https://www.coria-cfd.fr/api.php?action=feedcontributions&feedformat=atom&user=Taiebwww.coria-cfd.fr - User contributions [en]2026-04-29T22:24:14ZUser contributionsMediaWiki 1.26.2https://www.coria-cfd.fr/index.php?title=User:Taieb&diff=4954User:Taieb2025-01-19T19:51:03Z<p>Taieb: /* Personal Information */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
Head department of equiped fuel tanks and de-icers <br /><br />
<br />
Office: Safran Aerosystems 4 Rue Lesage Maillé, 76320 Caudebec lès Elbeuf <br /><br />
email: david.taieb@safrangroup.com<br /><br />
Tel: +33 (0)6 42 51 28 04<br />
<br />
== Lab Address ==<br />
Safran Aerosystems<br /><br />
4 rue Lesage Maillé <br /><br />
76320 Caudebec les Elbeuf<br /><br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2020-present : Desgin team manager for elastomeric equipment - equiped fuel tanks and de-icers<br />
* 2012-2020: Engineer at Safran Helicopter for hydromechanical units. Development of CFD tools for this kind of equipment.<br />
* 2010-2012: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, "Flow simulation under supercritical thermodynamics conditions". ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
<br />
== Conferences ==<br />
* D. Taieb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taieb, G. Ribert, A. Hadjadj, "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels". ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taieb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=4953User:Taieb2025-01-19T19:49:46Z<p>Taieb: /* Background */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
Resp du département Réservoirs équipés et dégivreurs<br />
<br />
Office: Safran Aerosystems 4 Rue Lesage Maillé, 76320 Caudebec lès Elbeuf <br /><br />
email: david.taieb@safrangroup.com<br /><br />
Tel: +33 (0)6 42 51 28 04<br />
<br />
== Lab Address ==<br />
Safran Aerosystems<br /><br />
4 rue Lesage Maillé <br /><br />
76320 Caudebec les Elbeuf<br /><br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2020-present : Desgin team manager for elastomeric equipment - equiped fuel tanks and de-icers<br />
* 2012-2020: Engineer at Safran Helicopter for hydromechanical units. Development of CFD tools for this kind of equipment.<br />
* 2010-2012: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, "Flow simulation under supercritical thermodynamics conditions". ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
<br />
== Conferences ==<br />
* D. Taieb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taieb, G. Ribert, A. Hadjadj, "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels". ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taieb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=4952User:Taieb2025-01-19T19:49:33Z<p>Taieb: /* Background */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
Resp du département Réservoirs équipés et dégivreurs<br />
<br />
Office: Safran Aerosystems 4 Rue Lesage Maillé, 76320 Caudebec lès Elbeuf <br /><br />
email: david.taieb@safrangroup.com<br /><br />
Tel: +33 (0)6 42 51 28 04<br />
<br />
== Lab Address ==<br />
Safran Aerosystems<br /><br />
4 rue Lesage Maillé <br /><br />
76320 Caudebec les Elbeuf<br /><br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2020-present : Desgin team manager fpr elastomeric equipment - equiped fuel tanks and de-icers<br />
* 2012-2020: Engineer at Safran Helicopter for hydromechanical units. Development of CFD tools for this kind of equipment.<br />
* 2010-2012: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, "Flow simulation under supercritical thermodynamics conditions". ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
<br />
== Conferences ==<br />
* D. Taieb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taieb, G. Ribert, A. Hadjadj, "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels". ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taieb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=4951User:Taieb2025-01-19T19:46:36Z<p>Taieb: /* Lab Address */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
Resp du département Réservoirs équipés et dégivreurs<br />
<br />
Office: Safran Aerosystems 4 Rue Lesage Maillé, 76320 Caudebec lès Elbeuf <br /><br />
email: david.taieb@safrangroup.com<br /><br />
Tel: +33 (0)6 42 51 28 04<br />
<br />
== Lab Address ==<br />
Safran Aerosystems<br /><br />
4 rue Lesage Maillé <br /><br />
76320 Caudebec les Elbeuf<br /><br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, "Flow simulation under supercritical thermodynamics conditions". ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
<br />
== Conferences ==<br />
* D. Taieb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taieb, G. Ribert, A. Hadjadj, "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels". ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taieb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=4950User:Taieb2025-01-19T19:45:40Z<p>Taieb: /* Personal Information */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
Resp du département Réservoirs équipés et dégivreurs<br />
<br />
Office: Safran Aerosystems 4 Rue Lesage Maillé, 76320 Caudebec lès Elbeuf <br /><br />
email: david.taieb@safrangroup.com<br /><br />
Tel: +33 (0)6 42 51 28 04<br />
<br />
== Lab Address ==<br />
Safran Helicopter Engines<br /><br />
417 avenue du Béarn<br /><br />
78200 Buchelay<br /><br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, "Flow simulation under supercritical thermodynamics conditions". ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
<br />
== Conferences ==<br />
* D. Taieb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taieb, G. Ribert, A. Hadjadj, "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels". ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taieb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=3608User:Taieb2018-03-05T15:33:45Z<p>Taieb: /* Lab Address */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
Chef de Groupe Bureau d'Etudes Fonctionnelles<br />
<br />
Office: Safran Helicopter Engines, 417 avenue du Béarn, 78200 Buchelay <br /><br />
email: david.taieb@safrangroup.com<br /><br />
Tel: +33 (0)1 30 63 76 55<br />
<br />
== Lab Address ==<br />
Safran Helicopter Engines<br /><br />
417 avenue du Béarn<br /><br />
78200 Buchelay<br /><br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, "Flow simulation under supercritical thermodynamics conditions". ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
<br />
== Conferences ==<br />
* D. Taieb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taieb, G. Ribert, A. Hadjadj, "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels". ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taieb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=3607User:Taieb2018-03-05T15:33:05Z<p>Taieb: /* Personal Information */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
Chef de Groupe Bureau d'Etudes Fonctionnelles<br />
<br />
Office: Safran Helicopter Engines, 417 avenue du Béarn, 78200 Buchelay <br /><br />
email: david.taieb@safrangroup.com<br /><br />
Tel: +33 (0)1 30 63 76 55<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, "Flow simulation under supercritical thermodynamics conditions". ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
<br />
== Conferences ==<br />
* D. Taieb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taieb, G. Ribert, A. Hadjadj, "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels". ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taieb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User_talk:Bossenne&diff=1037User talk:Bossenne2012-06-08T08:09:59Z<p>Taieb: /* Gallery */</p>
<hr />
<div>=<center><b>Work in progress, come back later ! =)</b></center>=<br />
<br />
<br />
== Motivation ==<br />
<br />
H-Allegro is a parallel, high accuracy, compressible, reactive, direct Navier Stokes solver (DNS). It is the MPI-parrallelized evolution of the former code ALLEGRO. <br />
From ALLEGRO, H-Allegro has mainly been developed by the PARALGO company, and two PhD students: Eric Albin and Marianne Sjostrand.<br />
<br />
<br />
== Equations and Hypotheses ==<br />
<br />
===Equations===<br />
<br />
* <math><br />
\dfrac{\partial{\rho}}{\partial{t}}+\dfrac{\partial{{\rho}U_{j}}}{\partial{x_{j}}}=0<br />
</math><br />
<br />
* <math><br />
\dfrac{\partial{{\rho}U_{i}}}{\partial{t}}+\dfrac{\partial{{\rho}}U_{i}U_{j}}{\partial{x_{j}}}+\dfrac{\partial{P}}{\partial{x_{i}}}=\dfrac{\partial{\tau_{ij}}}{\partial{x_{j}}}+S_{i}<br />
</math><br />
<br />
* <math><br />
\dfrac{\partial{{\rho}E}}{\partial{t}}+\dfrac{\partial{(P+{\rho}E)}U_{j}}{\partial{x_{j}}}=\dfrac{\partial{q_{j}}}{\partial{x_{j}}}+\dfrac{\partial{\tau_{ij}U_{i}}}{\partial{x_{j}}}+S_{5}<br />
</math><br />
<br />
* <math><br />
\dfrac{\partial{{\rho}Y_{k}}}{\partial{t}}+\dfrac{\partial{{\rho}Y_{k}U_{j}}}{\partial{x_{j}}}=\dfrac{\partial{q_{j}^{k}}}{\partial{x_{j}}}+S_{k}<br />
</math><br />
<br />
===Hypotheses===<br />
<br />
The hypotheses to simplify the Navier-Stokes equations are :<br />
* The total energy balance according to Poinsot-Veynante is described below, if <math> E=e_{s}+\dfrac{1}{2}u_{i}^{2} </math> :<br />
<math>{\rho}\dfrac{DE}{Dt}=\dfrac{\partial{{\rho}E}}{\partial{t}}+\dfrac{\partial{{\rho}u_{i}E}}{\partial{x_{i}}}=\dot{\omega_{T}}+\dfrac{\partial}{\partial{x_{i}}}({\lambda}\dfrac{\partial{T}}{\partial{x_{i}}})-\dfrac{\partial}{\partial{x_{i}}}({\rho}{\sum}_{k=1}^{N}h_{s,k}Y_{k}V_{k,i})+\dfrac{\partial{\sigma_{ij}}u_{i}}{\partial{x_{j}}}+\dot{Q}+{\rho}{\sum}_{k-1}^{N}Y_{k}f_{k,i}(u_{i}+V_{k,i}) </math><br />
<br />
The term <math>\dfrac{\partial}{\partial{x_{i}}}({\rho}{\sum}_{k=1}^{N}h_{s,k}Y_{k}V_{k,i})</math> can be ignored with regard to <math>\dot{\omega_{T}}</math>, which is the heat release due to combustion.<br />
<br />
This release can be defined by these equations :<br />
<math>\dot{\omega_{T}}=-\sum_{k=1}^{N}\Delta h_{f,k}^{0}\dot{\omega_{k}}<br />
=\nu_{F}M_{F}\dot{\omega}Q_{m}</math>, where <math>Q_{m}</math> is the specific heat of reaction, <math>\Delta h_{f,k}^{0}</math> is the standard enthalpy of formation and <math>\dot{\omega_{k}}</math> is the reaction rate.<br />
<br />
<math>{\rho}{\sum}_{k=1}^{N}h_{s,k}Y_{k}V_{k,i}</math> is the power produced by volume forces <math>f_{k}</math> on species k, considered as non-existent since there are no volume forces.<br />
<br />
<math>\dot{Q}</math> is the heat source term which is null here since there is no electric spark, laser or radiative flux.<br />
<br />
<math>Y_{k}</math> is the mass fraction of the species k.<br />
<br />
The tensor <math>\sigma_{ij}</math> is composed of the tensor of constraints and the tensor of pressure :<br />
<math>\sigma_{ij}=\tau_{ij}-P\delta_{ij}</math><br />
<br />
Thanks to these hypotheses, the total energy balance becomes : <br />
<br />
<math>\dfrac{\partial\rho E}{\partial t}+\dfrac{\partial (P+\rho E)U_{j}}{\partial x_{j}}=\dfrac{\partial q_{j}}{\partial x_{j}}+\dfrac{\partial\tau_{ij} U_{i}}{\partial x_{j}}+S_{5}</math>.<br />
<br />
<br />
With <math>S_{5}</math> corresponding to the heat release due to combustion, <math>\dot{\omega_{T}}</math>.<br />
<br />
* The term <math>S_{i}^{*}</math> is not used. It usually defines other forces like electromagnetical forces or weight.<br />
<br />
* <math>S_{k}</math> is either a fuel or a combustive source term.<br />
<br />
<math>S_{6}=\nu_{F}M_{F}\dot{\omega}</math> if it is a fuel source term or <math>S_{7}=\nu_{O}M_{O}\dot{\omega}</math> if it is the oxidant one.<br />
<br />
<math>M_{F}</math> and <math>M_{O}</math> are respectively the molar mass of fuel and oxidant.<br />
<br />
* <math>\dot{\omega}</math> can be determined by the Arrhenius law :<br />
<br />
<math>\dot{\omega}=B_{1}(\phi)\rho Y_{F}Y_{O}e^{\dfrac{\beta}{\alpha}}e^{\dfrac{-T_{a}}{T}}, B_{1}(\phi)=cst</math><br />
<br />
* The heat flows due to mass fraction gradients and the species molecular distribution due to temperature gradients are neglicted (cf : Soret and Dufour).<br />
<br />
* The termal conductivity, <math>\lambda</math> is given by :<br />
<br />
<math>\lambda=\dfrac{\mu C_{p}}{P_{r}}</math><br />
<br />
Where <math>P_{r}</math> is the Prandtl number :<br />
<br />
<math>P_{r}=\dfrac{\nu}{D_{th}}</math><br />
<br />
This number compares the momemtum distribution with the heat distribution.<br />
<br />
* The Lewis number for the species k, <math>Le_{k}</math>, is :<br />
<br />
<math>Le_{k}=\dfrac{\lambda}{\rho C_{P}D_{k}}</math><br />
<math>=\dfrac{D_{th}}{D_{k}}</math><br />
<br />
Where <math>D_{k}</math> is the species diffusion.<br />
<br />
We will consider the Lewis number egals to 1 in order to simplify the physics of the pre-mixture flame.<br />
<br />
* The Schmidt number, <math>S_{ck}</math>, is :<br />
<br />
<math>S_{ck}=P_{r}Le_{k}</math><br />
<br />
* From the relation of these last three numbers, we can deduct that :<br />
<br />
<math>D_{th}=D_{k}</math> and <math>D_{k}=\dfrac{D}{\rho}</math><br />
<br />
<math>P_{r}=\dfrac{\mu}{D}</math><br />
<br />
Therefore, the diffusion coefficient can be defined as :<br />
<br />
<math>D=\dfrac{\mu}{S_{ck}}</math><br />
<br />
* We use the Law of Fick which is a simplified diffusion law :<br />
<br />
<math>\vec{\phi}=-D.\vec{\nabla}C</math><br />
<br />
<math>\vec{\phi}</math> is the flux of particles density.<br />
<br />
C is the particles density.<br />
<br />
Thus the diffusion coefficients of the various species are characterized by the number of Lewis.<br />
<br />
* We consider that the gas is a perfect, viscous, reagent and diatomic gas. As a consequence of the viscosity, the compressible effects are not dominating, which involves that the bulk viscosity is neglicted.<br />
<br />
* The gas is reagent thus the mixture of various species is not isothermal, <i>they must be individually followed</i>. It implies that the calorific capacities depend on the temperature and on the composition.<br />
<br />
* For a diatomic gas, the calorific capacities can be defined as follows :<br />
<br />
<math>C_{P}=\dfrac{7}{2}r</math> <br />
<br />
<math>C_{V}=\dfrac{5}{2}r</math><br />
<br />
* The gas respects the law of perfect gases :<br />
<br />
<math>P=\rho rT</math><br />
<br />
* The combustion is an irreversible transformation whose creation of entropy is compensated with an entropy given by the system to the outside, because of a thermal transfer, thus we can consider that the transformation is isentropic. Consequently, the law of Laplace for the thermodynamics is applicable :<br />
<br />
<math>\dfrac{C_{P}}{C_{V}}=\gamma=1.4</math><br />
<br />
* According to the power law, the dynamic viscosity depends only on the temperature :<br />
<br />
<math>\mu=\mu_{0}\left( \dfrac{T}{T_{0}}\right) ^{\alpha_{s}}</math><br />
<br />
<math>\alpha_{s}=0.76</math><br />
<br />
* The tensor of the constraints, by respecting the hypothesis of a Newtonian fluid, is :<br />
<br />
<math>\tau_{ij}=\mu\left(\dfrac{\partial U_{i}}{\partial x_{j}}+\dfrac{\partial U_{j}}{\partial x_{i}}\right )-\dfrac{2}{3}\mu\dfrac{\partial U_{k}}{\partial x_{k}}\delta_{ij} </math><br />
<br />
The Kronecker symbol, <math>\delta_{ij}</math>, egals 1 if i=j, 0 else.<br />
<br />
* The acoustic Reynolds number is defined such as :<br />
<br />
<math>R_{c}=\dfrac{cL}{\nu}</math><br />
<br />
c is the speed of sound : 340 m.<math>s^{-1}</math>, L is the characteristic length and <math>\nu</math> is the kinematic viscosity of air : 1.45e-5 m².<math>s^{-1}</math>.<br />
<br />
=== Closure equations ===<br />
<br />
* <math>\rho E=\rho C_{V}T+\dfrac{1}{2}\rho U_{i}^{2}</math><br />
<br />
* <math>P=\rho rT</math><br />
<br />
* <math>\mu=\mu_{0}\left( \dfrac{T}{T_{0}}\right) ^{\alpha_{s}}</math><br />
<br />
&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;<math> \alpha_{s}=0.76 </math><br />
<br />
* <math>q_{j}=\lambda\dfrac{\partial T}{\partial x_{j}}</math><br />
<br />
* <math>q_{j}^{k}=D\dfrac{\partial Y_{k}}{\partial x_{j}}</math><br />
<br />
* <math>\tau_{ij}=\mu\left(\dfrac{\partial U_{i}}{\partial x_{j}}+\dfrac{\partial U_{j}}{\partial x_{i}}\right )-\dfrac{2}{3}\mu\dfrac{\partial U_{k}}{\partial x_{k}}\delta_{ij} </math><br />
<br />
<br />
== Models ==<br />
<br />
* Mixing : constant Schmidt number<br />
<br />
* Chemistry : one step Arrhenius' law<br />
<br />
* Viscosity : power law<br />
<br />
<br />
== Numerics ==<br />
<br />
* Spatial : 6th-order finite difference scheme<br />
<br />
* Temporal : 3rd order explicit time integration (Runge-Kutta3)<br />
<br />
* Chemical : <br />
** One step chemistry based on an Arrhenius' law<br />
** partially premixed gas<br />
<br />
* Boundary conditions : the 3D-NSCBC processing, applied in a referential attached to the local streamlines.<br />
<br />
<br />
== Data Structures ==<br />
<br />
* 1D, 2D, 3D structured solver<br />
<br />
* Optimized non-blocking MPI communications<br />
<br />
* Homogeneous mesh refinement<br />
<br />
* VTK post-treatment possible<br />
<br />
* Binary files<br />
<br />
* Unformatted Fortran90 format data files<br />
<br />
<br />
== Software Engineering ==<br />
<br />
* Fortran90 with modules<br />
<br />
* Keyword-based input file<br />
<br />
<br />
== Gallery ==<br />
<br />
{| class="wikitable" style="margin: 1em auto 1em auto;"<br />
|+ H-Allegro<br />
|-<br />
[[File:PNGChap4_xiso4_cas2.png|center|Test image|300px]]<br />
[[File:PNGChap4_xiso4_cas3.png|center|Test image 2|300px]]<br />
[[File:PRECCINSTA_2634M_Y_OH.png|center|thumb|OH radical field for the fully premixed reacting case|250px]]<br />
|-<br />
|}<br />
<br />
== Performances ==</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=908User:Taieb2012-04-24T08:09:24Z<p>Taieb: /* Publications */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, "Flow simulation under supercritical thermodynamics conditions". ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
<br />
== Conferences ==<br />
* D. Taieb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taieb, G. Ribert, A. Hadjadj, "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels". ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taieb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=907User:Taieb2012-04-24T08:09:01Z<p>Taieb: /* Conferences */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, "Flow simulation under supercritical thermodynamics conditions". ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
<br />
== Conferences ==<br />
* D. Taieb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taieb, G. Ribert, A. Hadjadj, "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels". ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taieb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=906User:Taieb2012-04-24T08:08:33Z<p>Taieb: /* Conferences */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, "Flow simulation under supercritical thermodynamics conditions". ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
<br />
== Conferences ==<br />
* D. Taieb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taieb, G. Ribert, A. Hadjadj, "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels", AIAA Paper, 2010<br />
* D. Taieb, G. Ribert, A. Hadjadj, DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channel. ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taieb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=905User:Taieb2012-04-24T08:08:01Z<p>Taieb: </p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, "Flow simulation under supercritical thermodynamics conditions". ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
<br />
== Conferences ==<br />
* D. Taieb, G. Ribert, A. Hadjadj, "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels", AIAA Paper, 2010<br />
* D. Taieb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taieb, G. Ribert, A. Hadjadj, DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channel. ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taieb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=Installation_script_for_Z800&diff=860Installation script for Z8002012-03-05T08:51:52Z<p>Taieb: </p>
<hr />
<div>Copy and paste the following lines in .bash_profile:<br />
alias l='ls -l'<br />
export PATH=$PATH:/home/admin/local/openmpi-1.4.4/bin<br />
export LD_LIBRARY_PATH="/home/admin/local/openmpi-1.4.4/lib:$LD_LIBRARY_PATH"<br />
export LD_PRELOAD=/usr/lib/x86_64-linux-gnu/libc/memcpy-preload.so<br />
<br />
Copy and paste this in a file called Install.make:<br />
<br />
INSTALL_DIR = /<br />
<br />
F77 = /usr/bin/gfortran<br />
FC = /usr/bin/gfortran<br />
CC = /usr/bin/gcc<br />
CXX = /usr/bin/g++<br />
CPP = /usr/bin/cpp<br />
CXXCPP = /usr/bin/cpp<br />
<br />
all: structure sed fftw3 openmpi hdf5 lapack ParMetis scotch petsc<br />
<br />
freenx-ocelot:<br />
sudo apt-get install libaudiofile0<br />
sudo add-apt-repository -y ppa:freenx-team<br />
sudo sed -i 's/oneiric/lucid/g' /etc/apt/sources.list.d/freenx-team-ppa-oneiric.list<br />
sudo apt-get update && sudo apt-get upgrade<br />
wget -P /tmp http://de.archive.ubuntu.com/ubuntu/pool/main/e/esound/esound-common_0.2.41-8_all.deb<br />
wget -P /tmp http://de.archive.ubuntu.com/ubuntu/pool/main/e/esound/libesd0_0.2.41-8_amd64.deb<br />
wget -P /tmp http://de.archive.ubuntu.com/ubuntu/pool/main/e/esound/esound-clients_0.2.41-8_amd64.deb<br />
sudo dpkg -i /tmp/esound-common_0.2.41-8_all.deb<br />
sudo dpkg -i /tmp/libesd0_0.2.41-8_amd64.deb<br />
sudo dpkg -i /tmp/esound-clients_0.2.41-8_amd64.deb<br />
sudo apt-get -f -y install<br />
sudo rm -f /tmp/esound-common_0.2.41-8_all.deb /tmp/libesd0_0.2.41-8_amd64.deb /tmp/esound-clients_0.2.41-8_amd64.deb<br />
sudo apt-get install -y freenx<br />
cd /tmp && wget https://bugs.launchpad.net/freenx-server/+bug/576359/+attachment/1378450/+files/nxsetup.tar.gz && tar zxvf nxsetup.tar.gz<br />
sudo cp /tmp/nxsetup /usr/lib/nx/nxsetup<br />
-sudo /usr/lib/nx/nxsetup --install --setup-nomachine-key<br />
sudo rm -f /tmp/nxsetup /tmp/nxsetup.tar.gz<br />
sudo touch /etc/apt/preferences<br />
sudo sh -c "echo Package: esound-common >> /etc/apt/preferences"<br />
sudo sh -c "echo Pin: version 0.2.41-8 >> /etc/apt/preferences"<br />
sudo sh -c "echo Pin-priority: 1001 >> /etc/apt/preferences"<br />
sudo sh -c "echo >> /etc/apt/preferences"<br />
sudo sh -c "echo Package: libesd0 >> /etc/apt/preferences"<br />
sudo sh -c "echo Pin: version 0.2.41-8 >> /etc/apt/preferences"<br />
sudo sh -c "echo Pin-priority: 1001 >> /etc/apt/preferences"<br />
<br />
packages:<br />
sudo apt-get install -y tcsh<br />
sudo apt-get install -y ssh<br />
sudo apt-get install -y g++<br />
sudo apt-get install -y gdb<br />
sudo apt-get install -y gfortran<br />
sudo apt-get install -y cmake<br />
sudo apt-get install -y flex<br />
sudo apt-get install -y bison<br />
sudo apt-get install -y git<br />
sudo apt-get install -y gitk<br />
sudo apt-get install -y subversion<br />
sudo apt-get install -y rapidsvn<br />
sudo apt-get install -y vim-gnome<br />
sudo apt-get install -y lib32z1-dev<br />
sudo apt-get install -y zlib1g-dev<br />
sudo apt-get install -y tkdiff<br />
sudo apt-get install -y default-jre<br />
sudo apt-get install -y gparted<br />
sudo apt-get install -y synaptic<br />
sudo apt-get install -y eclipse<br />
sudo apt-get install -y paraview<br />
sudo apt-get install -y gnash<br />
sudo apt-get install -y grace<br />
sudo apt-get install -y gnuplot<br />
<br />
structure:<br />
mkdir -p $(INSTALL_DIR)/Downloads<br />
mkdir -p $(INSTALL_DIR)/Builds<br />
mkdir -p $(INSTALL_DIR)/local<br />
<br />
sed:<br />
(cd $(INSTALL_DIR)/Downloads && wget http://ftp.gnu.org/gnu/sed/sed-4.2.tar.bz2)<br />
(cd $(INSTALL_DIR)/Builds && tar -jxvf $(INSTALL_DIR)/Downloads/sed-4.2.tar.bz2)<br />
(cd $(INSTALL_DIR)/Builds/sed-4.2 && ./configure --prefix=$(INSTALL_DIR)/local/sed-4.2 && make && make install)<br />
<br />
fftw3:<br />
(cd $(INSTALL_DIR)/Downloads && wget http://www.fftw.org/fftw-3.3.tar.gz)<br />
(cd $(INSTALL_DIR)/Builds && tar -zxvf $(INSTALL_DIR)/Downloads/fftw-3.3.tar.gz)<br />
(cd $(INSTALL_DIR)/Builds/fftw-3.3 && ./configure --prefix=$(INSTALL_DIR)/local/fftw-3.3 && make && make install)<br />
<br />
openmpi:<br />
(cd $(INSTALL_DIR)/Downloads && wget http://www.open-mpi.org/software/ompi/v1.4/downloads/openmpi-1.4.4.tar.bz2)<br />
(cd $(INSTALL_DIR)/Builds && tar -jxvf $(INSTALL_DIR)/Downloads/openmpi-1.4.4.tar.bz2)<br />
(cd $(INSTALL_DIR)/Builds/openmpi-1.4.4 && ./configure --prefix=$(INSTALL_DIR)/local/openmpi-1.4.4 --enable-mpi-f90 && make && make install)<br />
<br />
hdf5:<br />
(cd $(INSTALL_DIR)/Downloads && wget http://www.hdfgroup.org/ftp/HDF5/current/src/hdf5-1.8.8.tar.bz2)<br />
(cd $(INSTALL_DIR)/Builds && tar -jxvf $(INSTALL_DIR)/Downloads/hdf5-1.8.8.tar.bz2)<br />
(cd $(INSTALL_DIR)/Builds/hdf5-1.8.8 && ./configure --prefix=$(INSTALL_DIR)/local/hdf5-1.8.8 --enable-fortran --enable-cxx && make && make install)<br />
<br />
lapack:<br />
(cd $(INSTALL_DIR)/Downloads && wget http://www.netlib.org/lapack/lapack-3.4.0.tgz)<br />
(cd $(INSTALL_DIR)/Builds && tar -zxvf $(INSTALL_DIR)/Downloads/lapack-3.4.0.tgz)<br />
(cd $(INSTALL_DIR)/Builds/lapack-3.4.0 && cp make.inc.example make.inc && make blaslib && make lapacklib)<br />
mkdir -p $(INSTALL_DIR)/local/blas/lib<br />
mkdir -p $(INSTALL_DIR)/local/lapack/lib<br />
ln -s $(INSTALL_DIR)/Builds/lapack-3.4.0/liblapack.a $(INSTALL_DIR)/local/lapack/lib/liblapack.a<br />
ln -s $(INSTALL_DIR)/Builds/lapack-3.4.0/librefblas.a $(INSTALL_DIR)/local/blas/lib/libblas.a<br />
<br />
ParMetis:<br />
(cd $(INSTALL_DIR)/Downloads && wget http://glaros.dtc.umn.edu/gkhome/fetch/sw/parmetis/OLD/ParMetis-3.2.0.tar.gz)<br />
(cd $(INSTALL_DIR)/Builds && tar -zxvf $(INSTALL_DIR)/Downloads/ParMetis-3.2.0.tar.gz)<br />
echo "CC = $(INSTALL_DIR)/local/openmpi-1.4.4/bin/mpicc" > $(INSTALL_DIR)/Builds/ParMetis-3.2.0/Makefile.in<br />
echo "OPTFLAGS = -O3" >> $(INSTALL_DIR)/Builds/ParMetis-3.2.0/Makefile.in<br />
echo "INCDIR =" >> $(INSTALL_DIR)/Builds/ParMetis-3.2.0/Makefile.in<br />
echo "COPTIONS = -DNDEBUG" >> $(INSTALL_DIR)/Builds/ParMetis-3.2.0/Makefile.in<br />
echo "LD = $(INSTALL_DIR)/local/openmpi-1.4.4/bin/mpicc" >> $(INSTALL_DIR)/Builds/ParMetis-3.2.0/Makefile.in<br />
echo "LIBDIR =" >> $(INSTALL_DIR)/Builds/ParMetis-3.2.0/Makefile.in<br />
echo "AR = ar rv" >> $(INSTALL_DIR)/Builds/ParMetis-3.2.0/Makefile.in<br />
echo "RANLIB = ar -ts" >> $(INSTALL_DIR)/Builds/ParMetis-3.2.0/Makefile.in<br />
echo "VERNUM = 3.2.0" >> $(INSTALL_DIR)/Builds/ParMetis-3.2.0/Makefile.in<br />
(cd $(INSTALL_DIR)/Builds/ParMetis-3.2.0 && make)<br />
mkdir -p $(INSTALL_DIR)/local/ParMetis-3.2.0/lib<br />
mkdir -p $(INSTALL_DIR)/local/ParMetis-3.2.0/include<br />
ln -s $(INSTALL_DIR)/Builds/ParMetis-3.2.0/*.a $(INSTALL_DIR)/local/ParMetis-3.2.0/lib/<br />
ln -s $(INSTALL_DIR)/Builds/ParMetis-3.2.0/*.h $(INSTALL_DIR)/local/ParMetis-3.2.0/include/<br />
<br />
scotch:<br />
(cd $(INSTALL_DIR)/Downloads && wget https://gforge.inria.fr/frs/download.php/28977/scotch_5.1.12b.tar.gz)<br />
(cd $(INSTALL_DIR)/Builds && tar -zxvf $(INSTALL_DIR)/Downloads/scotch_5.1.12b.tar.gz)<br />
echo "EXE =" > $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "LIB = .a" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "OBJ = .o" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "MAKE = make" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "AR = ar" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "ARFLAGS = -ruv" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "CAT = cat" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "CCS = $(CC)" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "CCP = $(INSTALL_DIR)/local/openmpi-1.4.4/bin/mpicc" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "CCD = $(CC)" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "CFLAGS = -O3 -DCOMMON_FILE_COMPRESS_GZ -DCOMMON_PTHREAD -DCOMMON_RANDOM_FIXED_SEED -DSCOTCH_RENAME -DSCOTCH_RENAME_PARSER -DSCOTCH_PTHREAD -Drestrict=__restrict -DIDXSIZE64 -I$(INSTALL_DIR)/local/openmpi-1.4.4/include" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "CLIBFLAGS =" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "LDFLAGS = -lz -lm -lrt" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "CP = cp" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "LEX = flex -Pscotchyy -olex.yy.c" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "LN = ln" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "MKDIR = mkdir -p" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "MV = mv" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "RANLIB = ranlib" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "YACC = bison -pscotchyy -y -b y" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
echo "prefix = $(INSTALL_DIR)/local/scotch_5.1.12" >> $(INSTALL_DIR)/Builds/scotch_5.1.12/src/Makefile.inc<br />
(cd $(INSTALL_DIR)/Builds/scotch_5.1.12/src && make scotch && make ptscotch && make install)<br />
<br />
petsc:<br />
(cd $(INSTALL_DIR)/Downloads && wget http://ftp.mcs.anl.gov/pub/petsc/release-snapshots/petsc-lite-3.2-p6.tar.gz)<br />
(cd $(INSTALL_DIR)/Builds && tar -zxvf $(INSTALL_DIR)/Downloads/petsc-lite-3.2-p6.tar.gz)<br />
(cd $(INSTALL_DIR)/Builds/petsc-3.2-p6 && ./configure --prefix=$(INSTALL_DIR)/local/petsc-3.2-p6 --download-hypre=yes --with-mpi-dir=$(INSTALL_DIR)/local/openmpi-1.4.4 --with-blas-lib=$(INSTALL_DIR)/local/blas/lib/libblas.a --with-lapack-lib=$(INSTALL_DIR)/local/lapack/lib/liblapack.a && make PETSC_DIR=$(INSTALL_DIR)/Builds/petsc-3.2-p6 PETSC_ARCH=arch-linux2-c-debug all && make PETSC_DIR=$(INSTALL_DIR)/Builds/petsc-3.2-p6 PETSC_ARCH=arch-linux2-c-debug install)<br />
<br />
clean:<br />
echo<br />
<br />
<br />
<br />
'''WARNING''':<br />
If you encounter any problem for installing freeNX, you should consider visiting [http://notepad2.blogspot.com/2011/05/install-freenx-server-on-ubuntu-1004.html this] website...<br />
<br />
'''GAMBIT Installation''':<br />
You must type the following lines to install some additional packages that are recquired by gambit:<br />
<br />
wget -P /tmp http://ubuntu.mirror.cambrium.nl/ubuntu//pool/multiverse/o/openmotif/libmotif3_2.2.3-4_amd64.deb && sudo dpkg -i /tmp/libmotif3_2.2.3-4_amd64.deb<br />
sudo apt-get install libstdc++5 xfs xfstt xfonts-75dpi xfonts-100dpi<br />
rm /tmp/libmotif3_2.2.3-4_amd64.deb</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=625User:Taieb2011-07-19T07:33:30Z<p>Taieb: /* Publications */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* D. Taieb and G. Ribert, "DNS and LES of an isothermal channel flow", ''submitted to IJHMT'' (2011).<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
* D. Taieb, G. Ribert, A. Hadjadj, "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels", AIAA Paper<br />
<br />
== Conferences ==<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, Flow simulation under supercritical thermodynamics conditions. ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
* D. Taieb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taieb, G. Ribert, A. Hadjadj, DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channel. ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taieb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=584User:Taieb2011-06-08T13:00:07Z<p>Taieb: /* Publications */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* D. Taieb and G. Ribert, ''submitted'' (2011).<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
* D. Taieb, G. Ribert, A. Hadjadj, "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels", AIAA Paper<br />
<br />
== Conferences ==<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, Flow simulation under supercritical thermodynamics conditions. ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
* D. Taieb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taieb, G. Ribert, A. Hadjadj, DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channel. ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taieb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=583User:Taieb2011-06-08T12:59:29Z<p>Taieb: /* Conferences */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* D. Taieb and G. Ribert, ''submitted'' (2011).<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
* 2010: "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels", D. Taieb, G. Ribert, A. Hadjadj, AIAA Paper<br />
<br />
== Conferences ==<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, Flow simulation under supercritical thermodynamics conditions. ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
* D. Taieb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taieb, G. Ribert, A. Hadjadj, DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channel. ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taieb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=582User:Taieb2011-06-08T12:59:20Z<p>Taieb: /* Conferences */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* D. Taieb and G. Ribert, ''submitted'' (2011).<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
* 2010: "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels", D. Taieb, G. Ribert, A. Hadjadj, AIAA Paper<br />
<br />
== Conferences ==<br />
* G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, Flow simulation under supercritical thermodynamics conditions. ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
* D. Taïeb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
* D. Taïeb, G. Ribert, A. Hadjadj, DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channel. ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
* D. Taïeb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=581User:Taieb2011-06-08T12:59:05Z<p>Taieb: </p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* D. Taieb and G. Ribert, ''submitted'' (2011).<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
* 2010: "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels", D. Taieb, G. Ribert, A. Hadjadj, AIAA Paper<br />
<br />
== Conferences ==<br />
# G. Ribert, D. Taïeb, X. Petit, G. Lartigue, P. Domingo, Flow simulation under supercritical thermodynamics conditions. ''4th Eucass Conference'', St-Petersburg (Russia), 2011.<br />
# D. Taïeb, G. Ribert, V. Yang, Supercritical fluid behavior in a cooling channel. ''49th AIAA ASM Conference'', Orlando (USA), 2011, AIAA-2011-392.<br />
# D. Taïeb, G. Ribert, A. Hadjadj, DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channel. ''48th AIAA ASM Conference'', Orlando (USA), 2010, AIAA-2010-638.<br />
# D. Taïeb, G. Ribert and A. Hadjadj, Numerical simulation of a shock focusing on a concave surface, ''ISIS18'' (Rouen, France), 2008.</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=580User:Taieb2011-06-08T12:57:42Z<p>Taieb: /* Articles */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* D. Taieb and G. Ribert, ''submitted'' (2011).<br />
* D. Taieb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
* 2010: "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels", D. Taieb, G. Ribert, A. Hadjadj, AIAA Paper</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=579User:Taieb2011-06-08T12:57:27Z<p>Taieb: /* Publications */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
=== Articles ===<br />
* D. Taieb and G. Ribert, ''submitted'' (2011).<br />
* D. Taïeb, G. Ribert and A. Hadjadj, "Numerical simulation of shock focusing over concave surfaces", ''AIAA J.'' '''(48,8)''': 1739-1747 (2010). [http://pdf.aiaa.org/jaPreview/AIAAJ/2010/PVJA51240.pdf link]<br />
* 2010: "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels", D. Taieb, G. Ribert, A. Hadjadj, AIAA Paper</div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=557YALES2 Gallery2011-03-28T15:20:38Z<p>Taieb: /* Interaction between two Le Mans Series prototypes (David Taieb,Guillaume Ribert & Vincent Moureau) */</p>
<hr />
<div>== '''Formula One''' ([[User:Taieb|David Taieb]], [[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Computation of a Formula 1 meeting with the 2010 regulations. <br />
<br />
The design is based on the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
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.<br />
<br />
The body of the car is discretized with 6.5mm element leading to 36 M cells in the computational domain.<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|center|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|center|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== '''Interaction between two Le Mans Series prototypes''' ([[User:Taieb|David Taieb]], [[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
{|align="center"<br />
|+ Interaction between two Le Mans Series prototypes with YALES2<br />
|-<br />
| [[File:LMS_U_stream_025.jpg|center|Instantaneous streamlines colored by velocity RMS.|400px]]<br />
| [[File:LMS_up_pressure.jpg|centerContour of pressure on the upper bodywork.|400px]]<br />
|-<br />
| [[File:LMS_stream_Umean.jpg|center|Streamlines of averaged velocity colored by velocity RMS.|400px]]<br />
| [[File:LMS_wake_DF.jpg|center|Longitudinal slice of instantaneous velocity and downforce on bodies.|400px]]<br />
|}<br />
<br />
== '''PRECCINSTA Burner''' ([[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Direct Numerical Simulation of an aeronautical burner [http://dx.doi.org/10.1016/j.combustflame.2010.12.004]. The mesh features 2.6 billion tetrahedrons and a resolution of 100 microns.<br />
{| class="wikitable"<br />
|+ PRECCINSTA burner with YALES2<br />
|-<br />
| [[File:PRECCINSTA_2634M_q_crit_persp.png|center|thumb|Iso-surface of the Q criterion for the isothermal case]]<br />
| [[File:PRECCINSTA_2634M_T_pub.png|center|thumb|Temperature field for the fully premixed reacting case]]<br />
| [[File:PRECCINSTA_2634M_Y_OH.png|center|thumb|OH radical field for the fully premixed reacting case]]<br />
|-<br />
| colspan="2" |<br />
{| style="margin: 10px;"<br />
| {{#widget:YouTube|id=B8o9Sfdqhhg|width=400|height=300}}<br />
|}<br />
| [[File:Couverture CRAS calcul intensif.png|center|thumb|Couverture du Numéro Spécial Calcul Intensif des Comptes Rendus de Mécanique de l'académie des sciences]]<br />
|}<br />
<br />
== '''T7.2 Blade''' ([[User:Maheu|Nicolas Maheu]])==<br />
Large-Eddy Simulation of heat exchanges on a turbine blade.<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|center|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|center|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}<br />
<br />
== '''KIAI burner''' ([[User:Moureauv|Vincent Moureau]])==<br />
Large-Eddy Simulations of a swirl burner designed and operated at CORIA (J.P. Frenillot, G. Cabot, B. Renou, M. Boukhalfa).<br />
{| class="wikitable"<br />
|+ KIAI burner with YALES2<br />
|-<br />
| [[File:KIAI_382M_U.png|center|thumb|Velocity field for the cold flow - 382M tetrahedrons]]<br />
| [[File:KIAI_382M_Q.png|center|thumb|Q-criterion for the cold flow - 382M tetrahedrons]]<br />
|}<br />
<br />
== '''Two-phase computations''' ([[User:Moureauv|Vincent Moureau]] and O. Desjardins) ==<br />
<br />
{| class="wikitable"<br />
|+ Primary atomization computations with YALES2<br />
|-<br />
|<br />
{| style="margin: 10px;"<br />
|{{#widget:YouTube|id=SPSdnhMfdKg|width=400|height=300}}<br />
|}<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=File:LMS_stream_Umean.jpg&diff=556File:LMS stream Umean.jpg2011-03-28T10:19:32Z<p>Taieb: </p>
<hr />
<div></div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=555YALES2 Gallery2011-03-28T10:19:18Z<p>Taieb: /* Interaction between two Le Mans Series prototypes (David Taieb,Guillaume Ribert & Vincent Moureau) */</p>
<hr />
<div>== '''Formula One''' ([[User:Taieb|David Taieb]], [[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Computation of a Formula 1 meeting with the 2010 regulations. <br />
<br />
The design is based on the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
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.<br />
<br />
The body of the car is discretized with 6.5mm element leading to 36 M cells in the computational domain.<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|center|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|center|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== '''Interaction between two Le Mans Series prototypes''' ([[User:Taieb|David Taieb]],[[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
{|align="center"<br />
|+ Interaction between two Le Mans Series prototypes with YALES2<br />
|-<br />
| [[File:LMS_U_stream_025.jpg|center|Instantaneous streamlines colored by velocity RMS.|400px]]<br />
| [[File:LMS_up_pressure.jpg|centerContour of pressure on the upper bodywork.|400px]]<br />
|-<br />
| [[File:LMS_stream_Umean.jpg|center|Streamlines of averaged velocity colored by velocity RMS.|400px]]<br />
| [[File:LMS_wake_DF.jpg|center|Longitudinal slice of instantaneous velocity and downforce on bodies.|400px]]<br />
|}<br />
<br />
== '''PRECCINSTA Burner''' ([[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Direct Numerical Simulation of an aeronautical burner [http://dx.doi.org/10.1016/j.combustflame.2010.12.004]. The mesh features 2.6 billion tetrahedrons and a resolution of 100 microns.<br />
{| class="wikitable"<br />
|+ PRECCINSTA burner with YALES2<br />
|-<br />
| [[File:PRECCINSTA_2634M_q_crit_persp.png|center|thumb|Iso-surface of the Q criterion for the isothermal case]]<br />
| [[File:PRECCINSTA_2634M_T_pub.png|center|thumb|Temperature field for the fully premixed reacting case]]<br />
| [[File:PRECCINSTA_2634M_Y_OH.png|center|thumb|OH radical field for the fully premixed reacting case]]<br />
|-<br />
| colspan="2" |<br />
{| style="margin: 10px;"<br />
| {{#widget:YouTube|id=B8o9Sfdqhhg|width=400|height=300}}<br />
|}<br />
| [[File:Couverture CRAS calcul intensif.png|center|thumb|Couverture du Numéro Spécial Calcul Intensif des Comptes Rendus de Mécanique de l'académie des sciences]]<br />
|}<br />
<br />
== '''T7.2 Blade''' ([[User:Maheu|Nicolas Maheu]])==<br />
Large-Eddy Simulation of heat exchanges on a turbine blade.<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|center|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|center|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}<br />
<br />
== '''KIAI burner''' ([[User:Moureauv|Vincent Moureau]])==<br />
Large-Eddy Simulations of a swirl burner designed and operated at CORIA (J.P. Frenillot, G. Cabot, B. Renou, M. Boukhalfa).<br />
{| class="wikitable"<br />
|+ KIAI burner with YALES2<br />
|-<br />
| [[File:KIAI_382M_U.png|center|thumb|Velocity field for the cold flow - 382M tetrahedrons]]<br />
| [[File:KIAI_382M_Q.png|center|thumb|Q-criterion for the cold flow - 382M tetrahedrons]]<br />
|}<br />
<br />
== '''Two-phase computations''' ([[User:Moureauv|Vincent Moureau]] and O. Desjardins) ==<br />
<br />
{| class="wikitable"<br />
|+ Primary atomization computations with YALES2<br />
|-<br />
|<br />
{| style="margin: 10px;"<br />
|{{#widget:YouTube|id=SPSdnhMfdKg|width=400|height=300}}<br />
|}<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=554YALES2 Gallery2011-03-28T10:18:13Z<p>Taieb: /* Interaction between two Le Mans Series prototypes (David Taieb,Guillaume Ribert & Vincent Moureau) */</p>
<hr />
<div>== '''Formula One''' ([[User:Taieb|David Taieb]], [[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Computation of a Formula 1 meeting with the 2010 regulations. <br />
<br />
The design is based on the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
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.<br />
<br />
The body of the car is discretized with 6.5mm element leading to 36 M cells in the computational domain.<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|center|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|center|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== '''Interaction between two Le Mans Series prototypes''' ([[User:Taieb|David Taieb]],[[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
{|align="center"<br />
|+ Interaction between two Le Mans Series prototypes with YALES2<br />
|-<br />
| [[File:LMS_U_stream_025.jpg|center|Instantaneous streamlines colored by velocity RMS.|400px]]<br />
| [[File:LMS_up_pressure.jpg|centerContour of pressure on the upper bodywork.|400px]]<br />
|-<br />
| [[File:LMS_wake_DF.jpg|center|Longitudinal slice of instantaneous velocity and downforce on bodies.|400px]]<br />
|}<br />
<br />
== '''PRECCINSTA Burner''' ([[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Direct Numerical Simulation of an aeronautical burner [http://dx.doi.org/10.1016/j.combustflame.2010.12.004]. The mesh features 2.6 billion tetrahedrons and a resolution of 100 microns.<br />
{| class="wikitable"<br />
|+ PRECCINSTA burner with YALES2<br />
|-<br />
| [[File:PRECCINSTA_2634M_q_crit_persp.png|center|thumb|Iso-surface of the Q criterion for the isothermal case]]<br />
| [[File:PRECCINSTA_2634M_T_pub.png|center|thumb|Temperature field for the fully premixed reacting case]]<br />
| [[File:PRECCINSTA_2634M_Y_OH.png|center|thumb|OH radical field for the fully premixed reacting case]]<br />
|-<br />
| colspan="2" |<br />
{| style="margin: 10px;"<br />
| {{#widget:YouTube|id=B8o9Sfdqhhg|width=400|height=300}}<br />
|}<br />
| [[File:Couverture CRAS calcul intensif.png|center|thumb|Couverture du Numéro Spécial Calcul Intensif des Comptes Rendus de Mécanique de l'académie des sciences]]<br />
|}<br />
<br />
== '''T7.2 Blade''' ([[User:Maheu|Nicolas Maheu]])==<br />
Large-Eddy Simulation of heat exchanges on a turbine blade.<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|center|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|center|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}<br />
<br />
== '''KIAI burner''' ([[User:Moureauv|Vincent Moureau]])==<br />
Large-Eddy Simulations of a swirl burner designed and operated at CORIA (J.P. Frenillot, G. Cabot, B. Renou, M. Boukhalfa).<br />
{| class="wikitable"<br />
|+ KIAI burner with YALES2<br />
|-<br />
| [[File:KIAI_382M_U.png|center|thumb|Velocity field for the cold flow - 382M tetrahedrons]]<br />
| [[File:KIAI_382M_Q.png|center|thumb|Q-criterion for the cold flow - 382M tetrahedrons]]<br />
|}<br />
<br />
== '''Two-phase computations''' ([[User:Moureauv|Vincent Moureau]] and O. Desjardins) ==<br />
<br />
{| class="wikitable"<br />
|+ Primary atomization computations with YALES2<br />
|-<br />
|<br />
{| style="margin: 10px;"<br />
|{{#widget:YouTube|id=SPSdnhMfdKg|width=400|height=300}}<br />
|}<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=553YALES2 Gallery2011-03-28T10:17:59Z<p>Taieb: /* Interaction between two Le Mans Series prototypes (David Taieb,Guillaume Ribert & Vincent Moureau) */</p>
<hr />
<div>== '''Formula One''' ([[User:Taieb|David Taieb]], [[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Computation of a Formula 1 meeting with the 2010 regulations. <br />
<br />
The design is based on the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
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.<br />
<br />
The body of the car is discretized with 6.5mm element leading to 36 M cells in the computational domain.<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|center|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|center|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== '''Interaction between two Le Mans Series prototypes''' ([[User:Taieb|David Taieb]],[[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
{|align="center"<br />
|+ Interaction between two Le Mans Series prototypes with YALES2<br />
|-<br />
| [[File:LMS_U_stream_025.jpg|center|Instantaneous streamlines colored by velocity RMS.|400px]]<br />
|-<br />
| [[File:LMS_up_pressure.jpg|centerContour of pressure on the upper bodywork.|400px]]<br />
|-<br />
| [[File:LMS_wake_DF.jpg|center|Longitudinal slice of instantaneous velocity and downforce on bodies.|400px]]<br />
|}<br />
<br />
== '''PRECCINSTA Burner''' ([[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Direct Numerical Simulation of an aeronautical burner [http://dx.doi.org/10.1016/j.combustflame.2010.12.004]. The mesh features 2.6 billion tetrahedrons and a resolution of 100 microns.<br />
{| class="wikitable"<br />
|+ PRECCINSTA burner with YALES2<br />
|-<br />
| [[File:PRECCINSTA_2634M_q_crit_persp.png|center|thumb|Iso-surface of the Q criterion for the isothermal case]]<br />
| [[File:PRECCINSTA_2634M_T_pub.png|center|thumb|Temperature field for the fully premixed reacting case]]<br />
| [[File:PRECCINSTA_2634M_Y_OH.png|center|thumb|OH radical field for the fully premixed reacting case]]<br />
|-<br />
| colspan="2" |<br />
{| style="margin: 10px;"<br />
| {{#widget:YouTube|id=B8o9Sfdqhhg|width=400|height=300}}<br />
|}<br />
| [[File:Couverture CRAS calcul intensif.png|center|thumb|Couverture du Numéro Spécial Calcul Intensif des Comptes Rendus de Mécanique de l'académie des sciences]]<br />
|}<br />
<br />
== '''T7.2 Blade''' ([[User:Maheu|Nicolas Maheu]])==<br />
Large-Eddy Simulation of heat exchanges on a turbine blade.<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|center|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|center|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}<br />
<br />
== '''KIAI burner''' ([[User:Moureauv|Vincent Moureau]])==<br />
Large-Eddy Simulations of a swirl burner designed and operated at CORIA (J.P. Frenillot, G. Cabot, B. Renou, M. Boukhalfa).<br />
{| class="wikitable"<br />
|+ KIAI burner with YALES2<br />
|-<br />
| [[File:KIAI_382M_U.png|center|thumb|Velocity field for the cold flow - 382M tetrahedrons]]<br />
| [[File:KIAI_382M_Q.png|center|thumb|Q-criterion for the cold flow - 382M tetrahedrons]]<br />
|}<br />
<br />
== '''Two-phase computations''' ([[User:Moureauv|Vincent Moureau]] and O. Desjardins) ==<br />
<br />
{| class="wikitable"<br />
|+ Primary atomization computations with YALES2<br />
|-<br />
|<br />
{| style="margin: 10px;"<br />
|{{#widget:YouTube|id=SPSdnhMfdKg|width=400|height=300}}<br />
|}<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=552YALES2 Gallery2011-03-28T10:17:46Z<p>Taieb: /* Interaction between two Le Mans Series prototypes (David Taieb,Guillaume Ribert & Vincent Moureau) */</p>
<hr />
<div>== '''Formula One''' ([[User:Taieb|David Taieb]], [[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Computation of a Formula 1 meeting with the 2010 regulations. <br />
<br />
The design is based on the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
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.<br />
<br />
The body of the car is discretized with 6.5mm element leading to 36 M cells in the computational domain.<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|center|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|center|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== '''Interaction between two Le Mans Series prototypes''' ([[User:Taieb|David Taieb]],[[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
{|align="center"<br />
{| class="wikitable"<br />
|+ Interaction between two Le Mans Series prototypes with YALES2<br />
|-<br />
| [[File:LMS_U_stream_025.jpg|center|Instantaneous streamlines colored by velocity RMS.|400px]]<br />
|-<br />
| [[File:LMS_up_pressure.jpg|centerContour of pressure on the upper bodywork.|400px]]<br />
|-<br />
| [[File:LMS_wake_DF.jpg|center|Longitudinal slice of instantaneous velocity and downforce on bodies.|400px]]<br />
|}<br />
|}<br />
<br />
== '''PRECCINSTA Burner''' ([[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Direct Numerical Simulation of an aeronautical burner [http://dx.doi.org/10.1016/j.combustflame.2010.12.004]. The mesh features 2.6 billion tetrahedrons and a resolution of 100 microns.<br />
{| class="wikitable"<br />
|+ PRECCINSTA burner with YALES2<br />
|-<br />
| [[File:PRECCINSTA_2634M_q_crit_persp.png|center|thumb|Iso-surface of the Q criterion for the isothermal case]]<br />
| [[File:PRECCINSTA_2634M_T_pub.png|center|thumb|Temperature field for the fully premixed reacting case]]<br />
| [[File:PRECCINSTA_2634M_Y_OH.png|center|thumb|OH radical field for the fully premixed reacting case]]<br />
|-<br />
| colspan="2" |<br />
{| style="margin: 10px;"<br />
| {{#widget:YouTube|id=B8o9Sfdqhhg|width=400|height=300}}<br />
|}<br />
| [[File:Couverture CRAS calcul intensif.png|center|thumb|Couverture du Numéro Spécial Calcul Intensif des Comptes Rendus de Mécanique de l'académie des sciences]]<br />
|}<br />
<br />
== '''T7.2 Blade''' ([[User:Maheu|Nicolas Maheu]])==<br />
Large-Eddy Simulation of heat exchanges on a turbine blade.<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|center|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|center|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}<br />
<br />
== '''KIAI burner''' ([[User:Moureauv|Vincent Moureau]])==<br />
Large-Eddy Simulations of a swirl burner designed and operated at CORIA (J.P. Frenillot, G. Cabot, B. Renou, M. Boukhalfa).<br />
{| class="wikitable"<br />
|+ KIAI burner with YALES2<br />
|-<br />
| [[File:KIAI_382M_U.png|center|thumb|Velocity field for the cold flow - 382M tetrahedrons]]<br />
| [[File:KIAI_382M_Q.png|center|thumb|Q-criterion for the cold flow - 382M tetrahedrons]]<br />
|}<br />
<br />
== '''Two-phase computations''' ([[User:Moureauv|Vincent Moureau]] and O. Desjardins) ==<br />
<br />
{| class="wikitable"<br />
|+ Primary atomization computations with YALES2<br />
|-<br />
|<br />
{| style="margin: 10px;"<br />
|{{#widget:YouTube|id=SPSdnhMfdKg|width=400|height=300}}<br />
|}<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=551YALES2 Gallery2011-03-28T10:16:05Z<p>Taieb: /* Interaction between two Le Mans Series prototypes (David Taieb,Guillaume Ribert & Vincent Moureau) */</p>
<hr />
<div>== '''Formula One''' ([[User:Taieb|David Taieb]], [[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Computation of a Formula 1 meeting with the 2010 regulations. <br />
<br />
The design is based on the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
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.<br />
<br />
The body of the car is discretized with 6.5mm element leading to 36 M cells in the computational domain.<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|center|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|center|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== '''Interaction between two Le Mans Series prototypes''' ([[User:Taieb|David Taieb]],[[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
{| class="wikitable"<br />
|+ Interaction between two Le Mans Series prototypes with YALES2<br />
|-<br />
| [[File:LMS_U_stream_025.jpg|center|Instantaneous streamlines colored by velocity RMS.|400px]]<br />
|-<br />
| [[File:LMS_up_pressure.jpg|centerContour of pressure on the upper bodywork.|400px]]<br />
|-<br />
| [[File:LMS_wake_DF.jpg|center|Longitudinal slice of instantaneous velocity and downforce on bodies.|400px]]<br />
|}<br />
<br />
== '''PRECCINSTA Burner''' ([[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Direct Numerical Simulation of an aeronautical burner [http://dx.doi.org/10.1016/j.combustflame.2010.12.004]. The mesh features 2.6 billion tetrahedrons and a resolution of 100 microns.<br />
{| class="wikitable"<br />
|+ PRECCINSTA burner with YALES2<br />
|-<br />
| [[File:PRECCINSTA_2634M_q_crit_persp.png|center|thumb|Iso-surface of the Q criterion for the isothermal case]]<br />
| [[File:PRECCINSTA_2634M_T_pub.png|center|thumb|Temperature field for the fully premixed reacting case]]<br />
| [[File:PRECCINSTA_2634M_Y_OH.png|center|thumb|OH radical field for the fully premixed reacting case]]<br />
|-<br />
| colspan="2" |<br />
{| style="margin: 10px;"<br />
| {{#widget:YouTube|id=B8o9Sfdqhhg|width=400|height=300}}<br />
|}<br />
| [[File:Couverture CRAS calcul intensif.png|center|thumb|Couverture du Numéro Spécial Calcul Intensif des Comptes Rendus de Mécanique de l'académie des sciences]]<br />
|}<br />
<br />
== '''T7.2 Blade''' ([[User:Maheu|Nicolas Maheu]])==<br />
Large-Eddy Simulation of heat exchanges on a turbine blade.<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|center|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|center|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}<br />
<br />
== '''KIAI burner''' ([[User:Moureauv|Vincent Moureau]])==<br />
Large-Eddy Simulations of a swirl burner designed and operated at CORIA (J.P. Frenillot, G. Cabot, B. Renou, M. Boukhalfa).<br />
{| class="wikitable"<br />
|+ KIAI burner with YALES2<br />
|-<br />
| [[File:KIAI_382M_U.png|center|thumb|Velocity field for the cold flow - 382M tetrahedrons]]<br />
| [[File:KIAI_382M_Q.png|center|thumb|Q-criterion for the cold flow - 382M tetrahedrons]]<br />
|}<br />
<br />
== '''Two-phase computations''' ([[User:Moureauv|Vincent Moureau]] and O. Desjardins) ==<br />
<br />
{| class="wikitable"<br />
|+ Primary atomization computations with YALES2<br />
|-<br />
|<br />
{| style="margin: 10px;"<br />
|{{#widget:YouTube|id=SPSdnhMfdKg|width=400|height=300}}<br />
|}<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=File:LMS_wake_DF.jpg&diff=550File:LMS wake DF.jpg2011-03-28T10:15:10Z<p>Taieb: </p>
<hr />
<div></div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=549YALES2 Gallery2011-03-28T10:14:59Z<p>Taieb: /* Interaction between two Le Mans Series prototypes (David Taieb,Guillaume Ribert & Vincent Moureau) */</p>
<hr />
<div>== '''Formula One''' ([[User:Taieb|David Taieb]], [[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Computation of a Formula 1 meeting with the 2010 regulations. <br />
<br />
The design is based on the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
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.<br />
<br />
The body of the car is discretized with 6.5mm element leading to 36 M cells in the computational domain.<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|center|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|center|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== '''Interaction between two Le Mans Series prototypes''' ([[User:Taieb|David Taieb]],[[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
{| class="wikitable"<br />
|+ Interaction between two Le Mans Series prototypes with YALES2<br />
|-<br />
| [[File:LMS_U_stream_025.jpg|center|Instantaneous streamlines colored by velocity RMS.|250px]]<br />
| [[File:LMS_up_pressure.jpg|centerContour of pressure on the upper bodywork.|250px]]<br />
| [[File:LMS_wake_DF.jpg|center|Longitudinal slice of instantaneous velocity and downforce on bodies.|250px]]<br />
|}<br />
<br />
== '''PRECCINSTA Burner''' ([[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Direct Numerical Simulation of an aeronautical burner [http://dx.doi.org/10.1016/j.combustflame.2010.12.004]. The mesh features 2.6 billion tetrahedrons and a resolution of 100 microns.<br />
{| class="wikitable"<br />
|+ PRECCINSTA burner with YALES2<br />
|-<br />
| [[File:PRECCINSTA_2634M_q_crit_persp.png|center|thumb|Iso-surface of the Q criterion for the isothermal case]]<br />
| [[File:PRECCINSTA_2634M_T_pub.png|center|thumb|Temperature field for the fully premixed reacting case]]<br />
| [[File:PRECCINSTA_2634M_Y_OH.png|center|thumb|OH radical field for the fully premixed reacting case]]<br />
|-<br />
| colspan="2" |<br />
{| style="margin: 10px;"<br />
| {{#widget:YouTube|id=B8o9Sfdqhhg|width=400|height=300}}<br />
|}<br />
| [[File:Couverture CRAS calcul intensif.png|center|thumb|Couverture du Numéro Spécial Calcul Intensif des Comptes Rendus de Mécanique de l'académie des sciences]]<br />
|}<br />
<br />
== '''T7.2 Blade''' ([[User:Maheu|Nicolas Maheu]])==<br />
Large-Eddy Simulation of heat exchanges on a turbine blade.<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|center|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|center|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}<br />
<br />
== '''KIAI burner''' ([[User:Moureauv|Vincent Moureau]])==<br />
Large-Eddy Simulations of a swirl burner designed and operated at CORIA (J.P. Frenillot, G. Cabot, B. Renou, M. Boukhalfa).<br />
{| class="wikitable"<br />
|+ KIAI burner with YALES2<br />
|-<br />
| [[File:KIAI_382M_U.png|center|thumb|Velocity field for the cold flow - 382M tetrahedrons]]<br />
| [[File:KIAI_382M_Q.png|center|thumb|Q-criterion for the cold flow - 382M tetrahedrons]]<br />
|}<br />
<br />
== '''Two-phase computations''' ([[User:Moureauv|Vincent Moureau]] and O. Desjardins) ==<br />
<br />
{| class="wikitable"<br />
|+ Primary atomization computations with YALES2<br />
|-<br />
|<br />
{| style="margin: 10px;"<br />
|{{#widget:YouTube|id=SPSdnhMfdKg|width=400|height=300}}<br />
|}<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=File:LMS_up_pressure.jpg&diff=548File:LMS up pressure.jpg2011-03-28T10:14:18Z<p>Taieb: </p>
<hr />
<div></div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=547YALES2 Gallery2011-03-28T10:14:04Z<p>Taieb: /* Interaction between two Le Mans Series prototypes (David Taieb,Guillaume Ribert & Vincent Moureau) */</p>
<hr />
<div>== '''Formula One''' ([[User:Taieb|David Taieb]], [[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Computation of a Formula 1 meeting with the 2010 regulations. <br />
<br />
The design is based on the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
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.<br />
<br />
The body of the car is discretized with 6.5mm element leading to 36 M cells in the computational domain.<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|center|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|center|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== '''Interaction between two Le Mans Series prototypes''' ([[User:Taieb|David Taieb]],[[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
{| class="wikitable"<br />
|+ Interaction between two Le Mans Series prototypes with YALES2<br />
|-<br />
| [[File:LMS_U_stream_025.jpg|center|Instantaneous streamlines colored by velocity RMS.|250px]]<br />
| [[File:LMS_up_pressure.jpg|centerContour of pressure on the upper bodywork.]]<br />
| [[File:LMS_wake_DF.jpg|center|Longitudinal slice of instantaneous velocity and downforce on bodies.]]<br />
|}<br />
<br />
== '''PRECCINSTA Burner''' ([[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Direct Numerical Simulation of an aeronautical burner [http://dx.doi.org/10.1016/j.combustflame.2010.12.004]. The mesh features 2.6 billion tetrahedrons and a resolution of 100 microns.<br />
{| class="wikitable"<br />
|+ PRECCINSTA burner with YALES2<br />
|-<br />
| [[File:PRECCINSTA_2634M_q_crit_persp.png|center|thumb|Iso-surface of the Q criterion for the isothermal case]]<br />
| [[File:PRECCINSTA_2634M_T_pub.png|center|thumb|Temperature field for the fully premixed reacting case]]<br />
| [[File:PRECCINSTA_2634M_Y_OH.png|center|thumb|OH radical field for the fully premixed reacting case]]<br />
|-<br />
| colspan="2" |<br />
{| style="margin: 10px;"<br />
| {{#widget:YouTube|id=B8o9Sfdqhhg|width=400|height=300}}<br />
|}<br />
| [[File:Couverture CRAS calcul intensif.png|center|thumb|Couverture du Numéro Spécial Calcul Intensif des Comptes Rendus de Mécanique de l'académie des sciences]]<br />
|}<br />
<br />
== '''T7.2 Blade''' ([[User:Maheu|Nicolas Maheu]])==<br />
Large-Eddy Simulation of heat exchanges on a turbine blade.<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|center|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|center|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}<br />
<br />
== '''KIAI burner''' ([[User:Moureauv|Vincent Moureau]])==<br />
Large-Eddy Simulations of a swirl burner designed and operated at CORIA (J.P. Frenillot, G. Cabot, B. Renou, M. Boukhalfa).<br />
{| class="wikitable"<br />
|+ KIAI burner with YALES2<br />
|-<br />
| [[File:KIAI_382M_U.png|center|thumb|Velocity field for the cold flow - 382M tetrahedrons]]<br />
| [[File:KIAI_382M_Q.png|center|thumb|Q-criterion for the cold flow - 382M tetrahedrons]]<br />
|}<br />
<br />
== '''Two-phase computations''' ([[User:Moureauv|Vincent Moureau]] and O. Desjardins) ==<br />
<br />
{| class="wikitable"<br />
|+ Primary atomization computations with YALES2<br />
|-<br />
|<br />
{| style="margin: 10px;"<br />
|{{#widget:YouTube|id=SPSdnhMfdKg|width=400|height=300}}<br />
|}<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=File:LMS_U_stream_025.jpg&diff=546File:LMS U stream 025.jpg2011-03-28T10:13:44Z<p>Taieb: </p>
<hr />
<div></div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=545YALES2 Gallery2011-03-28T10:13:25Z<p>Taieb: /* Interaction between two Le Mans Series prototypes (David Taieb,Guillaume Ribert & Vincent Moureau) */</p>
<hr />
<div>== '''Formula One''' ([[User:Taieb|David Taieb]], [[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Computation of a Formula 1 meeting with the 2010 regulations. <br />
<br />
The design is based on the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
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.<br />
<br />
The body of the car is discretized with 6.5mm element leading to 36 M cells in the computational domain.<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|center|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|center|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== '''Interaction between two Le Mans Series prototypes''' ([[User:Taieb|David Taieb]],[[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
{| class="wikitable"<br />
|+ Interaction between two Le Mans Series prototypes with YALES2<br />
|-<br />
| [[File:LMS_U_stream_025.jpg|center|Instantaneous streamlines colored by velocity RMS.]]<br />
| [[File:LMS_up_pressure.jpg|centerContour of pressure on the upper bodywork.]]<br />
| [[File:LMS_wake_DF.jpg|center|Longitudinal slice of instantaneous velocity and downforce on bodies.]]<br />
|}<br />
<br />
== '''PRECCINSTA Burner''' ([[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Direct Numerical Simulation of an aeronautical burner [http://dx.doi.org/10.1016/j.combustflame.2010.12.004]. The mesh features 2.6 billion tetrahedrons and a resolution of 100 microns.<br />
{| class="wikitable"<br />
|+ PRECCINSTA burner with YALES2<br />
|-<br />
| [[File:PRECCINSTA_2634M_q_crit_persp.png|center|thumb|Iso-surface of the Q criterion for the isothermal case]]<br />
| [[File:PRECCINSTA_2634M_T_pub.png|center|thumb|Temperature field for the fully premixed reacting case]]<br />
| [[File:PRECCINSTA_2634M_Y_OH.png|center|thumb|OH radical field for the fully premixed reacting case]]<br />
|-<br />
| colspan="2" |<br />
{| style="margin: 10px;"<br />
| {{#widget:YouTube|id=B8o9Sfdqhhg|width=400|height=300}}<br />
|}<br />
| [[File:Couverture CRAS calcul intensif.png|center|thumb|Couverture du Numéro Spécial Calcul Intensif des Comptes Rendus de Mécanique de l'académie des sciences]]<br />
|}<br />
<br />
== '''T7.2 Blade''' ([[User:Maheu|Nicolas Maheu]])==<br />
Large-Eddy Simulation of heat exchanges on a turbine blade.<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|center|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|center|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}<br />
<br />
== '''KIAI burner''' ([[User:Moureauv|Vincent Moureau]])==<br />
Large-Eddy Simulations of a swirl burner designed and operated at CORIA (J.P. Frenillot, G. Cabot, B. Renou, M. Boukhalfa).<br />
{| class="wikitable"<br />
|+ KIAI burner with YALES2<br />
|-<br />
| [[File:KIAI_382M_U.png|center|thumb|Velocity field for the cold flow - 382M tetrahedrons]]<br />
| [[File:KIAI_382M_Q.png|center|thumb|Q-criterion for the cold flow - 382M tetrahedrons]]<br />
|}<br />
<br />
== '''Two-phase computations''' ([[User:Moureauv|Vincent Moureau]] and O. Desjardins) ==<br />
<br />
{| class="wikitable"<br />
|+ Primary atomization computations with YALES2<br />
|-<br />
|<br />
{| style="margin: 10px;"<br />
|{{#widget:YouTube|id=SPSdnhMfdKg|width=400|height=300}}<br />
|}<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=544YALES2 Gallery2011-03-28T10:13:05Z<p>Taieb: /* Interaction between two Le Mans Series prototypes (David Taieb,Guillaume Ribert & Vincent Moureau) */</p>
<hr />
<div>== '''Formula One''' ([[User:Taieb|David Taieb]], [[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Computation of a Formula 1 meeting with the 2010 regulations. <br />
<br />
The design is based on the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
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.<br />
<br />
The body of the car is discretized with 6.5mm element leading to 36 M cells in the computational domain.<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|center|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|center|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== '''Interaction between two Le Mans Series prototypes''' ([[User:Taieb|David Taieb]],[[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
{| class="wikitable"<br />
|+ Interaction between two Le Mans Series prototypes with YALES2<br />
|-<br />
| [[File:LMS_U_stream_025.pdf|center|Instantaneous streamlines colored by velocity RMS.]]<br />
| [[File:LMS_up_pressure.pdf|centerContour of pressure on the upper bodywork.]]<br />
| [[File:LMS_wake_DF.pdf|center|Longitudinal slice of instantaneous velocity and downforce on bodies.]]<br />
|}<br />
<br />
== '''PRECCINSTA Burner''' ([[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Direct Numerical Simulation of an aeronautical burner [http://dx.doi.org/10.1016/j.combustflame.2010.12.004]. The mesh features 2.6 billion tetrahedrons and a resolution of 100 microns.<br />
{| class="wikitable"<br />
|+ PRECCINSTA burner with YALES2<br />
|-<br />
| [[File:PRECCINSTA_2634M_q_crit_persp.png|center|thumb|Iso-surface of the Q criterion for the isothermal case]]<br />
| [[File:PRECCINSTA_2634M_T_pub.png|center|thumb|Temperature field for the fully premixed reacting case]]<br />
| [[File:PRECCINSTA_2634M_Y_OH.png|center|thumb|OH radical field for the fully premixed reacting case]]<br />
|-<br />
| colspan="2" |<br />
{| style="margin: 10px;"<br />
| {{#widget:YouTube|id=B8o9Sfdqhhg|width=400|height=300}}<br />
|}<br />
| [[File:Couverture CRAS calcul intensif.png|center|thumb|Couverture du Numéro Spécial Calcul Intensif des Comptes Rendus de Mécanique de l'académie des sciences]]<br />
|}<br />
<br />
== '''T7.2 Blade''' ([[User:Maheu|Nicolas Maheu]])==<br />
Large-Eddy Simulation of heat exchanges on a turbine blade.<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|center|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|center|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}<br />
<br />
== '''KIAI burner''' ([[User:Moureauv|Vincent Moureau]])==<br />
Large-Eddy Simulations of a swirl burner designed and operated at CORIA (J.P. Frenillot, G. Cabot, B. Renou, M. Boukhalfa).<br />
{| class="wikitable"<br />
|+ KIAI burner with YALES2<br />
|-<br />
| [[File:KIAI_382M_U.png|center|thumb|Velocity field for the cold flow - 382M tetrahedrons]]<br />
| [[File:KIAI_382M_Q.png|center|thumb|Q-criterion for the cold flow - 382M tetrahedrons]]<br />
|}<br />
<br />
== '''Two-phase computations''' ([[User:Moureauv|Vincent Moureau]] and O. Desjardins) ==<br />
<br />
{| class="wikitable"<br />
|+ Primary atomization computations with YALES2<br />
|-<br />
|<br />
{| style="margin: 10px;"<br />
|{{#widget:YouTube|id=SPSdnhMfdKg|width=400|height=300}}<br />
|}<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=File:LMS_wake_DF.pdf&diff=543File:LMS wake DF.pdf2011-03-28T10:12:06Z<p>Taieb: </p>
<hr />
<div></div>Taiebhttps://www.coria-cfd.fr/index.php?title=File:LMS_up_pressure.pdf&diff=542File:LMS up pressure.pdf2011-03-28T10:11:49Z<p>Taieb: </p>
<hr />
<div></div>Taiebhttps://www.coria-cfd.fr/index.php?title=File:LMS_U_stream_025.pdf&diff=541File:LMS U stream 025.pdf2011-03-28T10:11:35Z<p>Taieb: </p>
<hr />
<div></div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=540YALES2 Gallery2011-03-28T10:11:11Z<p>Taieb: </p>
<hr />
<div>== '''Formula One''' ([[User:Taieb|David Taieb]], [[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Computation of a Formula 1 meeting with the 2010 regulations. <br />
<br />
The design is based on the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
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.<br />
<br />
The body of the car is discretized with 6.5mm element leading to 36 M cells in the computational domain.<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|center|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|center|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== '''Interaction between two Le Mans Series prototypes''' ([[User:Taieb|David Taieb]],[[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
{| class="wikitable"<br />
|+ Interaction between two Le Mans Series prototypes with YALES2<br />
|-<br />
| [[File:LMS_U_stream_025.pdf|center|thumb|Instantaneous streamlines colored by velocity RMS.]]<br />
| [[File:LMS_up_pressure.pdf|center|thumb|Contour of pressure on the upper bodywork.]]<br />
| [[File:LMS_wake_DF.pdf|center|thumb|Longitudinal slice of instantaneous velocity and downforce on bodies.]]<br />
|}<br />
<br />
<br />
== '''PRECCINSTA Burner''' ([[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Direct Numerical Simulation of an aeronautical burner [http://dx.doi.org/10.1016/j.combustflame.2010.12.004]. The mesh features 2.6 billion tetrahedrons and a resolution of 100 microns.<br />
{| class="wikitable"<br />
|+ PRECCINSTA burner with YALES2<br />
|-<br />
| [[File:PRECCINSTA_2634M_q_crit_persp.png|center|thumb|Iso-surface of the Q criterion for the isothermal case]]<br />
| [[File:PRECCINSTA_2634M_T_pub.png|center|thumb|Temperature field for the fully premixed reacting case]]<br />
| [[File:PRECCINSTA_2634M_Y_OH.png|center|thumb|OH radical field for the fully premixed reacting case]]<br />
|-<br />
| colspan="2" |<br />
{| style="margin: 10px;"<br />
| {{#widget:YouTube|id=B8o9Sfdqhhg|width=400|height=300}}<br />
|}<br />
| [[File:Couverture CRAS calcul intensif.png|center|thumb|Couverture du Numéro Spécial Calcul Intensif des Comptes Rendus de Mécanique de l'académie des sciences]]<br />
|}<br />
<br />
== '''T7.2 Blade''' ([[User:Maheu|Nicolas Maheu]])==<br />
Large-Eddy Simulation of heat exchanges on a turbine blade.<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|center|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|center|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}<br />
<br />
== '''KIAI burner''' ([[User:Moureauv|Vincent Moureau]])==<br />
Large-Eddy Simulations of a swirl burner designed and operated at CORIA (J.P. Frenillot, G. Cabot, B. Renou, M. Boukhalfa).<br />
{| class="wikitable"<br />
|+ KIAI burner with YALES2<br />
|-<br />
| [[File:KIAI_382M_U.png|center|thumb|Velocity field for the cold flow - 382M tetrahedrons]]<br />
| [[File:KIAI_382M_Q.png|center|thumb|Q-criterion for the cold flow - 382M tetrahedrons]]<br />
|}<br />
<br />
== '''Two-phase computations''' ([[User:Moureauv|Vincent Moureau]] and O. Desjardins) ==<br />
<br />
{| class="wikitable"<br />
|+ Primary atomization computations with YALES2<br />
|-<br />
|<br />
{| style="margin: 10px;"<br />
|{{#widget:YouTube|id=SPSdnhMfdKg|width=400|height=300}}<br />
|}<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=267User:Taieb2011-02-04T14:45:46Z<p>Taieb: /* Publications */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* 2010: "Numerical simulation of shock focusing over concave surfaces", D. Taieb, G. Ribert, A. Hadjadj, AIAA Journal, Vol.48, 2010<br />
* 2010: "DNS and LES of wall-bounded compressible turbulent flows in narrow cooling channels", D. Taieb, G. Ribert, A. Hadjadj, AIAA Paper</div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=266YALES2 Gallery2011-02-04T14:06:48Z<p>Taieb: </p>
<hr />
<div>== '''Formula One''' ([[User:Taieb|David Taieb]], [[User:Ribert|Guillaume Ribert]] & [[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Computation of a Formula 1 meeting with the 2010 regulations. <br />
<br />
The design is based on the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
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.<br />
<br />
The body of the car is discretized with 6.5mm element leading to 36 M cells in the computational domain.<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|center|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|center|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== '''PRECCINSTA Burner''' ([[User:Moureauv|Vincent Moureau]]) ==<br />
<br />
Mesh of 2.6 billion tetrahedrons and a resolution of 100 microns.<br />
{| class="wikitable"<br />
|+ PRECCINSTA burner with YALES2<br />
|-<br />
| [[File:PRECCINSTA_2634M_q_crit_persp.png|center|thumb|Iso-surface of the Q criterion for the isothermal case]]<br />
| [[File:PRECCINSTA_2634M_T_pub.png|center|thumb|Temperature field for the fully premixed reacting case]]<br />
| [[File:PRECCINSTA_2634M_Y_OH.png|center|thumb|OH radical field for the fully premixed reacting case]]<br />
| [[File:Couverture CRAS calcul intensif.png|center|thumb|Couverture du Numéro Spécial Calcul Intensif des Comptes Rendus de Mécanique de l'académie des sciences]]<br />
|}<br />
<br />
== '''T7.2 Blade''' ([[User:Maheu|Nicolas Maheu]])==<br />
<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|center|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|center|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=228YALES2 Gallery2011-02-04T06:15:02Z<p>Taieb: /* Formula One */</p>
<hr />
<div>== Formula One ==<br />
<br />
Computation of a Formula 1 meeting with the 2010 regulations. <br />
<br />
The design of CAD is based on the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
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 element front wing.<br />
<br />
The body of the car is discretized with 6.5mm element leading to 36 M cells in the computational domain.<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|left|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|left|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 <br />
36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== Preccinsta Burner ==<br />
<br />
to be done....<br />
<br />
== T7.2 Blade [[http://www.coria-cfd.fr/index.php/User:Maheu Nicolas Maheu]]==<br />
<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|left|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|left|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=213YALES2 Gallery2011-02-03T19:32:26Z<p>Taieb: /* Formula One */</p>
<hr />
<div>== Formula One ==<br />
<br />
Computations of an Formula 1 meeting with the 2010 regulations. The design of CAD was derived from the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
The car had 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 element front wing.<br />
<br />
The body of the car is discretized with 6.5mm element leadinf to 36 M cells in the computational domain.<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|left|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|left|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 <br />
36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== Preccinsta Burner ==<br />
<br />
to be done....<br />
<br />
== T7.2 Blade [[http://www.coria-cfd.fr/index.php/User:Maheu Nicolas Maheu]]==<br />
<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|left|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|left|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=YALES2_Gallery&diff=209YALES2 Gallery2011-02-03T18:36:00Z<p>Taieb: /* Formula One */</p>
<hr />
<div>== Formula One ==<br />
<br />
Computations of an Formula 1 meeting with the 2010 regulations. The design of CAD was derived from the 2008 car which was simulated with the Fluent software with less than one million cells.<br />
The car had 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 element front wing.<br />
<br />
<br />
{| class="wikitable"<br />
|+ Formula One with YALES2<br />
|-<br />
| [[File:F1_36M_streamtraces_1.png|left|thumb|Formula 1 with 36 Million cells - Streamlines]]<br />
| [[File:F1_36M_Q_3.png|left|thumb|Formula 1 with 36 Million cells - Iso-Q criterion]]<br />
| [[media:F1_36M_Q_2.avi|Video of Formula 1 <br />
36 Million cells - Iso-Q criterion]]<br />
|}<br />
<br />
== Preccinsta Burner ==<br />
<br />
to be done....<br />
<br />
== T7.2 Blade [[http://www.coria-cfd.fr/index.php/User:Maheu Nicolas Maheu]]==<br />
<br />
{| class="wikitable"<br />
|+ T7.2 blade with YALES2<br />
|-<br />
| [[File:240M_isoQ175M_colorP_hd.png|left|thumb|T7.2 Blade - Iso-Q criterion - 240M tetrahedrons]]<br />
| [[File:240M_isoT325K_colorUmean_hd_legend.png|left|thumb|T7.2 Blade - Iso-T 325K - 240M tetrahedrons]]<br />
|}</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=208User:Taieb2011-02-03T18:19:49Z<p>Taieb: </p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels for SNECMA (Rocket engine manufacturer) and CNES (French spatial agency).<br />
* 2006-2007: Master degree at CORIA in Energetic, Fluid and Environment.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* 2010: "Numerical simulation of shock focusing over concave surfaces", D. Taieb, G. Ribert, A. Hadjadj, AIAA Journal, Vol.48, 2010<br />
* 2010: "DNS and LES of wall-bounded compressible turbulent flowsin narrow cooling channels", D. Taieb, G. Ribert, A. Hadjadj, AIAA Paper</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=207User:Taieb2011-02-03T18:17:44Z<p>Taieb: </p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
* 2010-present: Research engineer devoted to the industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels.<br />
* 2006-2007: Master degree at CORIA.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* 2010: "Numerical simulation of shock focusing over concave surfaces", D. Taieb, G. Ribert, A. Hadjadj, AIAA Journal, Vol.48, 2010<br />
* 2010: "DNS and LES of wall-bounded compressible turbulent flowsin narrow cooling channels", D. Taieb, G. Ribert, A. Hadjadj, AIAA Paper</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=205User:Taieb2011-02-03T18:15:36Z<p>Taieb: /* Research Activities */</p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Industrialization of YALES2 solver for SAFRAN (multi-perforation cooling, injection systems).<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels.<br />
* 2006-2007: Master degree at CORIA.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* 2010: "Numerical simulation of shock focusing over concave surfaces", D. Taieb, G. Ribert, A. Hadjadj, AIAA Journal, Vol.48, 2010<br />
* 2010: "DNS and LES of wall-bounded compressible turbulent flowsin narrow cooling channels", D. Taieb, G. Ribert, A. Hadjadj, AIAA Paper</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=204User:Taieb2011-02-03T18:14:23Z<p>Taieb: </p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Industrialization of YALES2 solver for SAFRAN.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels.<br />
* 2006-2007: Master degree at CORIA.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* 2010: "Numerical simulation of shock focusing over concave surfaces", D. Taieb, G. Ribert, A. Hadjadj, AIAA Journal, Vol.48, 2010<br />
* 2010: "DNS and LES of wall-bounded compressible turbulent flowsin narrow cooling channels", D. Taieb, G. Ribert, A. Hadjadj, AIAA Paper</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=203User:Taieb2011-02-03T18:11:31Z<p>Taieb: </p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: taieb@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels.<br />
* 2006-2007: Master degree at CORIA.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* 2010: "Numerical simulation of shock focusing over concave surfaces", D. Taieb, G. Ribert, A. Hadjadj, AIAA Journal, Vol.48, 2010<br />
* 2010: "DNS and LES of wall-bounded compressible turbulent flowsin narrow cooling channels", D. Taieb, G. Ribert, A. Hadjadj, AIAA Paper</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User:Taieb&diff=202User:Taieb2011-02-03T18:11:06Z<p>Taieb: </p>
<hr />
<div>== Personal Information ==<br />
<br />
David TAIEB<br /><br />
CNRS - Research engineer @ CORIA<br />
<br />
Office: INSA/Ma.B.RC.05<br /><br />
email: vincent.moureau@coria.fr<br /><br />
Tel: +33 (0)2 32 95 97 89<br />
<br />
== Lab Address ==<br />
CORIA<br /><br />
Avenue de l'Université - BP 12<br /><br />
76801 Saint Etienne du Rouvray<br /><br />
Tel: +33 (0)2 32 95 36 00<br /><br />
Fax: +33 (0)2 32 91 04 85<br />
<br />
== Research Activities ==<br />
<br />
* Development of the YALES2 solver, a high-order unstructured code for massively parallel computations.<br />
* Aerodynamic of cars and planes.<br />
<br />
== Teaching Activities ==<br />
<br />
* Fluid mechanics for engineer student at the mechanical department of INSA de Rouen.<br />
<br />
== Background ==<br />
<br />
* 2007-2010: Ph.D. on numerical simulation of rocket-engine cooling channels.<br />
* 2006-2007: Master degree at CORIA.<br />
* 2004-2007: Engineer degree at INSA de Rouen (Mechanical department, fluid mechanics specialization).<br />
<br />
== Publications ==<br />
* 2010: "Numerical simulation of shock focusing over concave surfaces", D. Taieb, G. Ribert, A. Hadjadj, AIAA Journal, Vol.48, 2010<br />
* 2010: "DNS and LES of wall-bounded compressible turbulent flowsin narrow cooling channels", D. Taieb, G. Ribert, A. Hadjadj, AIAA Paper</div>Taiebhttps://www.coria-cfd.fr/index.php?title=User&diff=201User2011-02-03T17:57:22Z<p>Taieb: /* From CORIA */</p>
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* Marlène SanJosé</div>Taieb