Application of an adaptive bistable power capture mechanism to a point absorber wave energy converter

•The adaptive bistable mechanism greatly improves efficiency of point absorbers.•The adaptive bistable device performs better than linear and bistable converters.•The adaptive bistable mechanism dramatically broadens the frequency bandwidth. This work proposes a novel adaptive bistable power capture...

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Bibliographic Details
Published in:Applied energy 2018-10, Vol.228, p.450-467
Main Authors: Zhang, Xiantao, Tian, Xinliang, Xiao, Longfei, Li, Xin, Chen, Lifen
Format: Article
Language:English
Subjects:
Adaptive bistable
Point absorber
Power capture
Wave energy
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Summary:•The adaptive bistable mechanism greatly improves efficiency of point absorbers.•The adaptive bistable device performs better than linear and bistable converters.•The adaptive bistable mechanism dramatically broadens the frequency bandwidth. This work proposes a novel adaptive bistable power capture mechanism, which is applied to a point absorber wave energy converter in regular waves. The adaptive bistable mechanism is realized by two symmetrically oblique main springs (responsible for the bistable characteristics) together with two auxiliary springs (making the bistable system adaptive) and it can adjust the potential function automatically to lower the potential barrier near the unstable equilibrium position. The “adaptive” feature helps solve the low-energy-absorption problem of a conventional bistable wave energy device (whose potential function is invariable in time) caused by the intrawell oscillation in low-amplitude excitation. With a suitable choice of physical and geometric parameters, an adaptive bistable wave energy converter outperforms its linear counterpart while a conventional bistable wave energy device has a poorer performance in low amplitude waves. Even for relatively large waves, an adaptive bistable wave energy converter has a comparable power capture capacity with its conventional bistable counterpart, both of which perform better than a linear wave energy converter especially in the low wave frequency region.
ISSN:0306-2619
1872-9118
DOI:10.1016/j.apenergy.2018.06.100