H. Hendrikse (Hayo)

Profile

Hayo Hendrikse holds MSc and PhD degrees in Civil Engineering from Delft University of Technology. His PhD work on ice-induced vibrations he executed part-time at NTNU as part of the SAMCoT project. In the past he worked on deep sea mining for IHC Merwede.

Dr. Hendrikse is the chairman of the board of studies of the Master Offshore and Dredging Engineering at TU Delft and a member of the IAHR Ice Research and Engineering Committee.

Research

The main research topic of Dr. Hendrikse is dynamic ice-structure interaction. He currently leads the SHIVER research project which focusses on ice-induced vibrations of offshore wind turbines and is involved in the European FATICE project studying fatigue at low temperatures. Besides this, he works on the slip-joint development for offshore wind representing TU Delft in the SJOQ project and the development of a wave-energy converter at TU Delft.

For a complete overview of research activities please visit the lab page of Dr. Hendrikse on ResearchGate.

Educational Activities

MSc. courses

  • OE44005 – Introduction to offshore engineering
  • OE44115 – Arctic Engineering
  • AT327 – Arctic Offshore Engineering (Guest lecturer at the University Centre In Svalbard)

Hendrikse also guides a large number of MSc students for their MSc thesis (OE54035).

Key Publications

H. Hendrikse, T. Nord (2019). Dynamic response of an offshore structure interacting with an ice floe failing in crushing. Mar. Struct., 65:271-290.

H. Hendrikse, G. Ziemer, C. Owen (2018). Experimental validation of a model for prediction of dynamic ice-structure interaction. Cold Reg. Sci. Technol., 151:345-358.

M. Seidel, H. Hendrikse (2018). Analytical assessment of sea ice-induced frequency lock-in for offshore wind turbine monopiles. Mar. Struct., 60:87-100.

H. Hendrikse, A. Metrikine (2016). Ice-induced vibrations and ice buckling. Cold Reg. Sci. Technol., 131:129-141.

H. Hendrikse, A. Metrikine (2015). Interpretation and prediction of ice induced vibrations based on contact area variation. Int. J. Solids Struct., 75-76:336-348.

Other Activities

Other activities of Dr. Hendrikse include:

  • Contributing to the development of the ISO 19906 design standard for Arctic Offshore structures
  • Providing expert input related to ice loading for offshore wind projects
  • Co-authoring the 50-year anniversary book of KIVI Offshore Techniek

Hayo Hendrikse

Assistant Professor Ice-Structure Interaction