Antonia Dallmeier

PhD Student

Munich

Summary

Driven by a passion for hydraulic engineering, I am curious in investigating the complex interaction of flow, sediment and vegetation. I'm a doctoral candidate with a background in Civil and Environmental Engineering specializing in numerical hydromorphodynamic modeling, with a strong emphasis on the openTELEMAC software environment. Besides, I am interested in developing and enhancing of hydrodynamic modeling tools to tackle complex physical processes as well as to ensure user-friendliness.

Overview

years of professional experience

Work History

Research Assistant, Chair Of Hydraulic Engineering

Technical University Of Munich

05.2020 - Current

Project work "ViewBay: Virtual Water Space Bavaria": large-scale coupling of hydrology and hydromorphodynamics for the whole of Bavaria
Project leader of the research cooperation "Research Exchange on Flow, Sediment and Vegetation Interaction of TUM and AU (Aalto University)"
Teaching and exam coordination

Education

Master of Science - Civil Engineering

Technical University of Munich

Munich, Germany

04.2001 -

Bachelor of Science - Environmental Engineering

Technical University of Munich

Munich, Germany

04.2001 -

Skills

Numerical Modeling (openTELEMAC, HydroAS, ANSYS Fluent)

Programming (Matlab, Fortran)

Teaching assistance

Microsoft Office

Research Paper Writing

Teamwork and Collaboration

Teaching

Bachelor Courses:

Hydraulic Engineering and Water Management - Basic Module
Hydraulic Engineering and Water Management - Supplementary Module
Construction in Hydraulic Engineering

Master Courses:

Hydraulics in Water Engineering

Additional Information

Dallier, A.; Kopmann, R.; Folke, F.; and Ruether, N. (2024). Assessment of different vegetation friction approaches in numerical hydrodynamic modeling. EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-10751, https://doi.org/10.5194/egusphere-egu24-10751.
Dallmeier, A.; Folke, F.; Rüther, N. (2023). Advanced representation of near-natural vegetation in hydrodynamic modelling. 29th TELEMAC-MASCARET Users Conference 2023, 12-13 October 2023, Karlsruhe, Germany, pp. 205-210.
Dallmeier, A.; Reisenbüchler, M.; Mauser, W.; Cerny, M. (2022). An Integrative Approach to Hydrological and Hydrodynamic Modelling of Flood Events. IAHR Europe Congress 2022. Athens, Greece, pp. 191-192.
Dallmeier, A.; Reisenbüchler, M.; Bui, M. D.; Rutschmann, P. (2020). Numerical Modelling of Sediment Transport at Weirs. Online proceedings of the XXVIIth TELEMAC-MASCARET User Conference. Antwerp, Belgium, pp. 9-14.

Timeline

Research Assistant, Chair Of Hydraulic Engineering

Technical University Of Munich

05.2020 - Current

Master of Science - Civil Engineering

Technical University of Munich

04.2001 -

Bachelor of Science - Environmental Engineering

Technical University of Munich

04.2001 -

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