AVBP is a parallel CFD code that solves the three-dimensional compressible Navier-Stokes on unstructured and hybrid grids. Initially conceived for steady state flows of aerodynamics, today the exclusive area of application is the modelling of unsteady reacting flows in combustor configurations. These activities are partially related to the rising importance paid to the understanding of the flow structure and mechanisms leading to turbulence. The prediction of these unsteady turbulent flows is based on the Large Eddy Simulation (LES) approach that has emerged as a prospective technique for problems associated with time dependent phenomena and coherent eddy structures. An Arrhenius law reduced chemistry model allows investigating combustion for complex configurations.

References in zbMATH (referenced in 20 articles )

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  1. Daviller, G.; Oztarlik, G.; Poinsot, T.: A generalized non-reflecting inlet boundary condition for steady and forced compressible flows with injection of vortical and acoustic waves (2019)
  2. Odier, Nicolas; Sanjosé, Marlène; Gicquel, Laurent; Poinsot, Thierry; Moreau, Stéphane; Duchaine, Florent: A characteristic inlet boundary condition for compressible, turbulent, multispecies turbomachinery flows (2019)
  3. de Laborderie, J.; Duchaine, F.; Gicquel, L.; Vermorel, O.; Wang, G.; Moreau, S.: Numerical analysis of a high-order unstructured overset grid method for compressible LES of turbomachinery (2018)
  4. Zhu, M.; Pérez Arroyo, C.; Fosso Pouangué, A.; Sanjosé, M.; Moreau, S.: Isothermal and heated subsonic jet noise using large eddy simulations on unstructured grids (2018)
  5. Duchaine, F.; Dombard, J.; Gicquel, L. Y. M.; Koupper, C.: On the importance of inlet boundary conditions for aerothermal predictions of turbine stages with large eddy simulation (2017)
  6. Thiesset, F.; Halter, Fabien; Bariki, C.; Lapeyre, C.; Chauveau, C.; Gökalp, I.; Selle, L.; Poinsot, T.: Isolating strain and curvature effects in premixed flame/vortex interactions (2017)
  7. Xavier, P.; Ghani, A.; Mejia, D.; Miguel-Brebion, M.; Bauerheim, M.; Selle, L.; Poinsot, T.: Experimental and numerical investigation of flames stabilised behind rotating cylinders: interaction of flames with a moving wall (2017)
  8. Bonhomme, A.; Duchaine, F.; Wang, G.; Selle, L.; Poinsot, T.: A parallel multidomain strategy to compute turbulent flows in fan-stirred closed vessels (2014)
  9. Wang, Gaofeng; Duchaine, Florent; Papadogiannis, Dimitrios; Duran, Ignacio; Moreau, Stéphane; Gicquel, Laurent Y. M.: An overset grid method for large eddy simulation of turbomachinery stages (2014)
  10. Gicquel, Laurent Yves Marcel; Roux, Anthony: LES to ease understanding of complex unsteady combustion features of ramjet burners (2011)
  11. Poinsot, T.; Garcia, M.; Senoner, J. M.; Gicquel, L.; Staffelbach, G.; Vermorel, O.: Numerical and physical instabilities in massively parallel LES of reacting flows (2011)
  12. Puigt, G.; Auffray, V.; Müller, J.-D.: Discretisation of diffusive fluxes on hybrid grids (2010)
  13. Tay Wo Chong, L.; Kaess, R.; Komarek, T.; Föller, S.; Polifke, W.: Identification of flame transfer functions using LES of turbulent reacting flows (2010)
  14. Desoutter, Gaëtan; Habchi, Chawki; Cuenot, Bénédicte; Poinsot, Thierry: DNS and modeling of the turbulent boundary layer over an evaporating liquid film (2009)
  15. Mendez, S.; Eldredge, J. D.: Acoustic modeling of perforated plates with bias flow for large eddy simulations (2009)
  16. Senoner, J. M.; Sanjosé, M.; Lederlin, T.; Jaegle, F.; García, M.; Riber, E.; Cuenot, B.; Gicquel, L.; Pitsch, H.; Poinsot, T.: Eulerian and Lagrangian Large-Eddy simulations of an evaporating two-phase flow (2009)
  17. Kaufmann, A.; Moreau, M.; Simonin, O.; Helie, J.: Comparison between Lagrangian and mesoscopic Eulerian modelling approaches for inertial particles suspended in decaying isotropic turbulence (2008)
  18. Ducruix, S.; Rey, C.; Candel, S.: A method for the transverse modulation of reactive flows with application to combustion instability (2005)
  19. Nicoud, F.; Schönfeld, T.: Integral boundary conditions for unsteady biomedical CFD applications (2002)
  20. Colin, Olivier; Rudgyard, Michael: Development of high-order Taylor-Galerkin schemes for LES (2000)