Boundary Layers VI: Channel Flow and Flows over Superhydrophobic Walls
ORAL · L20 ·
Presentations
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Representation of the velocity spectra and Reynolds stress co-spectrum in turbulent channel flow using resolvent modes
ORAL
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Authors
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Rashad Moarref
- California Institute of Technology, Pasadena
- California Institute of Technology
- Caltech
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Atul Sharma
- University of Southampton
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Joel A. Tropp
- California Institute of Technology
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Beverley McKeon
- California Institute of Technology
- California Institute of Technology, Pasadena
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High-Reynolds-number effects in turbulent channel flow: evidence from DNS
ORAL
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Authors
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Matteo Bernardini
- University of Rome La Sapienza
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Sergio Pirozzoli
- University of Rome La Sapienza
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Paolo Orlandi
- University of Rome La Sapienza
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Turbulent spots in a channel: an experimental study on the inner structure and the large-scale flow
ORAL
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Authors
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Jos\'e Eduardo Wesfreid
- PMMH (UMR 7636 CNRS-ESPCI)
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Gr\'egoire Lemoult
- PMMH (UMR 7636 CNRS-ESPCI)
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Konrad Gumowski
- Warsaw University of Technology, Inst Aeronaut \& Appl Mech, Poland
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Mingyang Luo
- PMMH (UMR 7636 CNRS-ESPCI)
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Jean Luc Aider
- PMMH (UMR 7636 CNRS-ESPCI)
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Temperature fluctuations in fully-developed turbulent channel flow with heated upper wall
ORAL
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Authors
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Carla Bahri
- Princeton University
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Michael Mueller
- Princeton University
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Marcus Hultmark
- Princeton University
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Reynolds Number Effects on Kinetic Energy Transfer from Outer Layer in Turbulent Channel Flows
ORAL
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Authors
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Yoshinobu Yamamoto
- Yamanashi University, Japan
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Yoshiyuki Tsuji
- Nagoya University, Japan
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An investigation of the flow modification in a turbulent channel with gain-based optimal forcing
ORAL
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Authors
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Arjun Sharma
- University of Texas, Austin
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Rashad Moarref
- California Institute of Technology, Pasadena
- California Institute of Technology
- Caltech
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Mitul Luhar
- California Institute of Technology, Pasadena
- California Institute of Technology
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David Goldstein
- University of Texas, Austin
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Beverley McKeon
- California Institute of Technology
- California Institute of Technology, Pasadena
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Skin-friction Drag Reduction in Turbulent Channel Flow with Idealized Superhydrophobic Walls
ORAL
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Authors
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Amirreza Ratsegari
- The University of Michigan, Ann Arbor, MI 48109-2125
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Rayhaneh Akhavan
- The University of Michigan, Ann Arbor, MI 48109-2125
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A Chracterization of Superhydrophobic Surfaces for Skin-Friction Drag Reduction
ORAL
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Authors
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Hyunwook Park
- University of California, Los Angeles
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John Kim
- University of California, Los Angeles
- UCLA
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Direct numerical simulation of turbulent flows over superhydrophobic surfaces: gas-liquid interface dynamics
ORAL
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Authors
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Jongmin Seo
- Stanford University
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Ricardo Garc\'Ia-Mayoral
- Stanford University
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Ali Mani
- Center for Turbulence Research, Stanford
- Stanford University
- Center for Turbulence Research, Stanford University
- Department of Mechanical Engineering, Stanford University
- CTR, Stanford University
- CTR - Stanford University
- CTR Stanford
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Convective Air Mass Transfer in Submerged Superhydrophobic Surfaces:\ Turbulent Flow
ORAL
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Authors
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Christina A. Barth
- Department of Mechanical \& Nuclear Engineering, Virginia Commonwealth University, Richmond, Virginia 23284-3015
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Hooman Vahedi Tafreshi
- Department of Mechanical \& Nuclear Engineering, Virginia Commonwealth University, Richmond, Virginia 23284-3015
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M. Gad-el-Hak
- Virginia Commonwealth University, Richmond, Virginia, USA
- Department of Mechanical \& Nuclear Engineering, Virginia Commonwealth University, Richmond, Virginia 23284-3015
- Virginia Commonwealth University
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