Articles publiés ou à paraître

Di Martino B., Haspot B. & Penel Y. Global stability of weak solutions for a multilayer Saint-Venant model with interactions between layers. (To appear in Nonlinear Analysis). HAL / DOI


Penel Y., Dellacherie S., Després B. (2015). Coupling strategies for compressible - low Mach number flows (Math. Models Methods Appl. Sci., Volume 25(06), 1045--1089). HAL / DOI


Bernard M., Dellacherie S., G. Faccanoni, B. Grec & Penel Y. (2014). Study of a low Mach nuclear core model for two-phase flows with phase transition I: stiffened gas law (Math. Model. Numer. Anal., Volume 48(06), 1639--1679). HAL / DOI


Calgaro C., Creusé E., Goudon T. & Penel Y. (2013) : Positivity-preserving schemes for Euler equations: sharp and practical CFL conditions (J. Comput. Phys., Volume 234, 417--438). HAL / DOI


Penel Y. (2013). Existence of global solutions to the 1D abstract bubble vibration model (Differential and Integral Equations, Volume 26(1-2), 59--80). HAL / DOI


Penel Y., Dellacherie S. & Lafitte O. (2013). Theoretical study of an abstract bubble vibration model (Journal of Analysis and its Applications - ZAA, Volume 32(1), 19--36). HAL / DOI


Penel Y. (2012). Well-posedness of a low Mach number system (C. R. Acad. Sci., Ser. I, 350, 51--55). DOI


Penel Y. (2012). An explicit stable numerical scheme for the 1D transport equation (DCDS-S, Volume 5(3), 641--656). HAL / DOI


Omnes P., Penel Y. & Rosenbaum Y. (2009). A posteriori error estimation for the discrete duality finite volume discretization for the Laplace equation (SIAM J. Numer. Anal., Volume 47(04), 2782-2807). HAL / DOI

 

Thèse

Télécharger
Mémoire de thèse
Etude théorique et numérique de la déformation d'une interface séparant deux fluides non-miscibles à bas nombre de Mach. Soutenue le 13 décembre 2010.
these_PENEL.pdf
Document Adobe Acrobat 3.8 MB

Actes de conférence avec comité de lecture

Audusse E., Dellacherie S., Do Minh H., Omnes P., Penel Y. (2017) Godunov type scheme for the linear wave equation with Coriolis source term. (ESAIM:Proceedings and Surveys, Volume 58, 1-26). HAL / DOI


Audusse E., Do Minh H., Omnes P., Penel Y. (2017). Analysis of The Apparent Topography scheme for the linear wave equation with Coriolis force. (Proc. FVCA8)


Bondesan A., Dellacherie S., Hivert H., Jung J., Lleras V., Mietka C. & Penel Y. (2016). Study of a depressurisation process at low Mach number in a nuclear reactor core (ESAIM: Proceedings and Surveys, Volume 55, 41-60). HAL / DOI


Dellacherie S., Faccanoni G., Grec B. Nayir E. & Penel Y. (2014). 2D numerical simulations of a low Mach nuclear core model with stiffened gas using FreeFem++ (ESAIM: Proceedings and Surveys, Volume 45, 138-147). HAL / DOI


Bernard M., Dellacherie S., G. Faccanoni, B. Grec, T.-T. Nguyen, O. Lafitte & Penel Y. (2012). Study of a low Mach nuclear core model for single-phase flows (ESAIM: Proceedings, Volume 38, 118--134). HAL / DOI


Penel Y., Mekkas A., Dellacherie S., Ryan J. & Borrel M. (2009). Application of an AMR strategy to an abstract bubble vibration model (19th AIAA Comput. Fluid Dyn. Conf. Proc)

Télécharger
Article AIAA
Etude numérique du modèle Abstrait de Vibration de Bulles à l'aide d'une technique AMR
AIAA-2009-3891-553.pdf
Document Adobe Acrobat 774.9 KB

Articles soumis ou en cours de préparation

Dellacherie S., Faccanoni G., Grec B. & Penel Y. Study of a low Mach nuclear core model for two-phase flows with phase transition II: tabulated EOS. HAL


Fernandez-Nieto E., Parisot M., Penel Y. and Sainte-Marie J. A hierarchy of dispersive layer-averaged approximations of Euler equations for free surface flows. HAL


Audusse E., Do Minh H., Omnes P., Penel Y. Analysis of a modified Godunov scheme for the linear wave equation with Coriolis source term on cartesian meshes. HAL

Publications et projets du CDMATH

CDMATH (2011-) : les publications du CDMATH sont disponibles à l'adresse suivante. En particulier :

  • Study of a low Mach nuclear core model for single-phase flows (ESAIM:Proc. CEMRACS 2011, 38, 118--134)
  • Study of a low Mach nuclear core model for two-phase flows with phase transition I: stiffened gas law (ESAIM:M2AN, 48(06), 1639--1679))
  • Study of a low Mach nuclear core model for two-phase flows with phase transition II: tabulated EOS (soumis)
  • 2D numerical simulations of a low Mach nuclear core model with stiffened gas using FreeFem++ (ESAIM:ProcS. SMAI 2013, 45, 138--147)

Posters

Télécharger
Séminaire CEA-GAMNI (IHP, Paris, 2010)
poster_ihp.pdf
Document Adobe Acrobat 197.0 KB