- Cours (CM) -
- Cours intégrés (CI) 24h
- Travaux dirigés (TD) -
- Travaux pratiques (TP) -
- Travail étudiant (TE) -
Langue de l'enseignement : Anglais
Niveau de l'enseignement : B1-Seuil - Utilisateur indépendant
Description du contenu de l'enseignement
The student should acquire the basic knowledge in the:
- description of the general differential equation for heat transfer within a fluid flow;
- mathematical derivation of differential equations governing mass transfer;
- formulation of differential equations governing multiphase mass transport in porous media;
- use of numerical tools based on the finite element method: application of Freefem++ to 2-dimensional heat transfer equation;
- control volume finite element method : application of the 3D numerical multiphase multicomponent code cubicM, together with pre- and post-processing tools (Gmsh, Paraview and Gnuplot).
Compétences à acquérir
- Physical understanding of the basic differential equations governing the heat and mass transfer, fluid flow and the related processes;
- Numerical resolution of the advection-diffusion equation for given initial and boundary conditions using either Finite Differences, Finite Elements or Finite Volume Elements;
- Choice of appropriate boundary condition for a given physical problem and evaluation of the achievement of steady-state conditions of heat /mass transfer;
- Quantification of the limits of numerical codes (numerical diffusion, numerical instabilities…).
Contact
Faculté de physique et ingénierie
3-5, rue de l'Université67084 STRASBOURG CEDEX
Formulaire de contact
Responsable
Gerhard Schafer
Intervenants
Gerhard Schafer