Aimen Gheribi
Phd. (Materials science) Msc. (Materials science)
Researcher
Department of Chemical Engineering
Department of Chemical Engineering
Research interests and affiliations
Research interests
- Modélisation thermochimique et calcul des équilibres de phases
- Simulations atomistique (DFT, Dynamique Moléculaire)
- Méthodes d’optimisation de type « boites noires »
- Propriétés thermiques et thermodynamiques des matériaux complexes
- Propriétés de transport (charge et chaleur) des électrolytes
- Méthode CALPHAD
- Production de l'aluminium primaire
- Conception d’Alliages (Métaux légers, alliages Al, Mg)
- Sels fondus/électrolytes (Energie solaire et réacteurs nucléaires à sels fondus)
Affiliation(s)
Expertise type(s) (NSERC subjects)
- 1803 Thermodynamics
- 2003 Metallurgy/metals/alloys
Publications
Recent publications
Conference paper
Conference paper
Journal article
Journal article
Harvey, J.-P., Gheribi, A. E., Robelin, C., Chartrand, P., Lafaye, P., Oishi, K., & Castillo-Sánchez, J.-R. A virtual laboratory for the aluminum industry [Presentation]. In 50th International Conference on Computer Coupling of Phase Diagrams and Thermochemistry (CALPHAD 2023), Boston, MA, USA.
Ruszczynski, L., Gheribi, A. E., & Smith, A. L. Coupled modelling of structural, thermodynamic and physicochemical properties of NaF-KF-UF4 fuel salt [Presentation]. In NuFuel 2023, Marseille, France.
Jofre, J., Gheribi, A. E., & Harvey, J.-P. (2023). Development of a flexible quasi-harmonic-based approach for fast generation of self-consistent thermodynamic properties used in computational thermochemistry. Calphad: Computer Coupling of Phase Diagrams and Thermochemistry, 83, 102624 (16 pages).
Yang, H., Gallagher, R., Chartrand, P., & Gheribi, A. E. (2023). Development of a molten salt thermal conductivity model and database for advanced energy systems. Solar Energy, 256, 158-178.
See all publications (133)
Education
- Phd. Science des matériaux, Aix-Marseille Université
- Msc. Science des matériaux, Aix-Marseille Université
Supervision at Polytechnique
IN PROGRESS
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Ph.D. (5)
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Yang, Huiqiang. Development of thermal conductivity models of complex solutions of molten salts and solid solutions for solar power plant.
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Bouzeine, Imene-Dorsaf. Thermal and electrical conductivity models for carbon crystallites and for baked carbon electrodes.
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Joelle, Tohme. Electro-thermodynamic models for carbon anodes in the Hall-Héroult process.
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Ghodbane, Khouloud. Models for the thermal conductivity and heat transport in the anode cover materials (ACM)..
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Kidari, Oumaima.
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Master (thesis) (1)
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Devaux, Tristan. Toward a New CALPHAD Approach to Describe the Magnetic Gibbs Energy of Metallic Alloys.
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COMPLETED
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Ph.D. Thesis (1)
- Phan, A. T. (2020). Thermodynamic Modeling of Complex Solid Solutions for Lithium Battery Applications [Ph.D. thesis, Polytechnique Montréal].
- Phan, A. T. (2020). Thermodynamic Modeling of Complex Solid Solutions for Lithium Battery Applications [Ph.D. thesis, Polytechnique Montréal].
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Master's Thesis (3)
- Castillo-Sánchez, J.-R. (2022). On the Aluminium Alloy Design Using Molecular Dynamics [Master's thesis, Polytechnique Montréal].
- Rincent, C. (2022). Searching for a Fundamental Understanding of the Melting Process of Aluminium and its Alloys in Classical Molecular Dynamics Simulations [Master's thesis, Polytechnique Montréal].
- Vermot des Roches, M. (2018). Modèles de tension de surface pour les sels fondus et les métaux liquides appliqués au procédé Hall-Héroult [Master's thesis, École Polytechnique de Montréal].
