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Technische Universität München

Lea Köglmeier, M.Sc.

Contact

  • Room: MW 1233
  • Email: lea.koeglmeier@tum.de
  • Phone: +49 (0) 89 289 15262
  • Fax: +49 (0) 89 289 15301
     

Research interests

  • Computational biomechanics
  • Multiphase porous media
  • Coupled 0D-3D lung models
     

Teaching

Articles in peer-reviewed international journals

  • Köglmeier, L.J., Wirthl, B., Eichinger, C.M., Temür, B.Z., Wall, W.A.,Coupled mixed-dimensional multiphase porous media approach for modeling airflow, blood flow, and gas exchange in the human lungs. Biomech Model Mechanobiol 25, 41 (2026). https://doi.org/10.1007/s10237-026-02064-8
  • Häusel, L.J., Nitzler J., Köglmeier, L.J., Wall, W.A., Multi-physics-enhanced Bayesian inverse analysis: Information gain from additional fields, Comput. Methods Appl. Mech. Eng. 452 (2026) 118735. doi:10.1016/j.cma.2026.118735
  • Geitner, C.M., Köglmeier, L.J., Frerichs, I., Langguth, P., Lindner, M., Schädler, D., Weiler, N., Becher, T., & Wall, W.A. (2024). Pressure- and time-dependent alveolar recruitment/derecruitment in a spatially resolved patient-specific computational model for injured human lungs. International Journal for Numerical Methods in Biomedical Engineering, e3787. https://doi.org/10.1002/cnm.3787
     

International conference contributions with abstract

  • Haeusel, L.J., Nitzler J., Köglmeier, L.J., Wall, W.A.(2025). Inverse Insights through Multiphysics: Learning From Coupled Fields. UNCECOMP 2025, Rhodes.
  • Köglmeier, L.J., Geitner, C.M., Temür, B.Z., Wirthl, B., Wall, W.A. (2024). A coupled multi-dimensional multiphase porous media approach for modeling the respiratory and circulatory system of the human lungs including gas exchange. VPH 2024, Stuttgart.
  • Köglmeier, L.J., Wall, W.A.(2024). A mixed-dimensional coupled multiphase approach for modeling air flow, blood flow, and gas exchange in human lungs. ECCOMAS Congress 2024, Lisbon
  • Köglmeier, L.J., Geitner, C.M., Temür, B.Z., Wirthl, B., & Wall, W.A. (2023). Towards a Coupled Multiphase Porous Media Approach for Modeling Air Flow, Blood Flow and Gas Exchange in the Human Lung. ICCB 2023, Vienna.
  • Geitner, C. M., Köglmeier, L.J., Becher, T., Frerichs, I., Weiler, N., & Wall, W.A. (2022). Computational modeling of alveolar recruitment/derecruitment dynamics in the diseased human lung. CMBE 2022, Milan.
     

Supervised student projects

  • Computational Modeling of Tumor Vasculature-Bound Nanoparticles, Term Paper, (in cooperation with Barbara Wirthl)
  • Visualization of the respiratory and circulatory system of the human lungs, Visualization Techniques in Computational Mechanics
  • Reduced-Dimensional Modeling of Pulmonary Circulation, Master Thesis, (in cooperation with Sebastian Pröll)
  • Towards a Comprehensive, Subject-Specific Computational Model of Animal Lungs, Term Paper, (in cooperation with Benedikt Goderbauer)
  • Visualization of Airway Trees in Blender, Visualization Techniques in Computational Mechanics, (in cooperation with Maximilian Ludwig)
  • Visualisierung von 0D-Linienelementen gekoppelt mit einem 3D porösen Medium, Visualization Techniques in Computational Mechanics
  • Investigation of Porous Media Approaches to Respiratory Zone Mechanics and Conclusions for Phenomenological Models, Term Paper, (in cooperation with Buğrahan Temür and Benedikt Goderbauer)
  • Computational Modelling of Pulmonary Edema in a Multiphase Porous Medium Model of the Human Lungs, Term Paper
  • Erstellung eines 3-D druckbaren Modells einer menschlichen Lunge, Visualization Techniques in Computational Mechanics, (in cooperation with Maximilian Ludwig)
  • Modeling of Gravity Effects in a Multiphase Porous Medium Model of the Human Lung, Bachelor Thesis
  • Development of an In Silico Model for the Investigation of Hydration-Dependent Stiffening Mechanisms in Collagen Fibrils, Master Thesis, (in cooperation with Maximilian Grill, Christoph Meier and Buğrahan Temür)


Awards

  • Teaching Award of the Bavarian State Government (Preis für gute Lehre 2023)
  • Ehrenurkunde für Exzellenz in der Lehre (2023)
     

Education

  • since 2022 Research Associate at the Institute for Computational Mechanics (Lehrstuhl für Numerische Mechanik), Technische Universität München, Germany
  • 2022 Master of Science (M.Sc.), Mechanical Engineering, Technische Universität München, Germany
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