Chady Zaza

cz
Contact | Papers | Talks | Stuff

I am currently post-doctoral researcher at LIE (IRSN/DPAM).
I did my PhD thesis at LMEC (CEA/DM2S) and at I2M in the Applied Analysis team, under the supervision of my directors Raphaèle Herbin and Philippe Angot and of my adviser at CEA Michel Belliard. I worked on cell-centered adaptive pressure-correction schemes for the simulation of complex flows in PWR steam generators. You can get in touch with me at:
Email chady.zaza@{grenoble-inp.org,irsn.fr}
Telephone +33 467 141 483
Address Institut de Mathématiques de Marseille
Centre de Mathématiques et Informatique
39, rue Frédéric Joliot-Curie
13013 Marseille
FRANCE

PhD thesis

Chady Zaza, Contribution to numerical methods for all Mach flow regimes and to fluid-porous coupling for the simulation of homogeneous two-phase flows in nuclear reactors, Aix Marseille Université (2015). [pdf] [hal]

Articles in peer-reviewed journals

  1. J.-C. Latché, C. Zaza, A second order finite volume scheme on staggered meshes for detonation in gases, (in preparation).
  2. P. Angot, M. Belliard, C. Zaza, A non-linear Beavers-Joseph interface condition for convective flows, (in preparation).
  3. R. Herbin, J.-C. Latché, C. Zaza, A cell-centered pressure-correction scheme for the compressible Euler equations, (accepted in M3AS).
  4. A. Samake, S. Bertoluzza, M. Pennacchio, C. Prud'Homme, C. Zaza, A Parallel Implementation of the Mortar Element Method in 2D and 3D, ESAIM: Proc. (2013), Vol. 43, pp. 213-224. [pdf] [doi]

Conferences with proceedings

  1. N. Therme, C. Zaza*, Comparison of cell-centered and staggered pressure-correction schemes for all-Mach flows, FVCA 7 (2014), Springer Proceedings in Mathematics & Statistics, Vol. 78, pp. 975-983. [pdf] [doi]

Other conferences/workshops

  1. C. Zaza*, A second order scheme on staggered grids for detonation in gases, HYP2016 (2016), Aachen, Germany. [pdf] [abs]
  2. C. Zaza*, Un schéma volumes finis sur maillage décalé pour la détonation dans les gaz, Journées Jeunes EDPistes français (2016), Bordeaux, France.
  3. C. Zaza*, An adaptive projection scheme for all-Mach flows applied to shock diffraction, GdT LRC Manon (2015), Paris, France. [pdf]
  4. P. Angot, M. Belliard, C. Zaza*, A non-linear Beavers-Joseph interface condition derived from a kinetic energy balance, NM2PorousMedia (2014), Dubrovnik, Croatia. [pdf] [abs]
  5. C. Zaza*, A projection scheme with adaptive mesh refinement for shock hydrodynamics , MODTERCOM Workshop (2014), Porquerolles, France. [pdf]
  6. R. Herbin, J.-C. Latché, C. Zaza*, An adaptive cell-centered pressure-correction scheme for all-Mach flows, ECCOMAS ECFD VI (2014), Barcelona, Spain.
  7. R. Herbin, J.-C. Latché, C. Zaza*, Un schéma de correction de pression consistant en volumes finis colocalisés pour des fluides compressibles, CANUM (2014), Carry-le-Rouet, France. [abs]

Poster presentations

  1. J.-C. Latché, C. Zaza*, An Explicit Second Order Scheme on Staggered Finite Volume Meshes for Reactive Flows with Stiff Kinetics, Séminaire CEA-GAMNI (2016), Paris, France.
  2. J.-C. Latché, C. Zaza*, An Explicit Second Order Scheme on Staggered Finite Volume Meshes for Reactive Flows with Stiff Kinetics, Low Velocity Flows Workshop (2015), Paris, France. [pdf] [abs]
  3. C. Zaza*, An all-Mach projection scheme with Adaptive Mesh Refinement for Shock Diffraction, SMAI 2015 (2015), Les Karellis, France. [pdf] [abs]