Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- CNRS
- Ecole Centrale de Nantes
- Ecole Nationale Supérieure des Mines de Saint Etienne
- Ecole des Mines de Saint-Etienne -Centre SPIN - Dé
- Elvesys Microfluidics Innovation Center
- IFP Energies nouvelles (IFPEN)
- Institut Jean Lamour
- Microfluidics Innovation Center
- Mines de Saint-Etienne
- Université Toulouse III - Paul Sabatier
-
Field
-
/achieve/ ). The main objective are to develop novel computational tools to enhance the predictive capability of high fidelity CFD of unconventional H2 blends. The PhD student will first focus on simplyfing
-
Infrastructure? No Offer Description About the PhD position: A PhD at the MIC has nothing to do with a typical PhD. You will be immersed in a start-up with a strong entrepreneurial and innovative spirit. Your
-
want to experience more than the academic world? You want to combine entrepreneurship and PhD? You feel ready to work on an interdisciplinary research project? IMPORTANT: You must not have spent time in
-
crucial for research in several scientific fields, from Computational Fluid Dynamics (CFD) for aeronautics design to Darcy flow in porous media for CO2 storage and geothermal energy. The performance
-
PhD students, post-docs, trainees & visiting professors. The position is located in an area covered by the protection of scientific and technical potential (PPST), and therefore requires, in accordance
-
. The phenomena in this zone are one of the key factors for the formation of the nonuniform structure and chemical composition in castings. Objectives and Methods The objective of the PhD thesis is to answer
-
has been working on these questions for several years from a numerical point of view through CFD RANS simulation tools (Perignon et al., 2014) then through a model developed by (Cathelain, 2017) and
-
solutions. Position Description: We are seeking a highly motivated and skilled PhD student to contribute to the MULTITHERMO project. The overarching goal is to develop trustworthy predictive physico-chemical
-
motivated and skilled PhD student to contribute to the MULTITHERMO project. The overarching goal is to develop trustworthy predictive physico-chemical models of electrical and solar rotary kilns for energy
-
the structure of 3D electrodes: selection and implementation of a numerical simulation of the flow and potential/current distribution taking into account electrochemical kinetics and mass transfer (direct CFD