Projects
Contact person, projects
Publications
- A Wave Drift Force Model for Semi-Submersible Types of Floating Wind Turbines in Large Waves and Current
- Effect of body motion on the wave loads computed with CFD on the INO-WINDMOOR floater
- Assessment of nylon versus polyester ropes for mooring of floating wind turbines Read publication
- Modelling of Synthetic Fibre Rope Mooring for Floating Offshore Wind Turbines Read publication
- Prediction of Heave and Pitch Low Frequency Wave Forces and Motions of a Semi-Submersible Floating Wind Turbine and Comparison With Model Test Data
- Comparison of Morison Forces With CFD Modelling for a Surface Piercing Column of a FOWT
- Ocean space utilization Read publication
- Identification of wave drift forces on a floating wind turbine sub-structure with heave plates and comparison with predictions Read publication
- Increase of Wave Drift Forces in Severe Seastates Due to Wave Frequency Viscous Damping
- The Likely Cause of Loss of Position for Dynamically Positioned Semi-Submersibles Under Moderate Wave Conditions
Other
- Corrigendum to “Assessment of nylon versus polyester ropes for mooring of floating wind turbines” [Ocean Engineering, 278 (June 2023)] (Ocean Engineering (2023) 278, (S0029801823007230), (10.1016/j.oceaneng.2023.114339))
- Effect of body motion on the wave loads computed with CFD on the INO-WINDMOOR floater
- Prediction of Heave and Pitch Low Frequency Wave Forces and Motions of a Semi-Submersible Floating Wind Turbine and Comparison With Model Test Data
- Ocean basin tests with the mooring sense floating wind turbine - Methods, challenges and preliminary observations.
- Comparison of Morison Forces with CFD Modelling for a Surface Piercing Column of a FOWT
- Influence of synthetic rope stiffness models on mooring analysis of floating offshore wind turbines
- Quadratic Transfer Functions made simple
- Sensitivity of a Floating Bridge Global Responses to Different Wave Drift Force Models
- Identification of wave drift force QTFs for the INO WINDMOOR floating wind turbine based on model test data and comparison with potential flow predictions
- EXPERIMENTAL INVESTIGATION OF THE COUPLING BETWEEN AERO- AND HYDRODYNAMICAL LOADS ON A 12 MW SEMI-SUBMERSIBLE FLOATING WIND TURBINE