- Investigating the Vibration Mitigation Efficiency of Tuned Sloshing Dampers Using a Two-Fluid CFD Approach. Applied Sciences 12 (14), 2022, 7033 mehr…
- Discussing the appropriate ranges of y+ for the accuracy of CFD simulations at high Reynolds numbers, Conference Proceedings. 8th European-African Conference on Wind Engineering, 2022, 219-222 mehr…
- Investigating the applicability of shape sensitivities for improved wind comfort in balcony regions. 8th European-African Conference on Wind Engineering, 2022, 139-142 mehr…
- The 50-year anniversary of the Olympic Stadium in Munich as a motivator for advances in computational wind engineering. 8th European-African Conference on Wind Engineering, 2022, 223-226 mehr…
- Numerical modeling and simulation of lightweight structures – using the example of the Olympic Stadium in Munich on its 50th anniversary. 33. Forum Bauinformatik, 2022, 3-10 mehr…
- Detailed FSI modeling and HPC simulation of the Olympic stadium roof in Munich under wind loading. 10th edition of the conference on Textile Composites and Inflatable Structures, CIMNE, 2021 mehr…
- Gekoppelte numerische Simulation zur Bewertung von Reduktionsmassnahmen bei windinduzierten Schwingungen. In: Aufbruch zu neuen Methoden im Windingenieurwesen. Windtechnologische Gesellschaft (WTG) e.V., 2019 mehr…
- Fluid-structure-control interaction (FSCI): General algorithm and its application to the reduction of wind-induced vibrations of civil engineering structures. VIII International Conference on Coupled Problems in Science and Engineering, 2019 mehr…
- A multiply-partitioned methodology for fully-coupled computational wind-structure interaction simulation considering the inclusion of arbitrary added mass dampers. Journal of Wind Engineering and Industrial Aerodynamics 177, 2018, 117-135 mehr…
- Aeroelastic simulation of the wind-excited torsional vibration of a parabolic trough solar collector. Journal of Wind Engineering and Industrial Aerodynamics 165, 2017, 67-78 mehr…
- A novel fully-coupled computational wind-structure interaction approach for the design of added mass dampers. 7th European-African Conference on Wind Engineering, 2017 mehr…
- Der numerische Windkanal im Bauwesen - Potentiale und Herausforderungen am Beispiel flexibler Tragwerke. 20. Dresdner Baustatik-Seminar: Realität - Modellierung - Tragwerksplanung, 2016, 5-18 mehr…
- Shape-optimal design of wind-excited structures. Baustatik-Baupraxis Forschungskolloquium 2015, Döllnsee/Brandenburg, 2015 mehr…
Máté Péntek, M.Sc.
- Tel.: +49 (89) 289 - 22435
- Fax: fax +49 (89) 289 - 22421
- Sprechstunde: nach Vereinbarung / by arrangement
- Raum: 0101.Z1.017
- mate.pentek@tum.de
Lebenslauf
seit 2021 | Leiter des Komplexes Windingenieurwesen |
seit 2014 | Wissenschaftlicher Mitarbeiter am Lehrstuhl für Statik, Prof. Dr.-Ing. K.-U. Bletzinger |
2014 - 2017 | DAAD Stipendiat - Forschungsstipendium |
2012 - 2015 | Collegium Talentum Stipendiat |
2012 - 2014 | DAAD Stipendiat - Studienstipendium |
2012 - 2014 | M. Sc. Computational Mechanics, Technische Universität München |
2008 - 2012 | B. Eng. / Dipl. Ing. Bauingenieurwesen, Universitatea Tehnică din Cluj-Napoca |
Forschungsschwerpunkte
- Modellierung und numerische Simulation im Windingenieurwesen
- Reduktion von strömungsinduzierte Schwingungen
- Formoptimierung von windbelasteten Strukturen
- Adjungierte Sensitivitäten
Lehre
- Windingenieurwesen
- Betreuung von Studienarbeiten