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129 results on '"Juric, Damir"'

1. Surfactant-laden bubble bursting: dynamics of capillary waves and Worthington jet at large Bond number

Author

Pico, Paula, Kahouadji, Lyes, Shin, Seungwon, Chergui, Jalel, Juric, Damir, and Matar, Omar K.

Subjects
Physics - Fluid Dynamics
Abstract

We present a numerical study of the main sub-stages preceding aerosol formation via bursting bubbles: capillary wave propagation along the bubble, convergence at the bubble's apex, the ascent of a Worthington jet and its break-up to release liquid drops. We focus on two crucial yet overlooked aspects of the system: the presence of surface-active agents and dynamics driven by non-negligible gravitational effects, quantified by the Bond number. Our results propose, for the first time, a mechanism explaining capillary wave retardation in the presence of surfactants, involving the transition from bi- to uni-directional Marangoni stresses, which pull the interface upwards, countering the motion of the waves. We also quantitatively elucidate the variable nature of the waves' velocity with various surfactant parameters, including surfactant solubility and elasticity, a departure from the constant behaviour well-documented in clean interfaces., Comment: 22 pages, 14 figures

Published
2024

4. Drop encapsulation and bubble bursting in surfactant-laden flows in capillary channels

Author

Pico, Paula, Kahouadji, Lyes, Shin, Seungwon, Chergui, Jalel, Juric, Damir, and Matar, Omar K.

Subjects
Physics - Fluid Dynamics
Abstract

We present a parametric study of the unsteady phenomena associated with the flow of elongated gas bubbles travelling through liquid-filled square capillaries under high Weber number conditions. These conditions consistently induce the formation of a re-entrant jet at the back of the bubble that commonly gives way to a deep liquid cavity. Subsequent steps include pinch-off events in the cavity to generate one or multiple encapsulated drops which may coalesce, in conjunction with the bursting of the bubble-liquid interface by either the cavity or the drops. Some of these interfacial instabilities have previously been reported experimentally (Olbricht 1996) and numerically (Izbassarov & Muradoglu 2016) for liquid-liquid flow in microchannels. We carry out three-dimensional direct numerical simulations based on a hybrid interface-tracking/level-set method capable of accounting for the presence and dynamic exchange of surfactants between the liquid bulk phase and the liquid-gas interface. Our results indicate that the delicate interplay amongst inertia, capillarity, viscosity, surfactant adsorption/desorption kinetics, and Marangoni stresses has a dramatic influence over the non-axisymmetric morphological structures of the encapsulated drops-elongated bubble. This strong coupling also influences the pinch-off time, penetration depth of the cavity, and number, size, and velocity of the encapsulated drops across the bubble. The observed phenomena are summarised in three main morphological regimes based on surfactant-related parameters and dimensionless groups. A discussion of the flow regime maps is also provided., Comment: 32 pages, 11 figures

Published
2022

5. Human Evaluation and Correlation with Automatic Metrics in Consultation Note Generation

Author

Moramarco, Francesco, Korfiatis, Alex Papadopoulos, Perera, Mark, Juric, Damir, Flann, Jack, Reiter, Ehud, Belz, Anya, and Savkov, Aleksandar

Subjects
Computer Science - Computation and Language
Abstract

In recent years, machine learning models have rapidly become better at generating clinical consultation notes; yet, there is little work on how to properly evaluate the generated consultation notes to understand the impact they may have on both the clinician using them and the patient's clinical safety. To address this we present an extensive human evaluation study of consultation notes where 5 clinicians (i) listen to 57 mock consultations, (ii) write their own notes, (iii) post-edit a number of automatically generated notes, and (iv) extract all the errors, both quantitative and qualitative. We then carry out a correlation study with 18 automatic quality metrics and the human judgements. We find that a simple, character-based Levenshtein distance metric performs on par if not better than common model-based metrics like BertScore. All our findings and annotations are open-sourced., Comment: To be published in proceedings of ACL 2022

Published
2022

6. Towards more patient friendly clinical notes through language models and ontologies

Author

Moramarco, Francesco, Juric, Damir, Savkov, Aleksandar, Flann, Jack, Lehl, Maria, Boda, Kristian, Grafen, Tessa, Zhelezniak, Vitalii, Gohil, Sunir, Korfiatis, Alex Papadopoulos, and Hammerla, Nils

Subjects
Computer Science - Computation and Language
Abstract

Clinical notes are an efficient way to record patient information but are notoriously hard to decipher for non-experts. Automatically simplifying medical text can empower patients with valuable information about their health, while saving clinicians time. We present a novel approach to automated simplification of medical text based on word frequencies and language modelling, grounded on medical ontologies enriched with layman terms. We release a new dataset of pairs of publicly available medical sentences and a version of them simplified by clinicians. Also, we define a novel text simplification metric and evaluation framework, which we use to conduct a large-scale human evaluation of our method against the state of the art. Our method based on a language model trained on medical forum data generates simpler sentences while preserving both grammar and the original meaning, surpassing the current state of the art.

Published
2021

8. Towards objectively evaluating the quality of generated medical summaries

Author

Moramarco, Francesco, Juric, Damir, Savkov, Aleksandar, and Reiter, Ehud

Subjects
Computer Science - Computation and Language
Abstract

We propose a method for evaluating the quality of generated text by asking evaluators to count facts, and computing precision, recall, f-score, and accuracy from the raw counts. We believe this approach leads to a more objective and easier to reproduce evaluation. We apply this to the task of medical report summarisation, where measuring objective quality and accuracy is of paramount importance.

Published
2021

9. Direct numerical simulations of transient turbulent jets: vortex-interface interactions

Author

Constante-Amores, Cristian R., Kahouadji, Lyes, Batchvarov, Assen, Shin, Seungwon, Chergui, Jalel, Juric, Damir, and Matar, Omar K.

Subjects
Physics - Fluid Dynamics
Abstract

The breakup of an interface into a cascade of droplets and their subsequent coalescence is a generic problem of central importance to a large number of industrial settings such as mixing, separations, and combustion. We study the breakup of a liquid jet introduced through a cylindrical nozzle into a stagnant viscous phase via a hybrid interface-tracking/level-set method to account for the surface tension forces in a three-dimensional Cartesian domain. Numerical solutions are obtained for a range of Reynolds (Re) and Weber (We) numbers. We find that the interplay between the azimuthal and streamwise vorticity components leads to different interfacial features and flow regimes in Re-We space. We show that the streamwise vorticity plays a critical role in the development of the three-dimensional instabilities on the jet surface. In the inertia-controlled regime at high Re and We, we expose the details of the spatio-temporal development of the vortical structures affecting the interfacial dynamics. A mushroom-like structure is formed at the leading edge of the jet inducing the generation of a liquid sheet in its interior that undergoes rupture to form droplets. These droplets rotate inside the mushroom structure due to their interaction with the prevailing vortical structures. Additionally, Kelvin-Helmholtz vortices that form near the injection point deform in the streamwise direction to form hairpin vortices, which, in turn, trigger the formation of interfacial lobes in the jet core. The thinning of the lobes induces the creation of holes which expand to form liquid threads that undergo capillary breakup to form droplets., Comment: 29 pages, 16 figures

Published
2020
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10. The transition to aeration in two-phase mixing in stirred vessels

Author

Kahouadji, Lyes, Batchvarov, Assen, Amores, Cristian R. Constante, Shin, Seungwon, Chergui, Jalel, Juric, Damir, Craster, Richard V., and Matar, Omar K.

Subjects
Physics - Fluid Dynamics
Abstract

We consider the mixing of a viscous fluid by the rotation of a pitched blade turbine inside an open, cylindrical tank, with air as the lighter fluid above. To examine the flow and interfacial dynamics, we utilise a highly-parallelised implementation of a hybrid front-tracking/level-set method that employs a domain-decomposition parallelisation strategy. Our numerical technique is designed to capture faithfully complex interfacial deformation, and changes of topology, including interface rupture and dispersed phase coalescence. As shown via transient, three-dimensional direct numerical simulations, the impeller induces the formation of primary vortices that arise in many idealised rotating flows as well as several secondary vortical structures resembling Kelvin-Helmholtz, vortex breakdown, blade tip vortices, and end-wall corner vortices. As the rotation rate increases, a transition to `aeration' is observed when the interface reaches the rotating blades leading to the entrainment of air bubbles into the viscous fluid and the creation of a bubbly, rotating, free surface flow. The mechanisms underlying the aeration transition are probed as are the routes leading to it, which are shown to exhibit a strong dependence on flow history., Comment: rejected version

Published
2020

11. Three-dimensional dynamics of falling films in the presence of insoluble surfactants

Author

Batchvarov, Assen, Kahouadji, Lyes, Constante-Amores, Cristian R., Gonçalves, Gabriel Farah Norões, Shin, Seungwon, Chergui, Jalel, Juric, Damir, and Matar, Omar K.

Subjects
Physics - Fluid Dynamics
Abstract

We study the effect of insoluble surfactants on the wave dynamics of vertically-falling liquid films. We use three-dimensional numerical simulations and employ a hybrid interface-tracking/level-set method, taking into account Marangoni stresses induced by gradients of interfacial surfactant concentration. Our numerical predictions for the evolution of the surfactant-free, three-dimensional wave topology are validated against the experimental work of Park & Nosoko (2003). The addition of surfactants is found to influence significantly the development of horseshoe-shaped waves. At low Marangoni numbers, we show that the wave fronts exhibit spanwise oscillations before eventually acquiring a quasi two-dimensional shape. In addition, the presence of Marangoni stresses are found to suppress the peaks of the travelling waves and preceding capillary wave structures. At high Marangoni numbers, a near complete rigidification of the interface is observed., Comment: 10 pages, 5 figures

Published
2020
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12. Effect of surfactant on elongated bubbles in capillary tubes at high Reynolds number

Author

Batchvarov, Assen, Kahouadji, Lyes, Magnini, Mirco, Constante-Amores, Cristian R., Craster, Richard V ., Shin, Seungwon, Chergui, Jalel, Juric, Damir, and Matar, Omar K.

Subjects
Physics - Fluid Dynamics
Abstract

The effect of surfactants on the tail and film dynamics of elongated gas bubbles propagating through circular capillary tubes is investigated by means of an extensive three-dimensional numerical study using a hybrid front-tracking/level-set method. The focus is on the visco-inertial regime, which occurs when the Reynolds number of the flow is much larger than unity. Under these conditions, `clean' bubbles exhibit interface undulations in the proximity of the tail \cite{Magnini_prf_2017}, with an amplitude that increases with the Reynolds number. We perform a systematic analysis of the impact of a wide range of surfactant properties, including elasticity, bulk surfactant concentration, solubility, and diffusivity, on the bubble and flow dynamics in the presence of inertial effects. The results show that the introduction of surfactants is effective in suppressing the tail undulations as they tend to accumulate near the bubble tail. Here, large Marangoni stresses are generated, which lead to a local `rigidification' of the bubble. This effect becomes more pronounced for larger surfactant elasticities and adsorption depths. At reduced surfactant solubility, a thicker rigid film region forms at the bubble rear, where a Couette film flow is established, while undulations still appear at the trailing edge of the downstream `clean' film region. In such conditions, the bubble length becomes an influential parameter, with short bubbles becoming completely rigid., Comment: 20 pages and 12 figures

Published
2020

13. Can Embeddings Adequately Represent Medical Terminology? New Large-Scale Medical Term Similarity Datasets Have the Answer!

Author

Schulz, Claudia and Juric, Damir

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

A large number of embeddings trained on medical data have emerged, but it remains unclear how well they represent medical terminology, in particular whether the close relationship of semantically similar medical terms is encoded in these embeddings. To date, only small datasets for testing medical term similarity are available, not allowing to draw conclusions about the generalisability of embeddings to the enormous amount of medical terms used by doctors. We present multiple automatically created large-scale medical term similarity datasets and confirm their high quality in an annotation study with doctors. We evaluate state-of-the-art word and contextual embeddings on our new datasets, comparing multiple vector similarity metrics and word vector aggregation techniques. Our results show that current embeddings are limited in their ability to adequately encode medical terms. The novel datasets thus form a challenging new benchmark for the development of medical embeddings able to accurately represent the whole medical terminology., Comment: Accepted at AAAI 2020

Published
2020

16. Faraday instability on a sphere: numerical simulation

Author

Ebo-Adou, Ali-higo, Tuckerman, Laurette S., Shin, Seungwon, Chergui, Jalel, and Juric, Damir

Subjects
Physics - Fluid Dynamics, Nonlinear Sciences - Pattern Formation and Solitons
Abstract

We consider a spherical variant of the Faraday problem, in which a spherical drop is subjected to a time-periodic body force, as well as surface tension. We use a full three-dimensional parallel front-tracking code to calculate the interface motion of the parametrically forced oscillating viscous drop, as well as the velocity field inside and outside the drop. Forcing frequencies are chosen so as to excite spherical harmonic wavenumbers ranging from 1 to 6. We excite gravity waves for wavenumbers 1 and 2 and observe translational and oblate-prolate oscillation, respectively. For wavenumbers 3 to 6, we excite capillary waves and observe patterns analogous to the Platonic solids. For low viscosity, both subharmonic and harmonic responses are accessible. The patterns arising in each case are interpreted in the context of the theory of pattern formation with spherical symmetry.

Published
2019
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20. An Interface-Tracking Technique for Multiphase Flow with Soluble Surfactant

Author

Shin, Seungwon, Chergui, Jalel, Juric, Damir, Kahouadji, Lyes, Matar, Omar K., and Craster, Richard V.

Subjects
Computer Science - Computational Engineering, Finance, and Science, Physics - Computational Physics
Abstract

We adapt and extend a formulation for soluble surfactant transport in multiphase flows recently presented by Muradoglu & Tryggvason (JCP 274 (2014) 737-757) to the context of the Level Contour Reconstruction Method (Shin et al. IJNMF 60 (2009) 753-778) which is a hybrid method that combines the advantages of the Front-tracking and Level Set methods. Particularly close attention is paid to the formulation and numerical implementation of the surface gradients of surfactant concentration and surface tension. Various benchmark tests are performed to demonstrate the accuracy of different elements of the algorithm. To verify surfactant mass conservation, values for surfactant diffusion along the interface are compared with the exact solution for the problem of uniform expansion of a sphere. The numerical implementation of the discontinuous boundary condition for the source term in the bulk concentration is compared with the approximate solution. Surface tension forces are tested for Marangoni drop translation. Our numerical results for drop deformation in simple shear are compared with experiments and results from previous simulations. All benchmarking tests compare well with existing data thus providing confidence that our adapted LCRM formulation for surfactant advection and diffusion is accurate and effective in three-dimensional multiphase flows. We also demonstrate that this approach applies easily to massively parallel simulations.

Published
2017
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21. Hybrid Reasoning Over Large Knowledge Bases Using On-The-Fly Knowledge Extraction

Author

Stoilos, Giorgos, Juric, Damir, Wartak, Szymon, Schulz, Claudia, Khodadadi, Mohammad, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Harth, Andreas, editor, Kirrane, Sabrina, editor, Ngonga Ngomo, Axel-Cyrille, editor, Paulheim, Heiko, editor, Rula, Anisa, editor, Gentile, Anna Lisa, editor, Haase, Peter, editor, and Cochez, Michael, editor

Published
2020
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22. Three dimensional simulations of viscous folding in diverging microchannels

Author

Xu, Bingrui, Chergui, Jalel, Shin, Seungwon, and Juric, Damir

Subjects
Physics - Fluid Dynamics
Abstract

Three dimensional simulations on the viscous folding in diverging microchannels reported by Cubaud and Mason are performed using the parallel code BLUE for multi-phase flows. The more viscous liquid L_1 is injected into the channel from the center inlet, and the less viscous liquid L_2 from two side inlets. Liquid L_1 takes the form of a thin filament due to hydrodynamic focusing in the long channel that leads to the diverging region. The thread then becomes unstable to a folding instability, due to the longitudinal compressive stress applied to it by the diverging flow of liquid L_2. Given the long computation time, we were limited to a parameter study comprising five simulations in which the flow rate ratio, the viscosity ratio, the Reynolds number, and the shape of the channel were varied relative to a reference model. In our simulations, the cross section of the thread produced by focusing is elliptical rather than circular. The initial folding axis can be either parallel or perpendicular to the narrow dimension of the chamber. In the former case, the folding slowly transforms via twisting to perpendicular folding, or it may remain parallel. The direction of folding onset is determined by the velocity profile and the elliptical shape of the thread cross section in the channel that feeds the diverging part of the cell. Due to the high viscosity contrast and very low Reynolds numbers, direct numerical simulations of this two-phase flow are very challenging and to our knowledge these are the first three-dimensional direct parallel numerical simulations of viscous threads in microchannels. Our simulations provide good qualitative comparison of the early time onset of the folding instability however since the computational time for these simulations is quite long, for such viscous threads, long-time comparisons with experiments for quantities such as folding frequency are limited., Comment: 11pages, 8 figures, this is the pre-print (pre-referring) version. Accepted by Microfluidics and Nanofluidics on Sept. 11th, 2016

Published
2016
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23. Hysteretic Faraday Waves

Author

Périnet, Nicolas, Falcón, Claudio, Chergui, Jalel, Juric, Damir, and Shin, Seungwon

Subjects
Physics - Fluid Dynamics
Abstract

We report on the numerical and theoretical study of the subcritical bifurcation of parametrically amplified waves appearing at the interface between two immiscible incompressible fluids when the layer of the lower fluid is very shallow. As a critical control parameter is surpassed, small amplitude surface waves bifurcate towards highly nonlinear ones, with twice their amplitude. We propose a simple phenomenological model which can describe the observed bifurcation. We relate this hysteresis with the change of shear stress using a simple stress balance, in agreement with numerical results., Comment: 5 pages, 4 figures. Submitted to Physical Review E

Published
2016
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25. An Ontology-Based Interactive System for Understanding User Queries

Author

Stoilos, Giorgos, Wartak, Szymon, Juric, Damir, Moore, Jonathan, Khodadadi, Mohammad, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Hitzler, Pascal, editor, Fernández, Miriam, editor, Janowicz, Krzysztof, editor, Zaveri, Amrapali, editor, Gray, Alasdair J.G., editor, Lopez, Vanessa, editor, Haller, Armin, editor, and Hammar, Karl, editor

Published
2019
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26. Supporting Digital Healthcare Services Using Semantic Web Technologies

Author

Barisevičius, Gintaras, Coste, Martin, Geleta, David, Juric, Damir, Khodadadi, Mohammad, Stoilos, Giorgos, Zaihrayeu, Ilya, Hutchison, David, Editorial Board Member, Kanade, Takeo, Editorial Board Member, Kittler, Josef, Editorial Board Member, Kleinberg, Jon M., Editorial Board Member, Mattern, Friedemann, Editorial Board Member, Mitchell, John C., Editorial Board Member, Naor, Moni, Editorial Board Member, Pandu Rangan, C., Editorial Board Member, Terzopoulos, Demetri, Editorial Board Member, Tygar, Doug, Editorial Board Member, Weikum, Gerhard, Series Editor, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Vrandečić, Denny, editor, Bontcheva, Kalina, editor, Suárez-Figueroa, Mari Carmen, editor, Presutti, Valentina, editor, Celino, Irene, editor, Sabou, Marta, editor, Kaffee, Lucie-Aimée, editor, and Simperl, Elena, editor

Published
2018
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28. Poster: Ensheathed Falling Particle

Author

Abdal, Abdullah, primary, Kahouadji, Lyes, additional, Panda, Debashis, additional, Shin, Seungwon, additional, Chergui, Jalel, additional, Juric, Damir, additional, Caulfield, Colm-Cille, additional, and Matar, Omar, additional

Published
2023
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29. Poster: Drop Medusa

Author

Panda, Debashis, primary, Kahouadji, Lyes, additional, Tuckerman, Laurette, additional, Shin, Seungwon, additional, Chergui, Jalel, additional, Juric, Damir, additional, and Matar, Omar, additional

Published
2023
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32. Knowledge Extraction from Audio Content Service Providers’ API Descriptions

Author

Juric, Damir, Fazekas, György, Diniz Junqueira Barbosa, Simone, Series editor, Chen, Phoebe, Series editor, Du, Xiaoyong, Series editor, Filipe, Joaquim, Series editor, Kara, Orhun, Series editor, Kotenko, Igor, Series editor, Liu, Ting, Series editor, Sivalingam, Krishna M., Series editor, Washio, Takashi, Series editor, Garoufallou, Emmanouel, editor, Subirats Coll, Imma, editor, Stellato, Armando, editor, and Greenberg, Jane, editor

Published
2016
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42. Numerical study of oil-water emulsion formation in stirred vessels: effect of impeller speed

Author

Liang, Fuyue, Kahouadji, Lyes, Valdes, Juan Pablo, Shin, Seungwon, Chergui, Jalel, Juric, Damir, Matar, Omar, Imperial College London, Hongik University, Laboratoire Interdisciplinaire des Sciences du Numérique (LISN), Institut National de Recherche en Informatique et en Automatique (Inria)-CentraleSupélec-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), COuplages Multiphysiques Et Transferts (COMET), Institut National de Recherche en Informatique et en Automatique (Inria)-CentraleSupélec-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche en Informatique et en Automatique (Inria)-CentraleSupélec-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Mécanique-Energétique (M.-E.), and Institut National de Recherche en Informatique et en Automatique (Inria)-CentraleSupélec-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche en Informatique et en Automatique (Inria)-CentraleSupélec-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SPI]Engineering Sciences [physics], LES, Oil-water Emulsion, [NLIN]Nonlinear Sciences [physics], Multiphase mixing
Abstract

International audience; The mixing of immiscible oil and water by a pitched blade turbine in a cylindrical vessel is studied numerically.Three-dimensional simulations combined with a hybrid front-tracking/level-set method are employed to capturethe complex flow and interfacial dynamics. A large eddy simulation approach, with a Lilly-Smagorinsky model, isemployed to simulate the turbulent two-phase dynamics at large Re = 5663 - 56632. The numerical predictionsare validated against previous experimental work involving single-drop breakup in a stirred vessel. For small Re,the interface is deformed but does not reach the impeller hub, assuming instead the shape of a Newton’s Bucket.As the rotating speed increases, the deforming interface attaches to the impeller hub which leads to the formationof long ligaments that subsequently break up into small droplets. For the largest Re studied, the system dynamicsbecomes extremely complex wherein the creation of ligaments, their breakup, and the coalescence of drops occursimultaneously. The simulation outcomes are presented in terms of spatio-temporal evolution of the interface shapeand vortical structures. The results of a drop size analysis in terms of the evolution of the number of drops, andtheir size distribution, is also presented as a parametric function of Re.

Published
2022
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43. Role of surfactant-induced Marangoni stresses in retracting liquid sheets

Author

C. R., Constante-Amores, J., Chergui, S., Shin, Juric, Damir, J. R., Castrejón-Pita, A. A., Castrejón-Pita, Laboratoire Interdisciplinaire des Sciences du Numérique (LISN), Institut National de Recherche en Informatique et en Automatique (Inria)-CentraleSupélec-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), COuplages Multiphysiques Et Transferts (COMET), Institut National de Recherche en Informatique et en Automatique (Inria)-CentraleSupélec-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche en Informatique et en Automatique (Inria)-CentraleSupélec-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Mécanique-Energétique (M.-E.), and Institut National de Recherche en Informatique et en Automatique (Inria)-CentraleSupélec-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche en Informatique et en Automatique (Inria)-CentraleSupélec-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SPI]Engineering Sciences [physics], [NLIN]Nonlinear Sciences [physics]
Abstract

International audience; In this work, we study the effect of insoluble surfactants on the three-dimensional rim-driven retraction dynamics of thin water sheets in air. We employ an interfacetracking/level-set method to ensure the full coupling between the surfactant-induced Marangoni-stresses, interfacial diffusion, and inertia. Our findings are contrasted with the (Newtonian) dynamics of a liquid sheet edge finding that the surfactant concentration can prevent, or delay, the breakup of the rim. Our simulations use the fastest growing Rayleigh-Plateau instability to drive droplet detachment from the fluid sheet (rim). The results of this work unravel the significant role of Marangoni stresses in the retracting sheet dynamics at large elasticity numbers. We study the sensitivity of the dynamics to the elasticity number and the rigidification of the interface.

Published
2022

47. Three-dimensional direct numerical simulations of the dynamics of retractingsurfactant-laden ligaments

Author

Constante-Amores, Cristian R., Kahouadji, Lyes, Batchvarov, Assen, Matar, Omar K., Shin, Seungwon, Chergui, Jalel, Juric, Damir, Laboratoire d'Informatique pour la Mécanique et les Sciences de l'Ingénieur (LIMSI), Université Paris Saclay (COmUE)-Centre National de la Recherche Scientifique (CNRS)-Sorbonne Université - UFR d'Ingénierie (UFR 919), and Sorbonne Université (SU)-Sorbonne Université (SU)-Université Paris-Saclay-Université Paris-Sud - Paris 11 (UP11)

Subjects
[SPI]Engineering Sciences [physics], [SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering, [NLIN]Nonlinear Sciences [physics]
Abstract

International audience; The dynamics of ligaments retracting under the action of surface tension occurs in a multitude of natural and industrial applications, such as inkjet printing and atomisation. We perform fully three-dimensional, two-phase direct numerical simulations of the retraction dynamics with soluble surfactants. A full parametric study is performed using a hybrid interface-tracking/level-set method, which is utilised to treat the interface; this method is capable of capturing faithfully the topological transitions that are a feature of the flow over a certain range of ligament aspect ratios and Ohnesorge numbers. Our results demonstrate the delicate interplay between capillarity, modulated by the presence of surfactants, surfactant-induced Marangoni stresses, inertial and viscous effects. Particular attention is paid to the formation of vortices, which accompany the retraction process, and the influence of surfactant on the vortex dynamics.

Published
2020
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