Users:FSI
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| + | = Coupled Problems: Fluid-Structure Interaction = | ||
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| + | Carat++ can also be used within a coupled analysis of type fluid-structure interaction. What approach is used and how to setup a FSI-computation is explained here. | ||
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| + | == General Overview == | ||
| + | |||
| + | A partitioned approach is used for simulating FSI problems. This means, that for each specific task of the coupled computation a specific program is used. The software envrionment in our case consists of three programms: | ||
| + | * the FE-code Carat++ for the solution of the structural subproblem, | ||
| + | * the FV-code OpenFOAM for the solution of the fluid subproblem, | ||
| + | * the coupling code CoMA responsible for everything else: Simulation control, data transfer, communication, coupling algorithms, ... | ||
| + | |||
| + | A grafical representation fo this setup is given in the following figure: | ||
| + | |||
| + | {| | ||
| + | |[[File:CompFramework_Overview.png|thumb|up|750px|Computational Framework for FSI-simulations]] | ||
| + | |} | ||
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| + | == Single Aspects in Detail == | ||
| + | |||
| + | The single components of an optimization problem are described here: | ||
| + | * [[Users:FSI/Response Functions|Objectives and Constraints]] | ||
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| + | |||
| + | coma: data transfer, communication, controlling: coupl algo, predictor, convergence | ||
Revision as of 08:51, 23 February 2011
Coupled Problems: Fluid-Structure Interaction
Carat++ can also be used within a coupled analysis of type fluid-structure interaction. What approach is used and how to setup a FSI-computation is explained here.
General Overview
A partitioned approach is used for simulating FSI problems. This means, that for each specific task of the coupled computation a specific program is used. The software envrionment in our case consists of three programms:
- the FE-code Carat++ for the solution of the structural subproblem,
- the FV-code OpenFOAM for the solution of the fluid subproblem,
- the coupling code CoMA responsible for everything else: Simulation control, data transfer, communication, coupling algorithms, ...
A grafical representation fo this setup is given in the following figure:
 |
Single Aspects in Detail
The single components of an optimization problem are described here:
coma: data transfer, communication, controlling: coupl algo, predictor, convergence
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