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Optimal control of wave cycloidal rotors with passively morphing foils: An analytical and numerical study
In this paper we perform an analytical and numerical study of the performance of a wave cycloidal rotor in irregular waves, with passively morphing foils and variable rotational velocity control. The performance is measured in two ways: Mechanical power, and fatigue damage in a sample stress hot spo...
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Published in: | Marine structures 2024-05, Vol.95, p.103597, Article 103597 |
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Main Authors: | , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites |
Online Access: | Get full text |
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Summary: | In this paper we perform an analytical and numerical study of the performance of a wave cycloidal rotor in irregular waves, with passively morphing foils and variable rotational velocity control. The performance is measured in two ways: Mechanical power, and fatigue damage in a sample stress hot spot located at the fixed end of the hydrofoils. We consider different strategies seeking to both maximise power extraction and reduce fatigue damage. To maximise power, we consider both constant and variable rotational speed. To mitigate fatigue damage, we consider, for the first time, morphing foils in the context of a wave cycloidal rotor. By testing these control strategies in isolation and in combination, and with the aid of high performance computations, we find that variable rotational speed, in combination with morphing foils, offers the best compromise to enhance power production with a reduced structural penalty on the sample stress hot spot. Hence, in this work, we demonstrate that novel control strategies, such as those proposed in this work, can hold the key in reducing the levelised cost of energy and accelerate the commercialisation of the next generation of lift-based wave energy converters.
•First study of optimal control and morphing foils for wave cycloidal rotors.•Morphing foils with variable rotational speed could enhance performance.•First study to apply morphing foils to Wave Energy Converters in irregular waves.•Fatigue damage considered at foil stress hot spot of wave cycloidal rotor.•The proposed control strategy could reduce the conventional motor requirements. |
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ISSN: | 0951-8339 1873-4170 |
DOI: | 10.1016/j.marstruc.2024.103597 |