Drops: Dynamic Surface Interactions

Presentations

• Contact line friction in aspirated sessile drops

  ORAL

  Nov. 21, 2021, 7:25 PM – Nov. 21, 2021, 7:38 PM

  Presenters

  • Chloe W Lindeman

    University of Chicago

  Authors

  • Chloe W Lindeman

    University of Chicago

  • Sidney R Nagel

    University of Chicago

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• Droplets on a wall: moving contact lines with the Immersed Boundary Method

  ORAL

  Nov. 21, 2021, 7:38 PM – Nov. 21, 2021, 7:51 PM

  Presenters

  • Pejman Sanaei

    New York Inst of Tech, New York Institute of Technology

  Authors

  • Pejman Sanaei

    New York Inst of Tech, New York Institute of Technology

  • Daniel Chin

    New York University

  • Michael Yue LI

    New York University

  • Charles Puelz

    Baylor College of Medicine

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• Dynamic stabilization of toroidal drops in linear flow

  ORAL

  Nov. 21, 2021, 7:51 PM – Nov. 21, 2021, 8:04 PM

  Presenters

  • Olga Lavrenteva

    Technion - Israel Institute of Technolog

  Authors

  • Olga Lavrenteva

    Technion - Israel Institute of Technolog

  • Sumit Malik

    Chemical Engineering Dept., Technion - Israel Institute of Technology

  • Avinoam Nir

    Chemical Engineering Dept., Technion - Israel Institute of Technology

  • Moshe Idan

    Aerospace Engineering Dept., Technion - Israel Institute of Technology

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• Drop oscillation dynamics on viscous thin immiscible liquid films: slip to pin transitions

  ORAL

  Nov. 21, 2021, 8:04 PM – Nov. 21, 2021, 8:17 PM

  Presenters

  • Huy Tran

    Baylor University

  Authors

  • Huy Tran

    Baylor University

  • Ziwen He

    Baylor University

  • Jordan Sakakeeny

    Baylor University

  • Yue Ling

    Baylor University

  • Min Y Pack

    Baylor University

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• Effect of surfactants on drop formation in microfluidic channels

  ORAL

  Nov. 21, 2021, 8:17 PM – Nov. 21, 2021, 8:30 PM

  Publication: 1. Lawrence, M., & Rees, G. (2000). Microemulsion-based media as novel drug delivery systems. Advanced Drug Delivery Reviews, 45(1), 89-121. doi:10.1016/s0169-409x(00)00103-4<br>2. Yang, L., Kapur, N., Wang, Y., Fiesser, F., Bierbrauer, F., Wilson, M., & Sabey, T. et al. (2018). Drop-on-demand satellite-free drop formation for precision fluid delivery. Chemical Engineering Science, 186, 102-115. doi:10.1016/j.ces.2018.04.014<br>3. Kalli, M., Chagot, L., & Angeli, P. (2021). Comparison of surfactant mass transfer with drop formation times from dynamic interfacial tension measurements in microchannels. Journal Of Colloid And Interface Science. doi: 10.1016/j.jcis.2021.06.178<br>4. Wang, K., Lu, Y., Xu, J., & Luo, G. (2009). Determination of Dynamic Interfacial Tension and Its Effect on Droplet Formation in the T-Shaped Microdispersion Process. Langmuir, 25(4), 2153-2158. doi: 10.1021/la803049s<br>5. Xu, J., Dong, P., Zhao, H., Tostado, C., & Luo, G. (2012). The Dynamic Effects of Surfactants on Droplet Formation in Coaxial Microfluidic Devices. Langmuir, 28(25), 9250-9258. doi: 10.1021/la301363d<br>6. Roumpea, E., Kovalchuk, N., Chinaud, M., Nowak, E., Simmons, M., & Angeli, P. (2019). Experimental studies on droplet formation in a flow-focusing microchannel in the presence of surfactants. Chemical Engineering Science, 195, 507-518. doi:10.1016/j.ces.2018.09.049

  Presenters

  • Maria Kalli

    University College London (UCL)

  Authors

  • Maria Kalli

    University College London (UCL)

  • Loïc Chagot

    University College London (UCL), UCL, University College London

  • Lyes Kahouadji

    Imperial College London

  • Omar K Matar

    Imperial College London, Department of Chemical Engineering, Imperial College London, South Kensington Campus, London SW7 2AZ, UK

  • Panagiota Angeli

    University College London (UCL), ThAMeS Multiphase, UCL Department of Chemical Engineering, UCL, University College London

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• Role of interfacial rheology on the dynamics of confined droplets.

  ORAL

  Nov. 21, 2021, 8:30 PM – Nov. 21, 2021, 8:43 PM

  Presenters

  • JACQUES-TEÏVA BAUÉ

    Université de Rennes 1

  Authors

  • JACQUES-TEÏVA BAUÉ

    Université de Rennes 1

  • Isabelle Cantat

    Institut de Physique de Rennes, Université Rennes 1, France, Univ de Rennes I

  • Marie-Caroline Jullien

    Université de Rennes 1, IPR, Rennes, France

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