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unh2013:talks [2014/04/18 07:30]
gibson [Session 7: Coherent Motions A]
unh2013:talks [2014/05/03 07:48] (current)
gibson [Session 2: Reynolds Number Scaling]
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 **Tobias Schneider** (Max Planck Institute, École Polytechnique Fédérale de Lausanne) **Tobias Schneider** (Max Planck Institute, École Polytechnique Fédérale de Lausanne)
  
-Osborne Reynolds pipe flow: Direct simulations and visualizations from laminar through ​ +{{:​unh2013:​wu_moin_adrian_unh2013.pdf|Osborne Reynolds pipe flow: Direct simulations and visualizations from laminar through transition to fully-developed turbulence}} \\ 
-transition to fully-developed turbulence \\ +**Xiaohua Wu** (Royal Military College of Canada), ​**P. Moin** (Stanford University) ​**R. Adrian** (Arizona State University)
-**Xiaohua Wu** (Royal Military College of Canada), P. Moin & R. Adrian+
  
 {{:​unh2013:​gibson_unh2013.pdf|Exact near-wall travelling waves in plane Poiseuille flow}}\\ {{:​unh2013:​gibson_unh2013.pdf|Exact near-wall travelling waves in plane Poiseuille flow}}\\
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 Chair: I. Marusic Chair: I. Marusic
    
-Reynolds-number scaling of turbulent channel flow \\ +{{:​unh2013:​schultz_unh2013.pdf|Reynolds-number scaling of turbulent channel flow }}\\ 
-**Mike Schultz** (US Naval Academy)+**Mike Schultz** (US Naval Academy) ​
  
 {{:​unh2013:​bailey_unh2013.pdf|Reynolds number scaling of dissipative motions}} \\ {{:​unh2013:​bailey_unh2013.pdf|Reynolds number scaling of dissipative motions}} \\
 **Sean Bailey** (University of Kentucky) **Sean Bailey** (University of Kentucky)
  
-An idealised assessment of Townsend’s similarity hypothesis for wall turbulence \\+{{:​unh2013:​chung_unh2013.pdf|An idealised assessment of Townsend’s similarity hypothesis for wall turbulence}} \\
 **Daniel Chung** (University of Melbourne) **Daniel Chung** (University of Melbourne)
  
-Scaling of turbulence in pipes and channels \\+{{:​unh2013:​hultmark_unh2013.pdf|Scaling of turbulence in pipes and channels}} \\
 **Marcus Hultmark** (Princeton University) **Marcus Hultmark** (Princeton University)
  
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 **Elisabetta De Angelis** (University of Bologna) **Elisabetta De Angelis** (University of Bologna)
  
-Variational description ​of the bulk flow in wall turbulence \\ +{{:​unh2013:​xichen_unh2103.pdf|Lie-group derivation ​of bulk flow scaling for wall-bounded ​turbulence}} \\ 
-**Xi Chen** (Peking University)+**Xi Chen** (Peking University) ​
  
 {{:​unh2013:​klewicki_unh2013.pdf|Behavior of the boundary layer vorticity field as the Reynolds number gets large}} \\ {{:​unh2013:​klewicki_unh2013.pdf|Behavior of the boundary layer vorticity field as the Reynolds number gets large}} \\
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 **Greg Chini** (University of New Hampshire) **Greg Chini** (University of New Hampshire)
  
-Small-scale intermittency and modelling of boundary layers: from LES to VLES \\+{{:​unh2013:​yachot_unh2013.pdf|Small-scale intermittency and modelling of boundary layers: from LES to VLES}} \\
 **Victor Yachot** (Boston University) **Victor Yachot** (Boston University)
  
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 **Ati Sharma** (University of Southampton) **Ati Sharma** (University of Southampton)
  
-Why are CFD RANS models good and how can they be better? \\ +{{:​unh2013:​zhensushe_unh2013.pdf|Why are CFD RANS models good and how can they be better?}} \\ 
-**Zhen-Su She** (Peking University) ​+**Zhen-Su She** (Peking University) ​ 
  
 {{:​unh2013:​knobloch_unh2013.pdf|Asymptotic analysis of the magnetorotational instability}} \\ {{:​unh2013:​knobloch_unh2013.pdf|Asymptotic analysis of the magnetorotational instability}} \\
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 Reynolds number effects in rough-wall flows \\ Reynolds number effects in rough-wall flows \\
-**Stefano Leonardi ​Moretti** (University of Puerto Rico-Mayaguez)+**Stefano Leonardi** (University of Puerto Rico-Mayaguez)
  
 {{:​unh2013:​white_unh2013.pdf|What are polymer drag reducing flows telling us about the mechanisms of wall-flow transport?​}} \\ {{:​unh2013:​white_unh2013.pdf|What are polymer drag reducing flows telling us about the mechanisms of wall-flow transport?​}} \\
unh2013/talks.1397831453.txt.gz · Last modified: 2014/04/18 07:30 by gibson