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09.00 Emmanuel Coffie
09.30 Audun Tahina Reitan
10.00 Anders Utnes
10.30 Anders Greger Svenn
11.00 Bogdan Osyka
11.30 Christian Pedersen
12.00 J?rgen Dyremyhr Tyvand
12.30 J?rgen Schartum Dokken
13.00 Lars Petter Karstensen
13.30 Vegard Vinje
15 minutes presentation of final project followed by 15 minutes of questions from the syllabus. Power-point, Keynote or PDF ok. I will have a Mac hooked up and you can either send me the presentation, bring a usb or your own laptop. If you send it I will have the chance to test that it works.
The presentation should start with a project description. It is difficult to give general advice, but briefly it is your responsibility to make the presentation as clear and concise for the external sensor as possible. Emphasize what you have done, both why and how you have done it the way that you have. Explain the results. Model sensitivity, mesh sensitivity and sensitivity to numerical methods are relevant topics for most projects.
It's very important that you all show up for the lectures on plasma physics next week!
I cannot make it to class tomorrow. Please feel free to email me if you have any problems or require assistance in any way.
But I want a project description by the end of class Tuesday 20/10!!
http://www.uio.no/studier/emner/matnat/math/MEK4470/h14/lecturenotes.pdf
This is part of the syllabus for the course.
Implement a backwards facing step in OpenFoam using the icoFoam solver. Use expansion factor of 2 and Re=200 (stable) and Re=1000 (unstable). See, e.g., http://www.cavityflow.com/backwardfacingstep/backwardfacingstep.htm.
The high Re case should be unstable with default numerical methods in OpenFoam. Make a more suitable choice of numerical scheme for convection and compare different methods (upwind/TVD).
There is an overlap in the schedule with MEK4220. We will fix the schedule soon, but for tomorrow (18/8), students that plan to follow both courses are adviced to follow MEK4220 and come see me about the openfoam installation when you have time.