AC Index: Difference between revisions
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|- style="background-color:#AED7FF;" | |- style="background-color:#AED7FF;" | ||
! !! style="background-color:LightGrey;"|2-10 | ! !! style="background-color:LightGrey;"|2-10 | ||
[[Internal combustion engine flows for motored operation]] ||style="background-color:LightGrey;"| Carl Philip Ding ''et al.'' ||style="background-color:LightGrey;"| Technische Universität Darmstadt | | style="background:LightGrey;"|[[Internal combustion engine flows for motored operation]] ||style="background-color:LightGrey;"| Carl Philip Ding ''et al.'' ||style="background-color:LightGrey;"| Technische Universität Darmstadt | ||
|- style="background-color:#AED7FF;" | |||
! !! style="background-color:LightGrey;"|2-11 | |||
| style="background:LightGrey;"| [[AC2-11|Delft-Jet-in-Hot-Coflow (DJHC) burner]] ||style="background-color:LightGrey;"|André Perpignan ''et al.''||style="background-color:LightGrey;"| TU Delft | |||
|- style="background-color:#AED7FF;" | |||
! !! style="background-color:LightGrey;"|2-12 | |||
| style="background:LightGrey;"|[[AC2-12|AC2-12 Turbulent separated inert and reactive flows over a triangular bluff body]] ||style="background-color:LightGrey;"| D.A. Lysenko and M. Donskov ||style="background-color:LightGrey;"|3DMSimtek AS, Sandnes, Norway | |||
|- style="background-color:#AED7FF;" | |- style="background-color:#AED7FF;" | ||
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| style="background-color:LightGrey;"|[[Boundary layer flow and dispersion over isolated hills and valleys]] <!--[[Image:star_red.jpg]]-->|| style="background-color:LightGrey;"| Ian Castro|| style="background-color:LightGrey;"| University of Southampton | | style="background-color:LightGrey;"|[[Boundary layer flow and dispersion over isolated hills and valleys]] <!--[[Image:star_red.jpg]]-->|| style="background-color:LightGrey;"| Ian Castro|| style="background-color:LightGrey;"| University of Southampton | ||
|- style="background-color:#AED7FF;" | |- style="background-color:#AED7FF;" | ||
![[Turbomachinery_Internal_Flow|Turbo- | ![[Turbomachinery_Internal_Flow|Turbo-machinery Internal Flows]] !! !! !! !! | ||
|- style="background-color:#AED7FF;" | |- style="background-color:#AED7FF;" | ||
! !! style="background-color:LightGrey;"|6-02 | ! !! style="background-color:LightGrey;"|6-02 | ||
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! !! style="background-color:LightGrey;"|6-14 | ! !! style="background-color:LightGrey;"|6-14 | ||
| style="background-color:LightGrey;"|[[AC6-14|Swirling flow in a conical diffuser generated with rotor-stator interaction]] <!--[[Image:Star_red.jpg]]-->|| style="background-color:LightGrey;"| A. Javadi ''et al'' || style="background-color:LightGrey;"| Chalmers University of Technology, Göteborg, Sweden; | | style="background-color:LightGrey;"|[[AC6-14|Swirling flow in a conical diffuser generated with rotor-stator interaction]] <!--[[Image:Star_red.jpg]]-->|| style="background-color:LightGrey;"| A. Javadi ''et al'' || style="background-color:LightGrey;"| Chalmers University of Technology, Göteborg, Sweden; | ||
|- style="background-color:#AED7FF;" | |||
! !! style="background-color:LightGrey;"|6-15 | |||
| style="background-color:LightGrey;"|[[AC6-15|Vortex ropes in draft tube of a laboratory Kaplan hydro turbine at low load]] || style="background-color:LightGrey;"|A.V. Minakov ''et al.'' || style="background-color:LightGrey;"| Institute of Thermophysics SB RAS, Novosibirsk, Russia | |||
|- style="background-color:#AED7FF;" | |||
![[Biomedical_Flows|Biomedical Flows]] !! !! !! !! | |||
|- style="background-color:#AED7FF;" | |||
! !! style="background-color:LightGrey;"|7-01 | |||
| style="background-color:LightGrey;"|[[AC7-01|Aerosol deposition in the human upper airways]] || style="background-color:LightGrey;"| P. Koullapis ''et al.'' || style="background-color:LightGrey;"| University of Cyprus | |||
|} | |} | ||
Revision as of 14:07, 18 October 2019
| Application Area | AC number | Application Challenges | Contributor | Organisation |
|---|---|---|---|---|
| External Aerodynamics | ||||
| 1-01 | Aero-acoustic cavity | Fred Mendonca | Computational Dynamics Ltd | |
| 1-02 | RAE M2155 Wing | Pietro Catalano, Anthony Hutton | CIRA, Qinetiq | |
| 1-05 | Ahmed body | Jean-Paul Bonnet, Remi Manceau | Université de Poitiers | |
| 1-08 | L1T2 3 element airfoil | Jan Vos, Anthony Hutton | CFS Engineering SA, Qinetiq | |
| 1-09 | Vortex breakdown above a delta wing with sharp leading edge | Johan Kok et al. | NLR | |
| Combustion | ||||
| 2-01 | Bluff body burner for CH4-HE turbulent combustion | Elisabetta Belardini | Universita di Firenze | |
| 2-06 | The confined TECFLAM swirling natural gas burner | Stefan Hohmann | MTU Aero Engines | |
| 2-07 | Confined double annular jet | Charles Hirsch | Vrije Universiteit Brussel | |
| 2-08 | Premixed Methane-Air Swirl Burner (TECFLAM) | Guido Kuenne, Andreas Dreizler, Johannes Janicka | Darmstadt University of Technology | |
| 2-09 | SANDIA Flame D | Andrzej Boguslawski, Artur Tyliszczak | Częstochowa University of Technology | |
| 2-10 | Internal combustion engine flows for motored operation | Carl Philip Ding et al. | Technische Universität Darmstadt | |
| 2-11 | Delft-Jet-in-Hot-Coflow (DJHC) burner | André Perpignan et al. | TU Delft | |
| 2-12 | AC2-12 Turbulent separated inert and reactive flows over a triangular bluff body | D.A. Lysenko and M. Donskov | 3DMSimtek AS, Sandnes, Norway | |
| Chemical & Process, Thermal Hydraulics & Nuclear Safety | ||||
| 3-01 | Buoyancy-opposed wall jet | Jeremy Noyce | Magnox Electric | |
| 3-02 | Induced flow in a T-junction | Frederic Archambeau | EDF - R&D Division | |
| 3-03 | Cyclone separator | Chris Carey | Fluent Europe Ltd | |
| 3-08 | Spray evaporation in turbulent flow | Martin Sommerfeld | Martin-Luther-Universitat Halle-Wittenberg | |
| 3-10 | Combining/dividing flow in Y junction | Lewis Davenport | Rolls-Royce Marine Power, Engineering & Technology Division | |
| 3-11 | Downward flow in a heated annulus | Mike Rabbitt | British Energy | |
| 3-12 | Particle-laden swirling flow | Martin Sommerfeld | Martin-Luther-Universitat Halle-Wittenberg | |
| Civil Construction & HVAC | ||||
| 4-01 | Wind environment around an airport terminal building | Steve Gilham, Athena Scaperdas | Atkins | |
| 4-02 | Flow and Sediment Transport in a Laboratory Model of a stretch of the Elbe River | Wolfgang Rodi | Universität Karlsruhe | |
| 4-03 | Air flows in an open plan air conditioned office | Isabelle Lavedrine, Darren Woolf | Arup | |
| 4-04 | Tunnel fire | Nicholas Waterson | Mott MacDonald Ltd | |
| Environmental Flows | ||||
| 5-05 | Boundary layer flow and dispersion over isolated hills and valleys | Ian Castro | University of Southampton | |
| Turbo-machinery Internal Flows | ||||
| 6-02 | Low-speed centrifugal compressor | Nouredine Hakimi | NUMECA International | |
| 6-05 | Annular compressor cascade with tip clearance | K. Papailiou | NTUA | |
| 6-06 | Gas Turbine nozzle cascade | Elisabetta Belardini, Francesco Martelli | Universita di Firenze | |
| 6-07 | Draft tube | Jan Eriksson, Rolf Karlsson | Vattenfall Utveckling AB | |
| 6-08 | High speed centrifugal compressor | Beat Ribi, Michael Casey | MAN Turbomaschinen AG Schweiz , Sulzer Innotec AG | |
| 6-10 | Axial compressor cascade | Fred Mendonca | Computational Dynamics Ltd | |
| 6-12 | Steam turbine rotor cascade | Jaromir Prihoda | Czech Academy of Sciences | |
| 6-14 | Swirling flow in a conical diffuser generated with rotor-stator interaction | A. Javadi et al | Chalmers University of Technology, Göteborg, Sweden; | |
| 6-15 | Vortex ropes in draft tube of a laboratory Kaplan hydro turbine at low load | A.V. Minakov et al. | Institute of Thermophysics SB RAS, Novosibirsk, Russia | |
| Biomedical Flows | ||||
| 7-01 | Aerosol deposition in the human upper airways | P. Koullapis et al. | University of Cyprus |