| Skriv ut |  | Lukk vindu |
Vår 2023
TEK-3604 Multiphysics Simulering - 10 stp
The course is administrated by
Institutt for automasjon og prosessteknologi
Type of course
The course may be taken as a single course.
Course overlap
TEK-3015 Multiphysics Simulation 10 stp
Course contents
The course covers multiphysics modelling techniques for structural mechanics and fluid mechanics/heat transfer. Students will learn about structures problem and simulation techniques with the use of Finite Element Methods (FEM). Similarly, students will learn about fluid mechanics/heat transfer problems with the use of Finite Volume Methods and Finite Difference Methods (FVM / FDM ). In both, students will learn about governing equations, discretization techniques, initial & boundary conditions, and solving techniques. They will also learn ANSYS® Multiphysics and MATLAB® software.
Application deadline
Applicants from countries within EU/EEA: December 1st. Exchange students and Fulbright students: October 1st
Admission requirements
A relevant undergraduate Bachelor Engineering program with minimum 25 credits mathematics, 5 credits statistics, 7,5 credits physics.
Application code: 9371
Objective of the course
Knowledge:
- The candidate will learn the basics of Multiphysics simulation and acquire important knowledge about setting up one.
- The candidate will learn certain advanced concepts in relation to the mechanics of materials and fluid mechanics/heat transfer.
Skills:
- Candidates will understand the term Multiphysics and its relation to practical problems.
- Candidates will build knowledge in discretization techniques used in Multiphysics simulations such as Finite Element Method (FEM), Finite Difference Method (FDM), Finite Volume Method (FVM), etc.
- Candidates will discretize the partial differential equations (PDE) of structures, fluid mechanics, and heat transfer.
- Candidates will apply the correct boundary and initial conditions in solving the Multiphysics simulation problems.
- Candidates will also learn about the use of computational resources in solving Multiphysics simulation problems.
General Competence:
- The candidate will be able to appreciate the importance of Multiphysics simulation for engineering applications.
- The candidate will also build an understanding of the margin of error between real cases to simulated ones.
Language of instruction
English
Teaching methods
Lectures, workshops and laboratory work.
Date for examination
Assignment hand in date 03.03.2023;Assignment hand in date 05.05.2023
The date for the exam can be changed. The final date will be announced at your faculty early in May and early in November.