Revision as of 09:29, 7 October 2013

A fluid-structure interaction benchmark in turbulent flow (FSI-PfS-1a)

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

@@ Line 15: / Line 15: @@
 * 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
+* 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
-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.