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Ecole nationale supérieure de l'Énergie, l'Eau et l'Environnement
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Engineering school in energy, water and environment
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Our engineering & master degrees

> Studies > E3-STU-COURSES

Numerical Methods - 4EUS3MN

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  • Number of hours

    • Lectures : 24.0
    • Tutorials : 14.0
    • Laboratory works : 22.0
    • Projects : -
    • Internship : -
    • Written tests : 0
    ECTS : 5.0
  • Officials : Zhujun HUANG

Goals

  • Understand the methods of quantification and solving equations of mechanics (fluid, solid and saturated porous medium)
  • Know how to isolate a structure and define its boundary conditions
  • Know how to implement and configure a simulation, validate and analyze the results

Content

This module prepares for simulating mechanical problems (solid and fluid medium proreux saturated) on which the body geometry which may be complex and the physical properties can be spatially varied.
It includes three parts: (i) finite element methods (ii) Finite-volume (iii) introduction of a code of scientific calculations.

Proposal code: Fluent or OpenFoam for REA option and Plaxis or Abaqus for GHO option.

Prerequisites

Continuum Mechanics, Strength of materials, fluid mechanics, numerical methods

Tests

Session normale/ 1st session
Contrôle continu / continuous assessment (CC) : compte-rendu de BE/ Lab Report
Contrôle terminal / Final exam (CT) : deux épreuves écrites de 1.5h chacune + QCM aléatoires (bonus/malus note CT)
/ 2 written examination 1H30 each test + questionnaires (bonus / malus on final exam scores)

Session de rattrapage / 2nd session
Epreuve écrite ou orale dont le résultat remplace la note de CT. Le CC n'est pas rattrapable.
Another written or oral exam will replace the first one (CT). No retake for CC.

CC 40% + CT 60%

Calendar

The course exists in the following branches:

see the course schedule for 2020-2021

Additional Information

Course ID : 4EUS3MN
Course language(s): FR

You can find this course among all other courses.

Bibliography

An introduction to computational fluid dynamics : the finite volume method, H. K. Versteeg and W. Malalasekera
Numerical heat transfer and fluid Flow, Suhas V. Patankar
The Finite Volume Method in Computational Fluid Dynamics: An Advanced Introduction with OpenFOAM® and Matlab, F. Moukalled, L. Mangani and M. Darwish

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Date of update February 8, 2017

Université Grenoble Alpes