Boundary Layers: Superhydrophobic Surfaces (3:55pm - 4:40pm CST)

Presentations

• Fluid retention in liquid infused surfaces: A direct numerical simulation study

  POSTER

  Authors

  • Martand Mayukh Garimella

    • University of Texas at Dallas

  • Stefano Leonardi

    • Department of Mechanical Engineering, University of Texas at Dallas, Richardson, TX USA
    • The University of Texas at Dallas

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• Effect of interface deformation and contact line motion on turbulent skin-friction drag reduction with superhydrophobic surfaces

  POSTER

  Authors

  • Amirreza Rastegari

    • The University of Michigan

  • Rayhaneh Akhavan

    • The University of Michigan

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• Analysis of wall-normal jets induced by bubble oscillations on superhydrophobic surfaces

  POSTER

  Authors

  • Kimberly Liu

    • Stanford Univ

  • Ali Mani

    • Stanford University
    • Stanford Univ
    • Center for Turbulence Research, Stanford University, USA

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• Stability Limits of Liquid-Infused Surfaces and Their Effects on Turbulent Drag

  POSTER

  Authors

  • Johan Sundin

    • KTH Royal Institute of Technology

  • Stephane Zaleski

    • Sorbonne Univ and CNRS
    • d'Alembert, Sorbonne Universite and CNRS, UMR 7190

  • Shervin Bagheri

    • KTH Royal Inst of Tech
    • KTH Royal Institute of Technology
    • Linne Flow Centre, Dept. Engineering Mechanics, KTH Royal Institute of Technology, Stockholm
    • Department of Engineering Mechanics, KTH Royal Institute of Technology

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