Loads and Response of a Tension Leg Platform Wind Turbine with Non-Rotating Blades: An Experimental Study

Murfet, Timothy; Abdussamie, Nagi

doi:10.3390/jmse7030056

Cited by 14 publications

(10 citation statements)

References 32 publications

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“…It should be noted that all peak values of experimental data obtained from repeated runs were found to demonstrate good repeatability with a small coefficient of variation (CV), i.e., standard deviation/mean value, of ≤5%. This is consistent with the findings of the recent experiments conducted by the authors, as documented in [31,32]. With the addition of the external viscous correction and moonpool lid, the numerical decay test results showed a close correlation with the experimental data, particularly after the results settled into a more sinusoidal form.…”

Section: Numerical Model Validationssupporting

confidence: 91%

Mooring Analysis of a Floating OWC Wave Energy Converter

Pols

Gubesch

Abdussamie

et al. 2021

JMSE

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This investigation focuses on the modelling of a floating oscillating water column (FOWC) wave energy converter with a numerical code (ANSYS AQWA) based on potential flow theory. Free-floating motions predicted by the numerical model were validated against experimental data extrapolated from a 1:36 scale model device in regular and irregular sea states. Upon validation, an assessment of the device’s motions when dynamically coupled with a four-line catenary mooring arrangement was conducted at different incident wave angles and sea states ranging from operational to survivable conditions, including the simulation of the failure of a single mooring line. The lack of viscosity in the numerical modelling led to overpredicted motions in the vicinity of the resonant frequencies; however, the addition of an external linear damping coefficient was shown to be an acceptable method of mitigating these discrepancies. The incident wave angle was found to have a limited influence on the magnitudes of heave, pitch, and surge motions. Furthermore, the obtained results indicated that the mooring restoring force is controlled by the forward mooring lines under the tested conditions.

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Section: Numerical Model Validationssupporting

confidence: 91%

Mooring Analysis of a Floating OWC Wave Energy Converter

Pols

Gubesch

Abdussamie

et al. 2021

JMSE

Self Cite

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“…The model scale ratio is typically chosen in the range of 1:30-100 for FOWT tank testing [76]. Larger scale ratios (less than 30) are limited by the tank basin size, as well as economic considerations, whereas smaller scale ratios cause an increase in uncertainty, a decrease in repeatability, and a larger scale effect in extrapolating the results to full-scale size [77].…”

Section: Scale Issues In Model Testingmentioning

confidence: 99%

Analysis of Floating Offshore Wind Platform Hydrodynamics Using Underwater SPIV: A Review

et al. 2022

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There is a need for new numerical tools to capture the physics of floating offshore wind turbines (FOWTs) more accurately to refine engineering designs and reduce costs. The conventional measurement apparatuses in tank tests, including wave probes, velocity and current profilers, and Doppler sensors, are unable to provide a full 3D picture of velocity, pressure, turbulence, and vorticity profile. In tank tests, use of the underwater stereoscopic particle image velocimetry (SPIV) method to fully characterise the 3D flow field around floating wind platforms can overcome some of the limitations associated with classical measurement techniques and provide a rich source of validation data to advance high-fidelity numerical tools. The underwater SPIV method has been widely used for marine and offshore applications, including ship and propeller wakes, wave dynamics, and tidal stream turbines; however, to date, this technology has not seen widespread use for the hydrodynamic study of FOWTs. This paper provides a critical review of the suitability of underwater SPIV for analysing the hydrodynamics of FOWTs, reviews the challenges of using the method for FOWT tank test applications, and discusses the contributions the method can make to mitigating current research gaps in FOWT tank tests.

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“…For this reason, TLPs employ vertical mooring lines, called tendons or tethers, extending from their legs to the seabed where they are anchored [7]. The tethers are intended to maintain the stiffness of the mooring system while they provide a righting moment for stability purposes [30].…”

Section: Tlp-typementioning

confidence: 99%

Opportunities for crossfertilisation between the shipbuilding industry and the emergent offshore wind energy sector in Colombia

2021

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This paper provides a review and analysis of cross-fertilization opportunities between the shipbuilding industry in Colombia and the Offshore Wind Energy (OWE) sector. It is aimed to identify the main aspects involved in the design and construction of floating platforms for Offshore Wind Turbines (OWTs) and to examine the restrictions and capabilities of the Colombian shipbuilding industry for their implementation.

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Loads and Response of a Tension Leg Platform Wind Turbine with Non-Rotating Blades: An Experimental Study

Cited by 14 publications

References 32 publications

Mooring Analysis of a Floating OWC Wave Energy Converter

Mooring Analysis of a Floating OWC Wave Energy Converter

Analysis of Floating Offshore Wind Platform Hydrodynamics Using Underwater SPIV: A Review

Opportunities for crossfertilisation between the shipbuilding industry and the emergent offshore wind energy sector in Colombia

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