UFR 2-13 References: Difference between revisions
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* | * Adrian, R. J., 1991. Particle-imaging techniques for experimental fluid mechanics. Annual Review of Fluid Mechanics 23 (1), 261–304. | ||
* | * Bischoff, M., 1999. Theorie und Numerik einer dreidimensionalen Schalenformulierung. Ph.D. thesis, Institut für Baustatik, Universität Stuttgart, Germany. | ||
* Bischoff, M., Ramm, E., 1997. Shear deformable shell elements for large strains and rotations. Int. Journal for Numerical Methods in Engineering 40 (23), 4427–4449. | |||
* Bischoff, M., Ramm, E., 2000. On the physical significance of higher-order kinematic and static variables in a three-dimensional shell formulation. Int. Journal of Solids and Structures 37 (46), 6933–6960. | |||
* Bischoff, M., Wall, W. A., Bletzinger, K.-U., Ramm, E., 2004. Models and finite elements for thin-walled structures. In: Stein, E., De Borst, R., Hughes, T. J. R. (Eds.), Encyclopedia of Computational Mechanics. Vol. 2. John Wiley & Sons Ltd, Chichester, pp. 59–138. | |||
* Bletzinger, K.-U., W¨uchner, R., Daoud, F., Camprub´ı, N., 2005. Computational methods | |||
for form finding and optimization of shells and membranes. Computer Methods in Applied | |||
Mechanics and Engineering 194 (30), 3438–3452. | |||
* Bletzinger, K.-U., W¨uchner, R., Kupzok, A., 2006. Algorithmic treatment of shells and free form-membranes in FSI. In: Bungartz, H.-J., Sch¨afer, M. (Eds.), Fluid-Structure Interaction. Vol. 53 of Lecture Notes in Computational Science and Engineering, LNCSE. Springer, Heidelberg, pp. 336–355. | |||
* Boyer, F., De Nayer, G., Leroyer, A., Visonneau, M., 2011. Geometrically exact Kirchhoff beam theory: Application to cable dynamics. Journal of Computational and Nonlinear Dynamics 6, 041004. | |||
* Breuer, M., 2002. Direkte Numerische Simulation und Large-Eddy Simulation turbulenter Strömungen auf Hochleistungsrechnern. Habilitationsschrift, Universität Erlangen–Nürnberg, Berichte aus der Strömungstechnik. Shaker Verlag, Aachen, Germany. | |||
* Breuer, M., De Nayer, G., Münsch, M., Gallinger, T., W¨uchner, R., 2012. Fluid-structure interaction using a partitioned semi-implicit predictor-corrector coupling scheme for the application of large-eddy simulation. Journal of Fluids and Structures 29, 107–130. | |||
* Büchter, N., Ramm, E., 1992. Shell theory versus degeneration – A comparison in large Rotation finite element analysis. Int. Journal for Numerical Methods in Engineering 34 (1), 39–59. | |||
* Büchter, N., Ramm, E., Roehl, D., 1994. Three-dimensional extension of non-linear shell formulation based on the enhanced assumed strain concept. Int. Journal for Numerical Methods in Engineering 37 (15), 2551–2568. | |||
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{{ACContribs | {{ACContribs | ||
Revision as of 09:29, 7 October 2013
A fluid-structure interaction benchmark in turbulent flow (FSI-PfS-1a)
Flows around bodies
Underlying Flow Regime 2-13
References
List references describing in detail the relevant measurements, turbulence models, numerical methods, CFD results etc.
- Adrian, R. J., 1991. Particle-imaging techniques for experimental fluid mechanics. Annual Review of Fluid Mechanics 23 (1), 261–304.
- Bischoff, M., 1999. Theorie und Numerik einer dreidimensionalen Schalenformulierung. Ph.D. thesis, Institut für Baustatik, Universität Stuttgart, Germany.
- Bischoff, M., Ramm, E., 1997. Shear deformable shell elements for large strains and rotations. Int. Journal for Numerical Methods in Engineering 40 (23), 4427–4449.
- Bischoff, M., Ramm, E., 2000. On the physical significance of higher-order kinematic and static variables in a three-dimensional shell formulation. Int. Journal of Solids and Structures 37 (46), 6933–6960.
- Bischoff, M., Wall, W. A., Bletzinger, K.-U., Ramm, E., 2004. Models and finite elements for thin-walled structures. In: Stein, E., De Borst, R., Hughes, T. J. R. (Eds.), Encyclopedia of Computational Mechanics. Vol. 2. John Wiley & Sons Ltd, Chichester, pp. 59–138.
- Bletzinger, K.-U., W¨uchner, R., Daoud, F., Camprub´ı, N., 2005. Computational methods
for form finding and optimization of shells and membranes. Computer Methods in Applied Mechanics and Engineering 194 (30), 3438–3452.
- Bletzinger, K.-U., W¨uchner, R., Kupzok, A., 2006. Algorithmic treatment of shells and free form-membranes in FSI. In: Bungartz, H.-J., Sch¨afer, M. (Eds.), Fluid-Structure Interaction. Vol. 53 of Lecture Notes in Computational Science and Engineering, LNCSE. Springer, Heidelberg, pp. 336–355.
- Boyer, F., De Nayer, G., Leroyer, A., Visonneau, M., 2011. Geometrically exact Kirchhoff beam theory: Application to cable dynamics. Journal of Computational and Nonlinear Dynamics 6, 041004.
- Breuer, M., 2002. Direkte Numerische Simulation und Large-Eddy Simulation turbulenter Strömungen auf Hochleistungsrechnern. Habilitationsschrift, Universität Erlangen–Nürnberg, Berichte aus der Strömungstechnik. Shaker Verlag, Aachen, Germany.
- Breuer, M., De Nayer, G., Münsch, M., Gallinger, T., W¨uchner, R., 2012. Fluid-structure interaction using a partitioned semi-implicit predictor-corrector coupling scheme for the application of large-eddy simulation. Journal of Fluids and Structures 29, 107–130.
- Büchter, N., Ramm, E., 1992. Shell theory versus degeneration – A comparison in large Rotation finite element analysis. Int. Journal for Numerical Methods in Engineering 34 (1), 39–59.
- Büchter, N., Ramm, E., Roehl, D., 1994. Three-dimensional extension of non-linear shell formulation based on the enhanced assumed strain concept. Int. Journal for Numerical Methods in Engineering 37 (15), 2551–2568.
Contributed by: Michael Breuer — Helmut-Schmidt Universität Hamburg
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