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Position: Post-doc position in CFD
Institution: Institut national de recherche en informatique et en automatique
Location: Rocquencourt, Île‐de‐France, France
Duties: Project: "URANS and hybrid RANS/LES approaches for cavity flows in the natural convection regime". The objective of the project is to incorporate buoyancy effects in a range of turbulence models, in order to provide engineers with efficient, robust and accurate tools for the prediction of flows in the mixed or natural convection regimes
Requirements: Recruitment grade: young researcher (with PhD)
   
Text: HOME Contact Admin Search for: Search CAGIRE project-team Inria-University of Pau-CNRS Skip to content Presentation Overview Members Present members Former members Press Du modèle physique au modèle numérique Modéliser et calculer : un enjeu essentiel pour les sciences et les challenges industriels Research Context Research directions Activity report SOFTWARE Projects Monaco_2025 SEIGLE HPC Scalable ASTURIES RECENT RESULTS PUBLICATIONS Open positions Post-doc position in CFD (MONACO_2025 project) Post-doc position in CFD (ASTURIES project) PhD position CONTACT Home Post-doc Position in CFD Post-doc Position in CFD Post-doc position in CFD: posted 8 July 2021 URANS and hybrid RANS/LES approaches for cavity flows in the natural convection regime Dowload the description in pdf • Recruitment grade: young researcher (with PhD) • Location: Pau, France • Starting date: 1st September 2021 • End: 31 July 2022 Context The post-doc position is part of the project MONACO 2025 (click here to visit the web-site). Transient, buoyancy-affected turbulent flows play a major role in many industrial and environmental applications, in particular for the sectors of the two industrial partners, automotive and nuclear industries. Therefore, the MONACO 2025 project focuses on configurations representative of a wide range of systems, in order to develop innovative models that will make possible the use of CFD for such very challenging configurations in the daily practice of engineers, which is not possible nowadays. The objective of the project is thus to incorporate buoyancy effects in a range of turbulence models, in order to provide engineers with efficient, robust and accurate tools for the prediction of flows in the mixed or natural convection regimes. Objectives During two PhD projects included in the MONACO 2025 project, RANS and hybrid RANS/LES models have been developed for natural convection flows. The objective of this post-doc is to carry out Task 5.1 of the project, which is twofold: evaluating, in the natural convection cavity experimentally studied by another PhD student of the project, the accuracy of • each model of the panel developed during the project: buoyancy-extended eddy-viscosity models, industrial second-moment closures, both in URANS mode; • Hybrid RANS/LES models, sensitized to buoyancy effects or not. The simulations will be carried out with the open-source solver Code Saturne. Supervision and contact The post-doc will be supervised by Remi Manceau (click here), senior CNRS researcher, specialist of turbulence modelling for CFD, working at the Laboratory for Applied Mathematics of the University of Pau. Contact: remi.manceau @ univ-pau.fr Comments are closed. IS services Bastri Bil HAL tools Raweb Meta Log in Entries RSS Comments RSS WordPress.org This text can be changed from the Miscellaneous section of the settings page. Lorem ipsum dolor sit amet, consectetur adipiscing elit, cras ut imperdiet augue. Powered by Nirvana & WordPress.
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