Dr.-Ing. Thomas Klöppel
Doctoral Candidate at LNM
Research Fields
- Modeling of Red Blood Cells
- Monolithic FSI approaches for non-conforming interfaces based on dual- mortar approach
- Efficient preconditioning for thin-walled structures
Thesis
- T. Klöppel, A Finite Element Model for the Human Red Blood Cell , 2010
Now
- Software Developer
- at: DYNAmore GmbH
- contact: thomas.kloeppel(at)dynamore.de
- more: www.dynamore.de
Publications
Articles in Peer-Reviewed International Journals
- Yoshihara, L.; Coroneo, M.; Comerford, A.; Bauer, G.; Klöppel, T.; Wall, W.A.
A combined fluid-structure interaction and multi-field scalar transport model for simulating mass transport in biomechanics, International Journal for Numerical Methods in Engineering, 2014 (Erstveröffentlichung)
DOI: 10.1002/nme.4735 - Mayr, M.;Klöppel, T.;Wall, W.A.;Gee, M.W.
A Temporal Consistent Approach to Fluid-Structure Interaction Enabling Single Field Predictors, SIAM Journal on Scientific Computing, 2014 (Preprint / submitted) - Westfall, J.;Maute, K.K.;Klöppel, T.;Popp, A.;Gitterle, M.;Wall, W.A.
Nonlinear multi-physics coupling for non-conforming interfaces based on a dual mortar formulation, SFB/TRR 40 - Sonderforschungsbereich Transregio 40 – Summer Programm 2011 - Klöppel, T., Popp, A., Küttler, U., Wall, W.A. (2010): Fluid-structure interaction for non-conforming interfaces based on a dual mortar formulation, Computer Methods in Applied Mechanics and Engineering, 200:3111-3126, DOI.
- Klöppel, T., Wall, W.A. (2010): A novel two-layer, coupled finite element approach for modeling the nonlinear elastic and viscoelastic behavior of human erythrocytes, Biomechanics and Modeling in Mechanobiology, 10(4): 445-459, DOI
- Klöppel, T., Gee, M.W., Wall, W.A. (2011): A Scaled Thickness Conditioning for Solid- and Solid-Shell Discretizations of Thin-Walled Structures, Computer Methods in Applied Mechanics and Engineering, 200:1301-1310, DOI
Conference Proceedings
- Wall, W.A., Cyron, C., Klöppel, T., Meier, C., Müller, K. (2011): Coupled Problems on the cellular and sub-cellular scale, In: Proceedings of the IV International Conference on Computational Methods for Coupled Problems in Science and Engineering (Coupled Problems 2001), M. Papadrakakis, E. Onate, B. Schrefler (Eds.), Kos Island, Greece, June 20-22, 2011
- Klöppel, T., Popp, A., Wall, W.A. (2011): Interface treatment in computational fluid-structure interaction, In: Proceedings of the ECCOMAS Thematic Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (COMPDYN 2011), M. Papadrakakis, N.D. Lagaros, M. Fragiadakis (Eds.), Corfu, Greece, May 26-28, 2011
- Klöppel, T., Wall, W.A. (2009): A Finite Element Approach for Static and Dynamic Simulations of Human Red Blood Cells, In: Proceedings of the 1st International Conference on Computational & Mathematical Biomedical Engineering, P. Nithiarasu, R. Löhner, R. van Loon (Eds.), Swansea, UK, June 29 - July 1, 2009
Presentations
- Klöppel, T., Wall, W.A. (2011): A novel computational approach for modeling human erythrocytes in oscillating shear flow, EUROMECH Colloquium 521: Biomedical Flows at Low Reynolds Numbers, Zurich, Switzerland, August 29 - 31, 2011, Book of abstracts
- Klöppel, T, Popp, A., Küttler, U., Wall, W.A. (2011): Novel monolithic and partitioned fluid-structure interaction approaches for non-conforming interfaces based on a dual mortar method, 11th US National Congress on Computational Mechanics (USNCCM11), Minneapolis, USA, July 25-29, 2011
- Klöppel, T, Popp, A., Küttler, U., Wall, W.A. (2011): A novel dual mortar-based strategy for monolithic and partitioned fluid-structure interaction with non-conforming interfaces, 16th International Conference on Finite Elements in Flow Problems (FEF2011), Munich, Germany, March 23-25, 2011
- Klöppel, T., Wall, W.A. (2010): A Novel Two-Layer, Coupled Finite Element Approach for the Nonlinear Elastic and Viscoelastic Behavior of Human Erythrocytes, 4th European Conference on Computational Mechanics, Paris, France, May 16 - 21, 2010
- Klöppel, T., Wall, W.A. (2009): A Finite Element Approach for Static and Dynamic Simulations of Human Red Blood Cells, 3rd GACM Colloquium on Computational Mechanics, Hannover, Germany, Sept 21 - 23, 2009