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    Using Inerter for Offshore Floating Platform Vibration Control

    New search for: Ikoma, Tomoki
    New search for: Tabeta, Shigeru
    New search for: Lim, Soon Heng
    New search for: Wang, Chien Ming
    New search for: Bi, Kaiming
    New search for: Ma, Ruisheng
    New search for: Hao, Hong

    Offshore floating platforms (OFPs) are widely used in offshore industries for oil exploration and exploitation. Harsh environmental loads such as wind and sea waves may induce excessive vibrations to OFPs and endanger their safety. Inerter, which can produce a considerable apparent mass that is much larger than its physical mass through an amplifying mechanism by translating the linear motion into high-speed rotational motion, has been adopted for structural vibration control recently. The authors proposed using inerter for OFP vibration control. This paper will summarize the corresponding research works carried out by the authors in this area. In particular, analytical and experimental studies will be reported in detail.

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    Using Inerter for Offshore Floating Platform Vibration Control

    New search for: Ikoma, Tomoki
    New search for: Tabeta, Shigeru
    New search for: Lim, Soon Heng
    New search for: Wang, Chien Ming
    New search for: Bi, Kaiming
    New search for: Ma, Ruisheng
    New search for: Hao, Hong

    Offshore floating platforms (OFPs) are widely used in offshore industries for oil exploration and exploitation. Harsh environmental loads such as wind and sea waves may induce excessive vibrations to OFPs and endanger their safety. Inerter, which can produce a considerable apparent mass that is much larger than its physical mass through an amplifying mechanism by translating the linear motion into high-speed rotational motion, has been adopted for structural vibration control recently. The authors proposed using inerter for OFP vibration control. This paper will summarize the corresponding research works carried out by the authors in this area. In particular, analytical and experimental studies will be reported in detail.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Using Inerter for Offshore Floating Platform Vibration Control

    New search for: Ikoma, Tomoki
    New search for: Tabeta, Shigeru
    New search for: Lim, Soon Heng
    New search for: Wang, Chien Ming
    New search for: Bi, Kaiming
    New search for: Ma, Ruisheng
    New search for: Hao, Hong

    Offshore floating platforms (OFPs) are widely used in offshore industries for oil exploration and exploitation. Harsh environmental loads such as wind and sea waves may induce excessive vibrations to OFPs and endanger their safety. Inerter, which can produce a considerable apparent mass that is much larger than its physical mass through an amplifying mechanism by translating the linear motion into high-speed rotational motion, has been adopted for structural vibration control recently. The authors proposed using inerter for OFP vibration control. This paper will summarize the corresponding research works carried out by the authors in this area. In particular, analytical and experimental studies will be reported in detail.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Access

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    Document information
    Title:

    Using Inerter for Offshore Floating Platform Vibration Control

    Additional title:

    Lecture Notes in Civil Engineering

    Contributors:

    Ikoma, Tomoki (editor) / Tabeta, Shigeru (editor) / Lim, Soon Heng (editor) / Wang, Chien Ming (editor) / Bi, Kaiming (author) / Ma, Ruisheng (author) / Hao, Hong (author)

    Conference:

    World Conference on Floating Solutions ; 2023 ; Tokyo, Japan

    Published in:

    Proceedings of the Third World Conference on Floating Solutions ; Chapter: 25 ; 409-429

    Lecture Notes in Civil Engineering ; 465

    Publication date:

    2024-06-30

    Size:

    21 pages

    ISBN:

    978-981-97-0495-8 , 978-981-97-0494-1

    ISSN:

    2366-2565 , 2366-2557

    DOI:

    https://doi.org/10.1007/978-981-97-0495-8_25

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Offshore floating platform , Inerter , Vibration control Engineering , Offshore Engineering , Oceanography , Geoengineering, Foundations, Hydraulics , Sustainable Development , Geotechnical Engineering & Applied Earth Sciences

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