Turbulent Boundary Layers: Superhydrophobic Surfaces
ORAL · L33 ·
Presentations
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Effect of Interface Curvature on Turbulent Skin-Friction Drag Reduction with Super-Hydrophobic Micro-Grooves
ORAL
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Authors
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Rayhaneh Akhavan
- University of Michigan, Ann Arbor
- University of Michigan Ann Arbor
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Rayhaneh Akhavan
- University of Michigan, Ann Arbor
- University of Michigan Ann Arbor
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The Common Mechanism of Turbulent Skin-Friction Drag Reduction with Super-Hydrophobic Micro-Grooves and Riblets
ORAL
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Authors
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Amirreza Rastegari
- University of Michigan, Ann Arbor
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Rayhaneh Akhavan
- University of Michigan, Ann Arbor
- University of Michigan Ann Arbor
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The effects of interface deformation of superhydrophobic surface on turbulent flows
ORAL
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Authors
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Shao-Ching Huang
- University of California, Los Angeles
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John Kim
- University of California, Los Angeles
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Superhydrophobic surfaces in turbulent channel flow
ORAL
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Authors
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Yixuan Li
- University of Minnesota, Twin Cities
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Karim Alame
- University of Minnesota, Twin Cities
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Krishnan Mahesh
- University of Minnesota, Twin Cities
- University of Minnesota - Twin Cities
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A Passive Drag Reduction Surface Design
ORAL
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Authors
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Cong Wang
- Caltech
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David Jeon
- Caltech
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Morteza Gharib
- Caltech
- California Institute of Technology
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DNS of turbulent flows over superhydrophobic surfaces: effect of texture randomness
ORAL
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Authors
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Jongmin Seo
- Stanford Univ
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Ali Mani
- Stanford University
- Stanford Univ
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Modification of Turbulent Boundary Layer Flows by Superhydrophobic Surfaces
ORAL
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Authors
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James W. Gose
- Univ. of Michigan
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Kevin Golovin
- Univ. of Michigan
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Julio Barros
- US Naval Academy
- United States Naval Academy
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Michael Schultz
- US Naval Academy
- United States Naval Academy
- U.S. Naval Academy
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Anish Tuteja
- Univ. of Michigan
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Marc Perlin
- Univ. of Michigan
- University of Michigan
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Steven Ceccio
- Univ. of Michigan
- University of Michigan
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Using time-dependent experiments and simulations to establish the role of surfactant in increasing drag over superhydrophobic surfaces
ORAL
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Authors
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Paolo Luzzatto-Fegiz
- UC Santa Barbara
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Francois Peaudecerf
- University of Cambridge
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Julien R. Landel
- University of Cambridge
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Raymond E. Goldstein
- University of Cambridge
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Flow through an Array of Superhydrophopic Pillars: The Role of the Air-Water Interface Shape on Drag Reduction
ORAL
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Authors
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Jeong-Hyun Kim
- University of Massachusetts Amherst
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Jonathan Rothstein
- University of Massachusetts Amherst
- Univ of Mass - Amherst
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Effects of roughness height, pressure and streamwise distance on stress profiles in the inner part of turbulent boundary layer over super-hydrophobic surfaces.
ORAL
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Authors
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Hangjian Ling
- Johns Hopkins University
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Joseph Katz
- Johns Hopkins University
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Siddarth Srinivasan
- Massachusetts Institute of Technology
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Gareth McKinley
- Massachusetts Institute of Technology
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Kevin Golovin
- University of Michigan
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Anish Tuteja
- University of Michigan
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Venkata Pillutla
- University of Texas at Dallas
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Abhijeet .
- University of Texas at Dallas
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Wonjae Choi
- University of Texas at Dallas
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