Institut National Polytechnique De Grenoble

Research Courses

5EUS5RE

Iowa State Course Substitution

ME Technical Elective

M E

Course Info
International Credits:
5.0
Converted Credits:
3.0
Semester:
spring
Country:
France
Language:
English
Course Description:
Research Courses - 5EUS5RE Goals The main objective of this research course is to allow the students to deepen their expertise in fluid mechanics by choosing 2 courses among 4 proposed within the framework of the second year of the Research Master "Fluid Mechanics & Energetics" (http://master-mfe.grenoble-inp.fr/teaching/). Besides, a senstitization to the reseach is given by participating at seminaries or thesis defenses. Following the research course greatly improves the chances to be granted of a thesis scholarship for engineer graduate. Contact Laurent DAVOUST Content The research course is composed by 2 courses to be chosen among the 4 following courses of the second year of the MFE Research Master (courses conducted in English with course materials in English): Numerical simulation and modelling of turbulent flows (24H, O. Métais or G. Balarac) Cavitation (24H, JP Franc & C. Pellone) Hydrodynamical stability (24H, JB Flor) Microfluidics and interfaces (24H, L. Davoust) and by the participation to 3 seminaries (LEGI, Rheology and Process Laboratory, LiPhy,…) or thesis defenses thematically relevant. Prerequisites Good knowledge in fluid mechanics (laminar and turbulent flows, numerical simulation of flows, introduction to two-phase flows) ABOUT US STUDIES RESEARCH INTERNATIONAL COMPANIES STUDENT LIFE Number of hours Lectures : 79.0 Tutorials : 12.0 Laboratory works : 16.0 ECTS : 5.0 Page 1 × Tests Written examination of 3 or 4h. The participation to seminaries or thesis defenses will be subject to debriefing session (oral presentations) for the whole set of students of the research course. Note d'examen de 3H (ME) ou 4H (M2R FME) destiné à vérifier l'acquisition individuelle de concepts clés et la maîtrise des outils d'analyse pour les cours suivis (chaque cours fait l'objet d'un DS de 1H). La note de contrôle continue est établie comme la moyenne des notes suivantes : Deux notes en microfluidics & nanofluidics : 1 oral + 1 rapport avec programme matlab-simulink pour le projet de microhydraulique adossé au cours Une note de présentation d'article en turbulence Deux notes : 1 devoir à la maison + 1 oral de présentation d'article en hydrodynamic stability Note de l'UE complète = (note DS + note contrôle continu)/2 Additional Information Course list Curriculum->->Semester 5 Curriculum->Engineer ME->Semester 5 VERSION FRANÇAISE Voir la version française de cette page Ecole Nationale Supérieure de l'Energie, l'Eau et l'Environnement 21 avenue des Martyrs CS 90624 38031 GRENOBLE CEDEX 1 www.grenoble-inp.fr/suivez-nous To improve the quality of this site and the service rendered to the user, we use cookies audience measurement. By continuing your visit to this site, you agree to our use of cookies for this purpose. More

Review

Evaluation Date:
November 1, 2017
Evaluated:
John Wagner
Comments:
The content taught in this course is similar in difficulty to material taught in a graduate level class.