Resume
Researcher
ORCID: https://orcid.org/0
Sofiane
KHELLADI
Professor at Arts et Métiers Institute of Technology
LIFSE
Greater Paris Metropolitan Region, France
Citations
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Contact Info
Resume
About
Research work of Prof. Sofiane KHELLADI concerns: Advanced numerical methods for fluid and energy systems, Multi-phases flows and multi-physics coupling, Aero-hydrodynamics and acoustics of turbomachines. The scientific approach that he favors is predominantly theoretical and numerical with an experimental component oriented, in most cases, for validation purposes.
Professional Skills
Design Engineering
Fluid Mechanics
Modeling and Simulation
C
C++
Numerical Simulation
Numerical Analysis
Numerical Modeling
CFD Simulation
Computational Fluid Dynamics
Education
Sorbonne Université
May 2012 - May 2012
Engineering Sciences (Mechanical Engineering)
Ecole Nationale Supérieure d'Arts et Métiers
Sep 2003 - Dec 2005
Mechanical Engineering
Sorbonne Université
Oct 2002 - Jun 2003
Energy conversion
National Polytechnic School of Algiers
Sep 1994 - Jun 1999
Mechanical Engineering
Project
Optimum design of Mechnical systems
Thermal mixing performances of non-Newtonian fluids: CFD in Micro-mixers
Mechanical, Thermal and Rheological characteristic in 3D Printing/FDM/FFF
Study of bonding strength/improvement by optimizing the temperature profile of cooling process to be applied in rheological properties of fabricated parts both experimentally and numerically.
CFD modeling of complex geometries and micromixers
Modeling of complex geometries from design through 3D drawing to numerical simulations using CFD codes.
Advanced design methods for turbomachinery
Advanced design methods for turbomachinery
Counter-rotating turbomachines
design and analysis of counter-rotating axial fans and pumps
Cavitating flows
dynamics of cavitating flows
STUDY AND MODELING OF THE EXTRUSION METHOD OF POLYMERS AND BLENDS, THERMAL AGING
study of the thermochemical equilibrium of polymeric mixtures chemical stability of polymers under extrusion conditions modeling of polymer flow in the extrusion process
STUDY AND MODELING OF THE EXTRUSION METHOD OF POLYMERS AND BLENDS, THERMAL AGING
study of the thermochemical equilibrium of polymeric mixtures chemical stability of polymers under extrusion conditions modeling of polymer flow in the extrusion process
Exploration of wind turbine wake
Experimental and numerical investigation of wind turbine flow and wake
Numerical and experimental validation of an aeroacoustics solver.
Development and validation of an inviscid CAA solver which works in complex environment (geometry, flow) and takes into account Moving bodies. Application to subsonic turbomachinery: - Improvements of current prediction capabilities. - Clarifications regarding mechanisms involved in noise propagation.
High-order methods for turbomachinery design
Design high-accurate numerical methods for moving boundary problems
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