Growth through Research, development & demonstration in Offshore Wind
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To reduce costs and increase bolting safety for future large wind turbines.
Data collection for predicting underwater noise for installing and extracting monopiles with a vibr…
Development and calibration of corrosion fatigue models for the optimisation of the design and main…
Making the pile installation process as efficient as possible by means of testing a novel pile inst…
Improving the GDP installation technique by testing in different soil conditions, studying power ef…
Design, engineer, procure, construct and test a large-scale prototype of the GDP shaker
Testing the removal of piles at the end of their operational life
Hydraulic Pile Extraction Scale Tests for testing the removal of piles from the soil at the end of…
Lowering the construction cost for monopiles by addressing the effects of repeated loading in offsh…
Optimal design of monopiles by accounting for the effects of repetitive loading in offshore environ…
OPIS will enable the optimisation of monopile installation through scour protection. This reduces…
Reduction of uncertainties in wave load design for bottom fixed offshore foundations.
To design, construct and test Vibrojet® prototypes.
Demonstrating the Vibrojet® technique offshore
Innovative technology in the basis of the wind turbine: the Slip Joint connection
Development and practical implementation of one or more innovative technologies for the installatio…
Execution of static and dynamic tensile tests on four tubular mooring piles for floating offshore…
Analysis of static and dynamic tensile test data from four tubular mooring piles for floating offsh…
Investigating composite joint for jacket foundations to significantly reduce cost due to lighter st…
Next phase in investigating composite joints for jacket foundations to significantly reduce cost du…