Brief description:
The course has the objective to provide insight into technologies associated with process modelling or more generically model-based computational engineering. Each student selects a project from pool and we discuss on a weekly basis each of the project. The course concludes with a mini conference where each student presents his project. The event is augmented with an oral examination discussing the material covered during the course.
Knowledge:
Advanced subjects in the domain of process simulation
Skills:
Students work on projects that are relevant for the development and use of process-relevant software:
- numerical methods
- implementing coded versions of models into existing application programs
- utilisation of advanced software engineering concepts and methods
General competence:
Implementation of new and advanced methods in software dedicated to process analysis and process design.
2019
2017
2016
- projects
- Attainable regions → Halvor Aarnes Krog
- OpenFoam : Vortex mixing → Kun Wang
- OpenFoam: Extract volume/flow graph after pressure / velocity computation and compute composition distribution → Ramn Erstad
- Tools: Lua → Eirik Torp
- Tools: molecular dynamics → Christina Zotica
- Numerics: DAEs explict vs implicit → Melissa Dlima
Support:
- Bio process – Cansu Birgen
- CFD/OpenFoam – Sigve Karolius & Abel Mekonnen
- Tools – Tobias Elve & Sigve Karolius