Born in 1980 in Dachau and graduated from Reuchlin Gymnasium (Ingolstadt) in 1999. Attended Berlin University of Technology for studying naval architecture and ocean engineering in 2000. After the project thesis at The Hamburg Ship Model Basin (HSVA) in 2004 and Global Product Development course (University of Michigan) the master’s thesis was conducted at BMT Fleet Technology in Ottawa, CA, 2006. After graduation he joined Allseas bv in Delft, NL in early 2007, as naval architect. In late 2008 he was commencing doctoral studies at Helsinki University of Technology (HUT) as Researcher. In 2010 becoming laboratory manager of the ice tank at Aalto University (former HUT) as well as doctoral student at the Norwegian University of Technology (NTNU) in 2012 (joined degree with Aalto University). The graduation followed in 2016 as Doctor of Science from Aalto University (mid. 2016) and Ph.D. from NTNU (late 2016). From August 2016 until February 2022 he was the senior research engineer (Oberingenieur) at the Hamburg University of Technology and responsible for teaching, research and the strength lab. From October 2020 he was in part time Acting Professor at the Universität Hamburg for Ocean Dynamics in a Changing Climate. Since March 2022 he is the Head of the Institute for Ship Structural Design and Analysis.

Involvement in the following committees:

  • ITTC 29 (International Towing Tank Conference), Specialists Committee on Ice (Secretary)
  • since 2019 financial auditor of the ITTC
  • Member of the Executive Committee of the ASME, OOAE Division (OMAE conference)
  • ISSC (International Ship Structures Committee) on Environmental Loads

Hamburg University of Technology
Institute for Ship Structural Design and Analysis (M-10)
Am Schwarzenberg Campus 4 c
21073 Hamburg

Gebäude C – 4.012

+49 40 42878 – 6095



  • TSchall
  • LifeExt (cooperation with Chalmers University)
  • Waves breaking up sea ice (cooperation with Melbourne University)

Research work on

  • Ice structure interaction
  • Model-scale ice mechanics
  • Scaling methods of ice structure interaction
  • Arctic ship design
  • Wave ice interaction
  • Fatigue of materials
  • Fatigue and life-time extending measures


  • Projekt based learning: Ship structural design for artic conditions (co-lecturer)
  • Laboratory on Naval Architecture (co-lecturer, structural part)
  • Problem-based Learning: Special topics of ship structural design (co-lecturer)
  • Ship Vibrations
  • Supervision of Project-, Bachelor- and Master theses

Research identity

Research Gate
Google Scholar