Book ChapterDOI
8.05 – Air Turbines
A.F.O. Falcão,L.M.C. Gato +1 more
- Vol. 8, pp 111-149
TLDR
In this paper, the authors presented the aerodynamic theory of axial-flow turbines and applied it to the Wells turbine and the impulse turbine, including their variants, in order to analyze their integration into the OWC wave energy converter.Abstract:
Air turbines are used to equip oscillating water column wave energy converters. In almost every case, self-rectifying turbines have been adopted which do not require non-return valves to rectify the reciprocating air flow induced by the water column oscillations. The most frequently used or proposed self-rectifying air turbines are the Wells turbine and the impulse turbine, both of axial-flow type. The fundamentals of the aerodynamic theory of axial-flow turbines are presented and then applied to the Wells turbine and the impulse turbine, including their variants. Information is given on methods of, and results from, air turbine model testing, as well as on self-rectifying air turbines that equipped or equip prototypes tested in the sea. The final part of the chapter is devoted to the analysis of turbine integration into OWC wave energy converter.read more
Citations
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Journal ArticleDOI
Wells turbine for wave energy conversion: a review
TL;DR: In this article, the authors provide an updated and a comprehensive account of the state of the art research on Wells turbine and draw a roadmap for the contemporary challenges which may hinder future reliance on such systems in the renewable energy sector.
Journal ArticleDOI
Design of oscillating-water-column wave energy converters with an application to self-powered sensor buoys
João C.C. Henriques,J.C.C. Portillo,Luís M.C. Gato,R.P.F. Gomes,Deisemara Ferreira,António F.O. Falcão +5 more
TL;DR: In this article, the authors present a new systematic methodology for optimum design of wave energy converters, which is applied to design two self-powered sensor buoys for long term monitoring based on the oscillating water column principle.
Journal ArticleDOI
Testing and control of a power take-off system for an oscillating-water-column wave energy converter
João C.C. Henriques,R.P.F. Gomes,Luís M.C. Gato,António F.O. Falcão,E. Robles,Salvador Ceballos +5 more
TL;DR: In this article, a power take-off control of an OWC (oscillating-water-column) spar-buoy wave energy converter was investigated. And the experimental results allowed the dynamic behaviour of the PTO to be characterized and provided validation of the proposed control algorithms that ensure operation within safe limits.
Journal ArticleDOI
Improved design of a Wells turbine for higher operating range
TL;DR: In this article, a numerical work relying on design optimization is reported to show the dependency of power extraction capability to the operating range of the turbine, and a surrogate approximation model was constructed to find an optimal design.
Journal ArticleDOI
Dynamics and control of air turbines in oscillating-water-column wave energy converters: Analyses and case study
TL;DR: In this article, a detailed analysis of the dynamics and control of air turbines and electrical generators in oscillating-water-columns (OWCs) is presented to explain the performance of an OWC device based on the physical behaviour of each system component.
References
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Journal ArticleDOI
Effect of Pitch-Controlled Guide Vanes on the Performance of a Radial Turbine for Wave Power Conversion
Journal ArticleDOI
取付け角を有する波力発電用空気タービンに関する研究 : 流体工学,流体機械
TL;DR: In this paper, an air turbine with staggered blades is presented and investigated experimentally by model testing, and the running and starting characteristics under sinusoidally oscillating flow conditions have been clarified by a computer simulation using a quasi-steady analysis.
Proceedings ArticleDOI
Analysis of Power Modules in the Indian Wave Energy Plant
TL;DR: In this article, the turbine efficiency of a near shore Oscillating Water Column (OWC) based Indian wave energy plant was investigated with several conceptually different power modules, including a tapered chord Wells' turbine, a linked guide vane (LGV) impulse turbine, and a fixed guide van (FGV) turbine, while using the same grid connected induction generator.