Application of a negative stiffness mechanism on pitching wave energy devices

Adi Kurniawan, Xiantao Zhang

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Resumé

Harnessing energy from ocean waves in an economic manner remains a challenge. Recent efforts are targeted at improving the performance of a wave energy device without resorting to reactive control. One such strategy is to use a negative stiffness mechanism. Theoretically, negative stiffness is able not only to lengthen the resonance period of the device, but also to broaden its resonance bandwidth, thus making it potentially capable of capturing energy from a broader spectrum of incoming waves. This study aims to extend the application of such mechanism to pitching wave energy devices by studying Salter-duck type devices as a specific case. We consider first a single duck, and then two lines of multiple ducks meeting at an angle. The analysis is carried out using linear frequency-domain models. For this purpose, equivalent linearised stiffness of the negative stiffness mechanism is derived. Our study confirms that negative stiffness improves the power performance of pitching devices. However, it is most effective when the pitch rotation axis is fixed. It becomes less effective when the axis is allowed to move.
OriginalsprogEngelsk
TitelProceedings of the 5th Offshore Energy and Storage Symposium
Publikationsdato2018
StatusUdgivet - 2018
Begivenhed5th Offshore Energy and Storage Symposium - University of Nottingham Ningbo China, Ningbo, Kina
Varighed: 4 jul. 20186 jul. 2018
https://www.nottingham.edu.cn/en/research/oses/oses.aspx

Konference

Konference5th Offshore Energy and Storage Symposium
LokationUniversity of Nottingham Ningbo China
LandKina
ByNingbo
Periode04/07/201806/07/2018
Internetadresse

Fingeraftryk

Stiffness
Water waves
Bandwidth
Economics

Emneord

    Citer dette

    Kurniawan, A., & Zhang, X. (2018). Application of a negative stiffness mechanism on pitching wave energy devices. I Proceedings of the 5th Offshore Energy and Storage Symposium
    Kurniawan, Adi ; Zhang, Xiantao. / Application of a negative stiffness mechanism on pitching wave energy devices. Proceedings of the 5th Offshore Energy and Storage Symposium. 2018.
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    title = "Application of a negative stiffness mechanism on pitching wave energy devices",
    abstract = "Harnessing energy from ocean waves in an economic manner remains a challenge. Recent efforts are targeted at improving the performance of a wave energy device without resorting to reactive control. One such strategy is to use a negative stiffness mechanism. Theoretically, negative stiffness is able not only to lengthen the resonance period of the device, but also to broaden its resonance bandwidth, thus making it potentially capable of capturing energy from a broader spectrum of incoming waves. This study aims to extend the application of such mechanism to pitching wave energy devices by studying Salter-duck type devices as a specific case. We consider first a single duck, and then two lines of multiple ducks meeting at an angle. The analysis is carried out using linear frequency-domain models. For this purpose, equivalent linearised stiffness of the negative stiffness mechanism is derived. Our study confirms that negative stiffness improves the power performance of pitching devices. However, it is most effective when the pitch rotation axis is fixed. It becomes less effective when the axis is allowed to move.",
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    Kurniawan, A & Zhang, X 2018, Application of a negative stiffness mechanism on pitching wave energy devices. i Proceedings of the 5th Offshore Energy and Storage Symposium., Ningbo, Kina, 04/07/2018.

    Application of a negative stiffness mechanism on pitching wave energy devices. / Kurniawan, Adi; Zhang, Xiantao.

    Proceedings of the 5th Offshore Energy and Storage Symposium. 2018.

    Publikation: Bidrag til bog/antologi/rapport/konference proceedingKonferenceartikel i proceedingForskningpeer review

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    N2 - Harnessing energy from ocean waves in an economic manner remains a challenge. Recent efforts are targeted at improving the performance of a wave energy device without resorting to reactive control. One such strategy is to use a negative stiffness mechanism. Theoretically, negative stiffness is able not only to lengthen the resonance period of the device, but also to broaden its resonance bandwidth, thus making it potentially capable of capturing energy from a broader spectrum of incoming waves. This study aims to extend the application of such mechanism to pitching wave energy devices by studying Salter-duck type devices as a specific case. We consider first a single duck, and then two lines of multiple ducks meeting at an angle. The analysis is carried out using linear frequency-domain models. For this purpose, equivalent linearised stiffness of the negative stiffness mechanism is derived. Our study confirms that negative stiffness improves the power performance of pitching devices. However, it is most effective when the pitch rotation axis is fixed. It becomes less effective when the axis is allowed to move.

    AB - Harnessing energy from ocean waves in an economic manner remains a challenge. Recent efforts are targeted at improving the performance of a wave energy device without resorting to reactive control. One such strategy is to use a negative stiffness mechanism. Theoretically, negative stiffness is able not only to lengthen the resonance period of the device, but also to broaden its resonance bandwidth, thus making it potentially capable of capturing energy from a broader spectrum of incoming waves. This study aims to extend the application of such mechanism to pitching wave energy devices by studying Salter-duck type devices as a specific case. We consider first a single duck, and then two lines of multiple ducks meeting at an angle. The analysis is carried out using linear frequency-domain models. For this purpose, equivalent linearised stiffness of the negative stiffness mechanism is derived. Our study confirms that negative stiffness improves the power performance of pitching devices. However, it is most effective when the pitch rotation axis is fixed. It becomes less effective when the axis is allowed to move.

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    KW - Numerical Model

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    Kurniawan A, Zhang X. Application of a negative stiffness mechanism on pitching wave energy devices. I Proceedings of the 5th Offshore Energy and Storage Symposium. 2018