Difference between revisions of "YALES2 Gallery"

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(Interaction between two Le Mans Series prototypes (David Taieb,Guillaume Ribert & Vincent Moureau))
(Interaction between two Le Mans Series prototypes (David Taieb,Guillaume Ribert & Vincent Moureau))
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|+ Interaction between two Le Mans Series prototypes with YALES2
 
|+ Interaction between two Le Mans Series prototypes with YALES2
 
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| [[File:LMS_U_stream_025.pdf|center|Instantaneous streamlines colored by velocity RMS.]]
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| [[File:LMS_U_stream_025.jpg|center|Instantaneous streamlines colored by velocity RMS.]]
| [[File:LMS_up_pressure.pdf|centerContour of pressure on the upper bodywork.]]
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| [[File:LMS_up_pressure.jpg|centerContour of pressure on the upper bodywork.]]
| [[File:LMS_wake_DF.pdf|center|Longitudinal slice of instantaneous velocity and downforce on bodies.]]
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| [[File:LMS_wake_DF.jpg|center|Longitudinal slice of instantaneous velocity and downforce on bodies.]]
 
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Revision as of 12:13, 28 March 2011

Formula One (David Taieb, Guillaume Ribert & Vincent Moureau)

Computation of a Formula 1 meeting with the 2010 regulations.

The design is based on the 2008 car which was simulated with the Fluent software with less than one million cells. The new car has the main features observed during the early part of F1 season, like the coca bottle shaped sidepods, the double-deck diffuser, the outer mirror disposition (forbidden by the FIA in the second part of the season), the three elements front wing.

The body of the car is discretized with 6.5mm element leading to 36 M cells in the computational domain.

Formula One with YALES2
Formula 1 with 36 Million cells - Streamlines
Formula 1 with 36 Million cells - Iso-Q criterion
 Video of Formula 1 36 Million cells - Iso-Q criterion

Interaction between two Le Mans Series prototypes (David Taieb,Guillaume Ribert & Vincent Moureau)

Interaction between two Le Mans Series prototypes with YALES2
Instantaneous streamlines colored by velocity RMS.
 centerContour of pressure on the upper bodywork.
Longitudinal slice of instantaneous velocity and downforce on bodies.

PRECCINSTA Burner (Vincent Moureau)

Direct Numerical Simulation of an aeronautical burner [1]. The mesh features 2.6 billion tetrahedrons and a resolution of 100 microns.

PRECCINSTA burner with YALES2
Iso-surface of the Q criterion for the isothermal case
Temperature field for the fully premixed reacting case
OH radical field for the fully premixed reacting case
Couverture du Numéro Spécial Calcul Intensif des Comptes Rendus de Mécanique de l'académie des sciences

T7.2 Blade (Nicolas Maheu)

Large-Eddy Simulation of heat exchanges on a turbine blade.

T7.2 blade with YALES2
T7.2 Blade - Iso-Q criterion - 240M tetrahedrons
T7.2 Blade - Iso-T 325K - 240M tetrahedrons

KIAI burner (Vincent Moureau)

Large-Eddy Simulations of a swirl burner designed and operated at CORIA (J.P. Frenillot, G. Cabot, B. Renou, M. Boukhalfa).

KIAI burner with YALES2
Velocity field for the cold flow - 382M tetrahedrons
Q-criterion for the cold flow - 382M tetrahedrons

Two-phase computations (Vincent Moureau and O. Desjardins)

Primary atomization computations with YALES2
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