Pierre Benard

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(Submitted to peer-reviewed international journals)
(International conferences)
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# {{smallcaps| Barnaud, F., Benard, P., Lartigue, G. & Moureau, V.}} (2018) Wall-Modeled Large Eddy Simulation of flow around Oscillating Wind Turbines dedicated Airfoils. <i>AIAA SciTech Forum</i>, Kissimmee, USA.
 
# {{smallcaps| Barnaud, F., Benard, P., Lartigue, G. & Moureau, V.}} (2018) Wall-Modeled Large Eddy Simulation of flow around Oscillating Wind Turbines dedicated Airfoils. <i>AIAA SciTech Forum</i>, Kissimmee, USA.
 +
# {{smallcaps| Bricteux, L., Benard, P., Zeoli, S., Lartigue, G., Moureau, V. & Viré, A.}} (2017) Wall modeled LES of wind turbine wakes with geometrical effects. <i>DFD Meeting of The American Physical Society</i>, Denver, USA.
 
# {{smallcaps| Benard, P., Bricteux, L., Moureau, V., Lartigue, G., Beaudet, L., Deglaire, P. & Viré, A.}} (2017) Highly resolved Large-Eddy Simulation of wind turbine wakes. <i>Wind Energy Science Conference</i>, Copenhagen, Denmark.
 
# {{smallcaps| Benard, P., Bricteux, L., Moureau, V., Lartigue, G., Beaudet, L., Deglaire, P. & Viré, A.}} (2017) Highly resolved Large-Eddy Simulation of wind turbine wakes. <i>Wind Energy Science Conference</i>, Copenhagen, Denmark.
 
# {{smallcaps| Pushkarev, A., Benard, P., Lartigue, G., Moureau, V., Balarac, G. }} (2017) Numerical approach for simulation of moving bodies by using the dynamic mesh adaptation method within ALE technique. <i>ECCOMAS MSF 2017</i>, Ljubljana, Slovenia.
 
# {{smallcaps| Pushkarev, A., Benard, P., Lartigue, G., Moureau, V., Balarac, G. }} (2017) Numerical approach for simulation of moving bodies by using the dynamic mesh adaptation method within ALE technique. <i>ECCOMAS MSF 2017</i>, Ljubljana, Slovenia.

Revision as of 15:04, 10 November 2017

Personal Information

Pierre Bénard
Research engineer @ CORIA

Office: INSA/Ma.B.RC.11
email: pierre.benard@coria.fr
Tel: +33 (0)2 32 95 98 15


Lab Address

CORIA
Avenue de l'Université - BP 12
76801 Saint Etienne du Rouvray
Tel: +33 (0)2 32 95 36 00
Fax: +33 (0)2 32 91 04 85


Research activities

  • Turbulent premixed combustion modeling
  • Wind turbine wakes modeling
  • Large-Eddy Simulation in complex geometries: gas turbines, airfoils, wind turbines
  • Numerical methods for massively parallel super-computers
  • Development of the YALES2 solver, a high-order unstructured code for massively parallel computations of two-phase reactive flows


Teaching Activities

  • 2016: Teaching assistant, département Génie Thermique et Energie, IUT Rouen (40h).
  • 2014-2016: Formation to YALES2 code usage (80H)
  • 2015: Combustion modeling expert mission, GDTech France, Pau (4 weeks)
  • 2012 - 2013: Teaching assistant, STPI department, INSA Rouen, (Mecanics) (64h)


Background

  • 2015-today : Research Engineer, CORIA, France
  • 2012-2015 : PhD thesis, CORIA, France
  • 2011-2008 : M.S. Energétique et Propulsion, INSA de Rouen, France
  • 2006-2008 : DUT Mesures Physiques, IUT de Caen, Université de Caen, France


Publications

Peer-reviewed international journals

  1. Benard, P., Moureau, C., Lartigue, G. & D'Angelo, Y. (2016) Large-Eddy Simulation of a hydrogen enriched methane/air meso-scale combustor. International Journal of Hydrogen Energy, [1].
  2. Benard, P., Balarac, G., Moureau, V., Dobrzynski, C., Lartigue, G. & D'Angelo, Y. (2015) Mesh adaptation for large-eddy simulations in complex geometries. International Journal for Numerical Methods in Fluids, pp. n/a-n/a, fld.4204, [2].

Submitted to peer-reviewed international journals

  1. Benard, P., Viré, A., Moureau, V., Lartigue, G. & Bricteux, L. (2017) Large-Eddy Simulation of wind turbines wakes including geometrical effects. Computers & Fluids.
  2. Pushkarev, A., Benard, P., Lartigue, G., Moureau, V., Balarac, G. (2017) A numerical strategy for the simulation of moving bodies based on the ALE technique and dynamic re-meshing. Computers & Fluids.
  3. Boulet, L., Benard, P., Lartigue, G., Moureau, V., Didorally, S., Chauvet, N., Duchaine, F. (2017) Modeling of conjugate heat transfer in a kerosene/air spray flame used for aeronautical fire resistance tests. Flow, Turbulence and Combustion.

International conferences

  1. Barnaud, F., Benard, P., Lartigue, G. & Moureau, V. (2018) Wall-Modeled Large Eddy Simulation of flow around Oscillating Wind Turbines dedicated Airfoils. AIAA SciTech Forum, Kissimmee, USA.
  2. Bricteux, L., Benard, P., Zeoli, S., Lartigue, G., Moureau, V. & Viré, A. (2017) Wall modeled LES of wind turbine wakes with geometrical effects. DFD Meeting of The American Physical Society, Denver, USA.
  3. Benard, P., Bricteux, L., Moureau, V., Lartigue, G., Beaudet, L., Deglaire, P. & Viré, A. (2017) Highly resolved Large-Eddy Simulation of wind turbine wakes. Wind Energy Science Conference, Copenhagen, Denmark.
  4. Pushkarev, A., Benard, P., Lartigue, G., Moureau, V., Balarac, G. (2017) Numerical approach for simulation of moving bodies by using the dynamic mesh adaptation method within ALE technique. ECCOMAS MSF 2017, Ljubljana, Slovenia.
  5. Barnaud, F., Benard, P., Lartigue, G., Moureau, V., Deglaire, P. (2017) Flow around thick airfoils at very high Reynolds number. Stall and dynamic stall applications. ERCOFTAC DLES11, Pisa, Italy.
  6. Boulet, L., Benard, P., Lartigue, G., Moureau, V. & Didorally, S. (2017) Modeling of conjugate heat transfer in a kerosene/air spray flame used for aeronautical fire resistance tests. ERCOFTAC DLES11, Pisa, Italy.
  7. Boulet, L., Benard, P., Lartigue, G., Moureau, V. & Didorally, S. (2017) Modeling of conjugate heat transfer in a kerosene/air spray flame used for aeronautical fire resistance tests. ERCOFTAC DLES11, Pisa, Italy.
  8. Benard, P., Bricteux, L., Moureau, V., Lartigue, G., Beaudet, L., Deglaire, P. & Viré, A. (2017) Highly resolved larde-eddy simulation of wind turbine wakes. Parrallel CFD Conference, Glasgow, Scotland.
  9. Moureau, V., Lartigue, G. & Benard, P. (2016) Large-eddy simulation of turbulent reacting flows using massively parallel computers: a load-balancing challenge. Séminaire à la Maison de la Simulation,. Saclay, France.
  10. Lartigue, G., Moureau, V. & Benard, P. (2016) Toward large-eddy simulation of complex burners with exascale super-computers: A few challenges and solutions. SIAM Conference on Parallel Processing for Scientific Computing (PP16),. Paris, France.
  11. Moureau, V., Lartigue, G. & Benard, P. (2016) Hpc for large-scale unsteady simulations of turbulent reacting multi-phase flows: challenges and perspectives. Plateform for Advanced Scientific Computing (ACM PASC16) conference,. Lausanne, Switzerland.
  12. Balarac, G., Bénard, P., Lartigue, G., Moureau, V. & Dobrzynski, C. (2015) Mesh adaptation for large-eddy simulations in complex geometries. Direct and Large-Eddy Simulation 10,. Limassol, Cyprus.
  13. Guedot, L., Benard, P., Farcy, B., Lartigue, G. & Moureau, V. (2015) High-performance computing for large-eddy simulation of aeronautical burners. Invited lecture at the High-Pressure High-Reynolds workshop,. KAUST, Saudi Arabia.
  14. Benard, P., Moureau, V., Lartigue, G. & D'Angelo, Y. (2014) Les modelling of mesocombustion chambers with arrhenius complex chemistry. 19th Australasian Fluid Mechanics Conference,. Melbourne, Australia.
  15. Benard, P., Moureau, V., Lartigue, G. & D’Angelo, Y. (2014) Large-eddy simulation of a H2 enriched CH4/air meso-scale combustor. 35th International Symposium on Combustion. San Francisco, USA.
  16. Benard, P., Moureau, V., Lartigue, G. & D’Angelo, Y. (2014) Large-eddy simulation of a mesocombustion chamber with finite rate chemistry. ERCOFTAC ETMM 10. Marbella, Spain.
  17. Benard, P., Moureau, V., D'Angelo, Y., Lartigue, G. & Cuif-sjostrand, M. (2013) Les / dns modelling of mesocombustion chambers with arrhenius complex chemistry. SIAM 14th International Conference on Numerical Combustion. San Antonio, USA.
  18. Benard, P., Moureau, V., Lartigue, G. & D'Angelo, Y. (2013) Large eddy simulation of a meso-scale combustion chamber. European Combustion Meeting. Lund, Sweden.

PhD

Title : Simulation and shape optimization of a centimetric combustor

Supervisors : Yves D'Angelo and Vincent Moureau at CORIA

Industrial collaborations
- Technical consulting for GDTech France : Support for the usage of the LES solver YALES2. 3D reactive simulations of aeronautical combustors