Difference between revisions of "Semi-confined Flows"

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! UFR !! Underlying Flow Regime !! Contributor !! Organisation
 
! UFR !! Underlying Flow Regime !! Contributor !! Organisation
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!3-01
 
!3-01
 
| [[Boundary layer interacting with wakes under adverse pressure gradient - NLR 7301 high lift configuration]] || Jan Vos || CFS Engineering SA
 
| [[Boundary layer interacting with wakes under adverse pressure gradient - NLR 7301 high lift configuration]] || Jan Vos || CFS Engineering SA
|- style="background-color:gold;"
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|- style="background-color:LightGrey;"
 
!3-03
 
!3-03
 
| [[2D Boundary layers with pressure gradients (A)]] || Florian Menter || AEA Technology
 
| [[2D Boundary layers with pressure gradients (A)]] || Florian Menter || AEA Technology
|- style="background-color:gold;"
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|- style="background-color:LightGrey;"
 
!3-04  
 
!3-04  
 
| [[Laminar-turbulent boundary layer transition]] ||  Andrzej Boguslawski || Technical University of Czestochowa
 
| [[Laminar-turbulent boundary layer transition]] ||  Andrzej Boguslawski || Technical University of Czestochowa
|- style="background-color:gold;"
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|- style="background-color:LightGrey;"
 
!3-05  
 
!3-05  
 
| [[Shock/boundary-layer interaction (on airplanes)]] ||  Anthony Hutton || Qinetiq
 
| [[Shock/boundary-layer interaction (on airplanes)]] ||  Anthony Hutton || Qinetiq
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!3-06  
 
!3-06  
 
| [[Natural and mixed convection boundary layers on vertical heated walls (A)]] || André Latrobe || CEA / DRN / Department de Thermohydraulique
 
| [[Natural and mixed convection boundary layers on vertical heated walls (A)]] || André Latrobe || CEA / DRN / Department de Thermohydraulique
|- style="background-color:silver;"
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!3-07  
 
!3-07  
 
| [[Natural and mixed convection boundary layers on vertical heated walls (B)]] || Mike Rabbitt || British Energy
 
| [[Natural and mixed convection boundary layers on vertical heated walls (B)]] || Mike Rabbitt || British Energy
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|- style="background-color:LightGrey;"
 
!3-08  
 
!3-08  
 
| [[3D boundary layers under various pressure gradients, including severe adverse pressure gradient causing separation]] || Pietro Catalano || CIRA
 
| [[3D boundary layers under various pressure gradients, including severe adverse pressure gradient causing separation]] || Pietro Catalano || CIRA
|- style="background-color:gold;"
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!3-09  
 
!3-09  
 
| [[Impinging jet]] || Jean-Paul Bonnet, Remi Manceau || Université de Poitiers
 
| [[Impinging jet]] || Jean-Paul Bonnet, Remi Manceau || Université de Poitiers
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!3-10  
 
!3-10  
| [[The plane wall jet]] [[Image:Star_red.jpg]] || Jan Eriksson, Rolf Karlsson || Vattenfall Utveckling AB
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| [[The plane wall jet]]<!--[[Image:Star_red.jpg]]-->|| Jan Eriksson, Rolf Karlsson || Vattenfall Utveckling AB
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!3-11  
 
!3-11  
 
| [[Pipe expansion (with heat transfer)]] || Jeremy Noyce || Magnox Electric
 
| [[Pipe expansion (with heat transfer)]] || Jeremy Noyce || Magnox Electric

Revision as of 12:21, 12 February 2017

UFR Underlying Flow Regime Contributor Organisation
3-01 Boundary layer interacting with wakes under adverse pressure gradient - NLR 7301 high lift configuration Jan Vos CFS Engineering SA
3-03 2D Boundary layers with pressure gradients (A) Florian Menter AEA Technology
3-04 Laminar-turbulent boundary layer transition Andrzej Boguslawski Technical University of Czestochowa
3-05 Shock/boundary-layer interaction (on airplanes) Anthony Hutton Qinetiq
3-06 Natural and mixed convection boundary layers on vertical heated walls (A) André Latrobe CEA / DRN / Department de Thermohydraulique
3-07 Natural and mixed convection boundary layers on vertical heated walls (B) Mike Rabbitt British Energy
3-08 3D boundary layers under various pressure gradients, including severe adverse pressure gradient causing separation Pietro Catalano CIRA
3-09 Impinging jet Jean-Paul Bonnet, Remi Manceau Université de Poitiers
3-10 The plane wall jet Jan Eriksson, Rolf Karlsson Vattenfall Utveckling AB
3-11 Pipe expansion (with heat transfer) Jeremy Noyce Magnox Electric
3-12 Stagnation point flow Beat Ribi MAN Turbomaschinen AG Schweiz
3-13 Flow over an isolated hill (without dispersion) Frederic Archambeau EDF - R&D Division
3-14 Flow over surface-mounted cube/rectangular obstacles Star red.jpg Ian Castro University of Southampton
3-15 2D flow over backward facing step Arnau Duran CIMNE
3-18 2D Boundary layers with pressure gradients (B) Fred Mendonca Computational Dynamics Ltd
3-30 2D Periodic Hill Flow Star red.jpg Christoph Rapp, Michael Breuer, Michael Manhart, Nikolaus Peller Technische Universität München, Helmut-Schmidt Universität Hamburg
3-31 Flow over curved backward-facing step Star red.jpg Sylvain Lardeau CD-adapco, London, UK
3-32 Planar shock-wave boundary-layer interaction Star red.jpg Jean-Paul Dussauge, P. Dupont, N. Sandham, E. Garnier Aix-Marseille Université and Centre National de la Recherche Scientifique UM 7343, University of Southampton, ONERA/DAAP
3-33 Turbulent flow past a wall-mounted hemisphere Star red.jpg Jens Nikolas Wood, Guillaume De Nayer, Stephan Schmidt, Michael Breuer Helmut-Schmidt Universität Hamburg