Nombre de documents

20

CV de Aymeric Vié


Communication dans un congrès2 documents

  • Benedetta Franzelli, Aymeric Vié, Benoit Fiorina, Nasser Darabiha. Large Eddy simulation of swirling kerosene/air spray flame using tabulated chemistry. ASME Turbo Expo 2013: Turbine Technical Conference and Exposition, 2013, San Antonio, United States. <10.1115/GT2013-94451>. <hal-01272959>
  • Aymeric Vié, Marlène Sanjose, Stéphane Jay, Christian Angelberger, Benedicte Cuenot, et al.. Evaluation of a Multifluid Mesoscopic Eulerian Formalism on the Large Eddy Simulation of an aeronautical-type configuration. International Conference on Multiphase Flows, May 2010, Tampa - Florida USA, United States. pp.1-11, 2010. <hal-00498216>

Thèse1 document

  • Aymeric Vié. Simulation aux grandes échelles d'écoulements diphasiques turbulents à phase liquide dispersée. Sciences de la Terre. Institut National Polytechnique de Toulouse - INPT, 2010. Français. <tel-00620754>

Article dans une revue11 documents

  • B. Franzelli, A. Vié, M. Boileau, B. Fiorina, N. Darabiha. Large Eddy Simulation of Swirled Spray Flame Using Detailed and Tabulated Chemical Descriptions. Flow, Turbulence and Combustion, Springer Verlag (Germany), 2017, 98 (2), pp.633 - 661. <10.1007/s10494-016-9763-0>. <hal-01480274>
  • B. Fiorina, A. Vié, B. Franzelli, N. Darabiha, Marc Massot, et al.. Modeling Challenges in Computing Aeronautical Combustion Chambers. AerospaceLab, 2016, 19 p. <hal-01368420>
  • Benedetta Franzelli, Aymeric Vié, Matthias Ihme. Characterizing spray flame–vortex interaction: A spray spectral diagram for extinction. Combustion and Flame, Elsevier, 2016, 163, <10.1016/j.combustflame.2015.09.006>. <hal-01272955>
  • Christophe Chalons, Marc Massot, Aymeric Vié. On the Eulerian Large Eddy Simulation of disperse phase flows: an asymptotic preserving scheme for small Stokes number flows. Multiscale Modeling and Simulation: A SIAM Interdisciplinary Journal, Society for Industrial and Applied Mathematics, 2015, 13 (1), pp.291-315. <10.1137/140960438>. <hal-00958108>
  • Aymeric Vié, François Doisneau, Marc Massot. On the Anisotropic Gaussian velocity closure for inertial-particle laden flows. Communications in Computational Physics, Global Science Press, 2015, 17 (1), pp.1-46. <10.4208/cicp.021213.140514a>. <hal-00912319v2>
  • Aymeric Vié, Hadi Pouransari, Rémi Zamansky, Ali Mani. Particle-laden flows forced by the disperse phase: Comparison between Lagrangian and Eulerian simulations. International Journal of Multiphase Flow, Elsevier, 2015, 79, pp.144-158. <10.1016/j.ijmultiphaseflow.2015.10.010>. <hal-01327779>
  • Aymeric Vié, Benedetta Franzelli, Yang Gao, Tianfeng Lu, Hai Wang, et al.. Analysis of segregation and bifurcation in turbulent spray flames: A 3D counterflow configuration. Proceedings of the Combustion Institute, Elsevier, 2015, 35 (2), <10.1016/j.proci.2014.06.083>. <hal-01272949>
  • Benedetta Franzelli, Aymeric Vié, Matthias Ihme. On the generalisation of the mixture fraction to a monotonic mixing-describing variable for the flamelet formulation of spray flames. Combustion Theory and Modelling, Taylor & Francis, 2015, 19 (6), <10.1080/13647830.2015.1099740>. <hal-01272954>
  • Aymeric Vié, Stéphane Jay, Bénédicte Cuenot, Marc Massot. Accounting for Polydispersion in the Eulerian Large Eddy Simulation of the Two-Phase Flow in an Aeronautical-type Burner. Flow, Turbulence and Combustion, Springer Verlag (Germany), 2013, 90 (3), pp.545-581. <10.1007/s10494-012-9440-x>. <hal-00650605v2>
  • Aymeric Vié, Frédérique Laurent, Marc Massot. Size-velocity correlations in high order moment methods for polydisperse evaporating sprays: modeling and numerical issues. Journal of Computational Physics, Elsevier, 2013, 237, pp.177-210. <10.1016/j.jcp.2012.11.043>. <hal-00626869v3>
  • Aymeric Vié, Frédérique Laurent, Marc Massot. A high order moment method for the simulation of polydisperse two-phase flows. Comptes Rendus Mécanique, Elsevier Masson, 2013, Combustion, Flow and Spray Dynamics for Aerospace Propulsion, pp.1-10. <10.1016/j.crme.2012.10.004>. <hal-00773327>

Chapitre d'ouvrage6 documents

  • Frédérique Laurent, Aymeric Vié, Christophe Chalons, Rodney Fox, Marc Massot. A hierarchy of Eulerian models for trajectory crossing in particle-laden turbulent flows over a wide range of Stokes numbers. Center for Turbulence Research. Annual Research Briefs 2012, Center for Turbulence Research - Stanford University, pp.193-204, 2013. <hal-00773331>
  • Adam Larat, Marc Massot, Aymeric Vié. A stable, robust and high order accurate numerical method for Eulerian simulation of spray and particle transport on unstructured meshes. Center for Turbulence Research. Annual Research Briefs 2012, Center for Turbulence Research - Stanford University, pp.205-216, 2013. <hal-00773328>
  • François Doisneau, Olivier Thomine, Frédérique Laurent, Aymeric Vié, Joel Dupays, et al.. Eulerian modeling and simulation of small scale trajectory crossing and coalescence for moderate-Stokes-number spray flows. Center for Turbulence Research. Proceedings of the summer program, Center for Turbulence Research, pp.365-374, 2012. <hal-00773325>
  • Aymeric Vié, Enrica Masi, Olivier Simonin, Marc Massot. On the Direct Numerical Simulation of moderate-Stokes-number turbulent particulate flows using Algebraic-Closure-Based and Kinetic-Based Moment Methods. Center for Turbulence Research. Proceedings of the summer program, Center for Turbulence Research, pp.355-364, 2012. <hal-00773322>
  • Aymeric Vié, Christophe Chalons, Rodney Fox, Frédérique Laurent, Marc Massot. A multi-Gaussian quadrature method of moments for simulating high Stokes number turbulent two-phase flows. Annual Research Brief of the Center for Turbulence Research - Stanford University, Center for Turbulence Research - Stanford University, pp.309-320, 2012. <hal-00653105>
  • Damien Kah, Aymeric Vié, Christophe Chalons, Marc Massot. Second-order scheme for quadrature-based velocity high order moment methods for disperse two-phase flows. Annual Research Briefs of the Center for Turbulence Research, Center for Turbulence Research - Stanford University, pp.321-334, 2012. <hal-00653057>