Abstract
The outcomes of reliability based design
methods applied to wave energy converters (WECs) in the
early stages of development depend heavily on the
uncertainty in the variables used to determine the loads
acting on, and responses of, devices. Open source software
has been developed in recent years to aid in the response
modelling of devices such as NEMOH, WEC-Sim and
OpenFOAM. Uncertainty in the estimation of the viscous
drag forces acting on a device has been identified as a key
source of error in diffraction and radiation based
hydrodynamic models. Different methods of determining
the drag coefficient are compared in the case of 2 heaving
point absorbers in the absence of PTOs.
This study uses physical model decay tests to try and
quantify the viscous damping for the X-MED buoy and
Uppsala University’s model WEC, a bottom referenced
point absorber similar to the full scale Seabased device. The
approach is then evaluated by applying the values obtained
for the drag coefficients to the hydrodynamic model WECSim which is then compared to physical model tank tests in
regular waves.
Original language | English |
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Number of pages | 0 |
Journal | Default journal |
Volume | 0 |
Issue number | 0 |
Publication status | Accepted/In press - 14 Jun 2019 |
Event | European wave and tidal energy conference (EWTEC) - Duration: 3 Jan 0001 → … |