it is demonstrated that nearly sinusoidal, as well as solitary waves can be simulated using an appropriate interface capturing model.
Journal ArticleDOI
Nonlinear forecasting of the generalized kuramoto-sivashinsky equation
TL;DR: This work analyzes two types of temporal signals, a local one and a global one, finding that the dynamical state of the gKS solution undergoes a transition from high-dimensional chaos to periodic pulsed oscillations through low-dimensional deterministic chaos while increasing the control parameter of the system.
References
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MonographDOI
Quantum mechanics : a modern development
TL;DR: In this paper, the authors focus on the developments in the foundations of the subject which have taken place in the last few decades and integrate those topics with the standard material, aiming to remove the unfortunate dichotomy, which has divorced the practical aspects of quantum mechanics from the interpretation and broader implications of the theory.
Journal ArticleDOI
Dancing volvox: hydrodynamic bound states of swimming algae.
Knut Drescher,Kyriacos C. Leptos,Idan Tuval,Takuji Ishikawa,Timothy J. Pedley,Raymond E. Goldstein +5 more
TL;DR: A surface-mediated hydrodynamic attraction combined with lubrication forces between spinning, bottom-heavy Volvox explains the formation, stability, and dynamics of the bound states.
Journal ArticleDOI
Formation of Saturated Solitons in a Nonlinear Dispersive System with Instability and Dissipation
Journal ArticleDOI
Drop formation during coating of vertical fibres
TL;DR: In this article, the authors estimate the initial period of this strongly nonlinear drop formation phenomenon with a self-similar intermediate asymptotic blow-up solution to the long-wave evolution equation which describes how static capillary forces drain fluid into the drop.