Power extraction in regular and random waves from an OWC in hybrid wind-wave energy systems

A mathematical model is developed to analyse the hydrodynamics of a novel oscillating water column (OWC) in a hybrid wind-wave energy system. The OWC has a coaxial cylindrical structure in which the internal cylinder represents the mono-pile of an offshore wind turbine while the external cylinder ha...

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Bibliographic Details
Published in:Ocean engineering 2019-11, Vol.191, p.106519, Article 106519
Main Authors: Michele, S., Renzi, E., Perez-Collazo, C., Greaves, D., Iglesias, G.
Format: Article
Language:English
Subjects:
Oscillating water column
Wave energy
Wave–structure interactions
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Summary:A mathematical model is developed to analyse the hydrodynamics of a novel oscillating water column (OWC) in a hybrid wind-wave energy system. The OWC has a coaxial cylindrical structure in which the internal cylinder represents the mono-pile of an offshore wind turbine while the external cylinder has a skirt whose scope is to guide the wave energy flux inside the chamber. This layout is not casual, but consistent with the current approach to harnessing wave energy through hybrid systems. The device shape is rather complex and the boundary value problem is solved by applying the matching-method of eigenfunctions. Within the framework of a linearised theory, we model the turbine damping effects by assuming the airflow to be proportional to the air chamber pressure. Consequently, the velocity potential can be decomposed into radiation and diffraction problems. We study the effects of both skirt and internal radius dimensions on the power extraction efficiency for monochromatic and random waves. We show that the skirt has strong effects on the global behaviour, while the internal cylinder affects the values of the sloshing eigenfrequencies. Finally, we validate the analytical model with laboratory data and show a good agreement between analytical and experimental results. •The device presents a skirt whose scope is to guide the wave energy flux.•The airflow through the turbine is proportional to the air chamber pressure.•Good agreements between analytical and experimental results are shown.
ISSN:0029-8018
1873-5258
DOI:10.1016/j.oceaneng.2019.106519