Difference between revisions of "CSE Seminar Fluid Structure Interaction - Winter 09"

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Detailed information about this seminar will follow soon.
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== Seminar Outline ==
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Every student participating in the seminar has to choose one of the offered topics, prepare a paper, and a give a presentation about it. In addition, every student has to write two short reviews of papers from other students.
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 +
== Seminar Topics ==
 +
 
 +
The seminar covers topics related to Fluid-Structure Interaction, with emphasize on the partitioned coupling approach and fluid simulation. Available topics are:
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* Fluidmechanics basics
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* Discretization techniques for fluid equations
 +
* Structural mechanics basics and discretization with the finite element method
 +
* Coupling of fluids and structures
 +
* Coupling algorithms for the solution of partitioned FSI
 +
* Coupling data mapping for non-matching grids
 +
* Spacetrees for efficient data mapping and geometry queries
 +
* Peano as fluid simulation tool
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* Comsol as structure simulation tool
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* preCICE as coupling environment for partitioned FSI

Revision as of 00:04, 1 August 2009

Term
Winter 09
Lecturer
M.Sc. Bernhard Gatzhammer, Dipl. Math. Tobias Neckel
Time and Place
block seminar, schedule t.b.a.
Audience
Computational Science and Engineering (3rd semester),
Informatics (Master)
Tutorials
-
Exam
-
Semesterwochenstunden / ECTS Credits
2 SWS (2S) / 4 Credits
TUMonline
{{{tumonline}}}



Seminar Outline

Every student participating in the seminar has to choose one of the offered topics, prepare a paper, and a give a presentation about it. In addition, every student has to write two short reviews of papers from other students.

Seminar Topics

The seminar covers topics related to Fluid-Structure Interaction, with emphasize on the partitioned coupling approach and fluid simulation. Available topics are:

  • Fluidmechanics basics
  • Discretization techniques for fluid equations
  • Structural mechanics basics and discretization with the finite element method
  • Coupling of fluids and structures
  • Coupling algorithms for the solution of partitioned FSI
  • Coupling data mapping for non-matching grids
  • Spacetrees for efficient data mapping and geometry queries
  • Peano as fluid simulation tool
  • Comsol as structure simulation tool
  • preCICE as coupling environment for partitioned FSI