Fachinformationsdienst BAUdigital

A platform for research: civil engineering, architecture and urbanism

    Load analysis of look-ahead collective pitch control using LIDAR

    New search for: Schlipf, David
    New search for: Fischer, Tim
    New search for: Rossetti, Michele
    New search for: Bossanyi, Ervin
    New search for: Universität Stuttgart

    In a detailed analysis the benefit of LIDAR assisted collective pitch control is evaluated, by using a realistic LIDAR simulator and comparing it to an advanced feedback controller. With the proposed look-ahead controller best load reduction can be observed for high turbulence and high wind speed. Damage equivalent loads on tower and blades are reduced up to 20% and 10%, respectively.

    Access

    Download
    Check availability in my library

    Access

    Download
    Check availability in my library

    Page navigation

    Document information
    Similar titles

    Export, share and cite

    Load analysis of look-ahead collective pitch control using LIDAR

    New search for: Schlipf, David
    New search for: Fischer, Tim
    New search for: Rossetti, Michele
    New search for: Bossanyi, Ervin
    New search for: Universität Stuttgart

    In a detailed analysis the benefit of LIDAR assisted collective pitch control is evaluated, by using a realistic LIDAR simulator and comparing it to an advanced feedback controller. With the proposed look-ahead controller best load reduction can be observed for high turbulence and high wind speed. Damage equivalent loads on tower and blades are reduced up to 20% and 10%, respectively.

    Access

    Download
    Check availability in my library

    Load analysis of look-ahead collective pitch control using LIDAR

    New search for: Schlipf, David
    New search for: Fischer, Tim
    New search for: Rossetti, Michele
    New search for: Bossanyi, Ervin
    New search for: Universität Stuttgart

    In a detailed analysis the benefit of LIDAR assisted collective pitch control is evaluated, by using a realistic LIDAR simulator and comparing it to an advanced feedback controller. With the proposed look-ahead controller best load reduction can be observed for high turbulence and high wind speed. Damage equivalent loads on tower and blades are reduced up to 20% and 10%, respectively.

    Access

    Download
    Check availability in my library

    Access

    Download
    Check availability in my library

    Page navigation

    Document information
    Similar titles

    Export, share and cite

    Document information
    Title:

    Load analysis of look-ahead collective pitch control using LIDAR

    Contributors:

    Schlipf, David (author) / Fischer, Tim (author) / Carcangiu, Carlo Enrico (author) / Rossetti, Michele (author) / Bossanyi, Ervin (author) / Universität Stuttgart (host institution)

    Publication date:

    2010

    DOI:

    https://doi.org/10.18419/opus-3902

    Type of media:

    Miscellaneous

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Windenergie , Lidar , Regelung , Vorsteuerung , lidar , wind energy , load reduction , feed forward control

    Classification:

    DDC:  624

    Similar titles

    Look-ahead cyclic pitch control using LIDAR

    Schlipf, David / Schuler, Simone / Grau, Patrick et al. | DataCite | 2010

    LIDAR assisted collective pitch control

    Schlipf, David / Bossanyi, Ervin / Carcangiu, Carlo Enrico et al. | DataCite | 2011

    Collective pitch feedforward control of floating wind turbines using lidar

    Schlipf, David / Simley, Eric / Lemmer, Frank et al. | DataCite | 2015

    Field testing of feedforward collective pitch control on the CART2 using a nacelle-based lidar scanner

    Schlipf, David / Fleming, Paul / Haizmann, Florian et al. | DataCite | 2012

    Look Ahead

    Hu, Ming | Springer Verlag | 2020

    Back to top