Numerical Tools and Methods
Supervisor : Abdelmounaim TOUNZI
abdelmounaim.tounzi@univ-lille.fr
L2EP, Bâtiment P2
Cité Scientifique – Université Lille 1
59655 Villeneuve d’Ascq
Tél : +33 0)3-20-43-49-06
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Research Axis
The team Numerical Tools and Methods works on the development of numerical models and effective methodologies aimed to the optimal design and study of electromagnetic devices within their environment.
Among the topics covered, we can quote :
- Characterization and modelling of the electromagnetic behaviour of magnetic materials while taking account for the impact of manufacturing processes.
- Development of models of various granularities (finite elements, reluctance networks, response surfaces … etc)
- Development and implementation of advanced numerical methods to reduce computation time (error estimation, order model reduction…)
- Coupling between different physical models with distinct time constants
- Taking into account the variability of the input quantities in order to evaluate the dispersion on the quantities of interest (quantification of uncertainties).
- Development of multi-disciplinary, multi-level, multi-scale optimization methodologies as well as the development of optimization strategies.
- Optimal design of electrical machines including multi-physics issues such as noise and vibration but also the integration of the operating cycle.
- Study of healthy and faulty electromagnetic devices for diagnostic purposes.
The results of the work developed are capitalized in a software platform which includes the Sophémis optimization code and code_Carmel finite element code. The latter is co-developed in collaboration with EDF Lab within the framework of the joint LAMEL laboratory.
Key words
3D finite elements, characterization and modelling of magnetic materials, quantification of uncertainties, order model reduction, error estimation, optimization design, methodologies and optimization strategies, electrical machines within their environment, electromagnetic diagnosis, multi-objective optimization, multi-level, multi-physics and multi-granularity, operating cycle.
Team
BENABOU Abdelkader, PR
BRISSET Stéphane, PR
CLENET Stéphane, PR
GILLON Frédéric, PR
GUYOMARCH Frédéric, MCF
HECQUET Michel, PR
HENNERON Thomas, MCF
LE MENACH Yvonnick, PR
MESSAL Oualid, MCF
NGUYEN Thu-Trang, MCF
PIRIOU Francis, PR
TANG Zuqi, MCF HDR
TOUNZI Abdelmounaïm, PR
BEKIR Wissem, Design engineer
CHEVALLIER Loïc, Design engineer
KORECKI Julien, Design engineer
LEPOUTRE Amandine, Design engineer
Post-PhD Student
Ronan CORIN
Marwane DHERBÉCOURT
Zhi GONG
Houssein TAHA
Jerome TOMEZYK
PhD Student
Liwaa ABOU CHAKRA
Ayoub AINOUZ
Wei CHEN
Yamina DJOUADI
Joël DRAPPIER
Anthony EL HAJJ
Hamza FAROOQ
Walid GUENDOUZ
Esteban HUSSON
Zhenxin LI
Walid MOHAND OUSSAID
Idriss NACHETE
Lea SALEH
Ghali SQALLI
Docteur
Patricio LA DELFA
Partenariats
Research programs : : MEDEE, JEOLIS
Nationals laboratories : G2Elab, Roberval, FEMTO-ST – Belfort, SATIE -Paris, IREENA, LSEE, LAPLACE, AMPERE, SEEDS
Laboratories from others areas : Paul Painlevé (applied mathematics), LAMIH (thermal), LMSP (processes and metrology) CRIStAL (automatic and computer)
Industries: EDF, Jeumont Electric, Valéo, Auxel, Alstom-Transport (Ornans, Tarbes, Charleroi), Renault, IREQ
International relations : Belgium (Pôle d’attraction inter-universitaire, Liège, Gand, KU Leuven), TU Cluj Napoca, University of Bucarest, MPEI Moscou, Brasil (University of Santa Catarina), Canada (Universities of Laval, Université McGill, ETS Montréal), United states (University of Akron), Algeria (ENP Alger, University of Béjaïa), LARA ENIT Tunis, Finland (University of d’Aalto), Germany (RWTH-Aachen), China (Universities of Wuhan, Xi’An Jiaotong and Chinese academic science)