Model Tests of a TLP Floating Offshore Wind Turbine with a Porous Outer Column
Mackay, E; Johanning, L; Shi, W; et al.Ning, D
Date: 31 October 2020
Publisher
ISOPE: International Society of Offshore and Polar Engineers
Abstract
This paper presents the results of scaled model tests of a tension leg platform (TLP) for a floating wind turbine, comprising a central solid cylinder with a porous outer cylinder. Tests were conducted with outer cylinders with porosities of 0\%, 15\% and 30\% and compared to a base case with no outer cylinder. For each configuration, ...
This paper presents the results of scaled model tests of a tension leg platform (TLP) for a floating wind turbine, comprising a central solid cylinder with a porous outer cylinder. Tests were conducted with outer cylinders with porosities of 0\%, 15\% and 30\% and compared to a base case with no outer cylinder. For each configuration, the total mass and centre of mass are kept constant to allow consistent comparison. It is shown that for the cases with a solid outer cylinder the surge motion resonance is shifted to a lower frequency due to the entrained mass of water inside and increased added mass of the outer cylinder. Increasing the porosity of the outer cylinder is shown to increase the frequency of the resonant response, bringing the resonant frequency closer to that of the base case with no outer cylinder. Increasing the porosity of the outer cylinder also reduces the amplitude of the resonant response. The use of a porous outer layer increases the quadratic drag on the body and significantly reduces the low frequency resonant response where the radiation damping is low.
Engineering
Faculty of Environment, Science and Economy
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