Turbulent Boundary Layers V
ORAL · M26 ·
Presentations
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Reduced-order model for near-wall dynamics with implications to wall-models
ORAL
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Authors
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Peter Schmid
- Department of Mathematics, Imperial College London
- Imperial College London
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Taraneh Sayadi
- Department of Mathematics, Imperial College London
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A nested-LES wall-modeling approach for computation of high Reynolds number equilibrium and non-equilibrium wall-bounded turbulent flows
ORAL
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Authors
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Yifeng Tang
- The University of Michigan, Ann Arbor
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Rayhaneh Akhavan
- University of Michigan, Ann Arbor
- The University of Michigan, Ann Arbor
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Investigation of a Wall Shear-Stress Inner-Outer Interaction Model for Large-Eddy Simulations
ORAL
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Authors
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William Sidebottom
- The University of Melbourne
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Olivier Cabrit
- The University of Melbourne
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Ivan Marusic
- The University of Melbourne
- University of Melbourne
- Univ of Melbourne
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Charles Meneveau
- Johns Hopkins University, Baltimore MD 21218, USA
- Johns Hopkins University
- Johhns Hopkins University, Baltimore MD 21218, USA
- Department of Mechanical Engineering, Johns Hopkins University
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Andrew Ooi
- The University of Melbourne
- University of Melbourne
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David Jones
- Defence Science and Technology Organisation
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Inference of the turbulent dissipation rates in wall-bounded turbulent flows
ORAL
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Authors
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Subhas Venayagamoorthy
- Colorado State University
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Farid Karimpour
- Colorado State University
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Validation of Reynolds Stress Transport Models with Velocity/Pressure-Gradient Models in Wall- Bounded Flows
ORAL
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Authors
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Juan D.C. Fernandez
- University of New Mexico
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Svetlana Poroseva
- University of New Mexico
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Scott Murman
- NASA Ames Research Center
- NASA
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Space-time characteristics of wall-pressure fluctuation in wall-modeled large-eddy simulation
ORAL
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Authors
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George Ilhwan Park
- Stanford University, Center for Turbulence Research
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Parviz Moin
- Stanford University, Center for Turbulence Research
- Stanford Univ.
- Center for Turbulence Research, Stanford University
- Stanford
- Stanford University
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Liquid Jet Impingement Thermal Transport on a Superhydrophobic Surface
ORAL
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Authors
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Matthew Searle
- Brigham Young Univ - Provo
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Daniel Maynes
- Brigham Young University
- Brigham Young Univ - Provo
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Julie Crockett
- Brigham Young Univ - Provo
- Brigham Young University
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Drag Reduction with Super-Hydrophobic Surfaces in Turbulent Channel Flow
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
- The University of Michigan, Ann Arbor
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Bio-inspired Gecko Micro-surface for Drag Reduction in Turbulent Flows
ORAL
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Authors
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Isnardo Arenas
- The University of Texas at Dallas
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Kenneth Carrasquillo
- The University of Texas at Dallas
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Guillermo Araya
- Texas Tech University
- Texas Tech University, Lubbock, TX
- National Wind Resources Center, Texas Tech University, Lubbock, TX, USA
- Department of Mechanical Engineering, Texas Tech University
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Luciano Castillo
- Texas Tech University
- Texas Technical University
- Texas Tech University, Lubbock, TX
- National Wind Resources Center, Texas Tech University, Lubbock, TX, USA
- Department of Mechanical Engineering, Texas Tech University
- Texas Tech Univ
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Stefano Leonardi
- The University of Texas at Dallas
- University of Texas at Dallas
- Univ of Texas, Dallas
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Turbulent Taylor-Couette flow over liquid infused surfaces
ORAL
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Authors
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Brian Rosenberg
- Princeton University
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Alexander Smits
- Princeton University, Monash University
- Princeton University
- Princeton University and Monash University
- Princeton University; Monash University
- Princeton University, Monash Universty
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