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    Power hardware in the loop validation of fault ride through of VSC HVDC connected offshore wind power plants

    New search for: Ranjan Sharma
    New search for: Qiuwei Wu
    New search for: Seung Tae Cha
    New search for: Kim H. Jensen
    New search for: Tonny W. Rasmussen
    New search for: Jacob Ostegaard

    This paper presents the power hardware in the loop (PHIL) validation of a feed forward DC voltage control scheme for the fault ride through (FRT) of voltage source converter (VSC) high voltage DC (HVDC) connected offshore wind power plants (WPPs). In the proposed FRT scheme, the WPP collector network AC voltage is actively controlled by considering both the DC voltage error and the AC current from the WPP AC collector system which ensures fast and robust FRT of the VSC HVDC connected offshore WPPs. The PHIL tests were carried out in order to verify the efficacy of the proposed feed forward DC voltage control scheme for enhancing the FRT capability of the VSC HVDC connected WPPs. The PHIL test results have demonstrated the proper control coordination between the offshore WPP and the WPP side VSC and the efficient FRT of the VSC HVDC connected WPPs.

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    Power hardware in the loop validation of fault ride through of VSC HVDC connected offshore wind power plants

    New search for: Ranjan Sharma
    New search for: Qiuwei Wu
    New search for: Seung Tae Cha
    New search for: Kim H. Jensen
    New search for: Tonny W. Rasmussen
    New search for: Jacob Ostegaard

    This paper presents the power hardware in the loop (PHIL) validation of a feed forward DC voltage control scheme for the fault ride through (FRT) of voltage source converter (VSC) high voltage DC (HVDC) connected offshore wind power plants (WPPs). In the proposed FRT scheme, the WPP collector network AC voltage is actively controlled by considering both the DC voltage error and the AC current from the WPP AC collector system which ensures fast and robust FRT of the VSC HVDC connected offshore WPPs. The PHIL tests were carried out in order to verify the efficacy of the proposed feed forward DC voltage control scheme for enhancing the FRT capability of the VSC HVDC connected WPPs. The PHIL test results have demonstrated the proper control coordination between the offshore WPP and the WPP side VSC and the efficient FRT of the VSC HVDC connected WPPs.

    Access

    Download

    Power hardware in the loop validation of fault ride through of VSC HVDC connected offshore wind power plants

    New search for: Ranjan Sharma
    New search for: Qiuwei Wu
    New search for: Seung Tae Cha
    New search for: Kim H. Jensen
    New search for: Tonny W. Rasmussen
    New search for: Jacob Ostegaard

    This paper presents the power hardware in the loop (PHIL) validation of a feed forward DC voltage control scheme for the fault ride through (FRT) of voltage source converter (VSC) high voltage DC (HVDC) connected offshore wind power plants (WPPs). In the proposed FRT scheme, the WPP collector network AC voltage is actively controlled by considering both the DC voltage error and the AC current from the WPP AC collector system which ensures fast and robust FRT of the VSC HVDC connected offshore WPPs. The PHIL tests were carried out in order to verify the efficacy of the proposed feed forward DC voltage control scheme for enhancing the FRT capability of the VSC HVDC connected WPPs. The PHIL test results have demonstrated the proper control coordination between the offshore WPP and the WPP side VSC and the efficient FRT of the VSC HVDC connected WPPs.

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    Download

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    Title:

    Power hardware in the loop validation of fault ride through of VSC HVDC connected offshore wind power plants

    Contributors:

    Ranjan Sharma (author) / Qiuwei Wu (author) / Seung Tae Cha (author) / Kim H. Jensen (author) / Tonny W. Rasmussen (author) / Jacob Ostegaard (author)

    Published in:

    Journal of Modern Power Systems and Clean Energy, Vol 2, Iss 1, Pp 23-29 (2014)

    Publication date:

    2014

    ISSN:

    2196-5420

    DOI:

    https://doi.org/10.1007/s40565-014-0049-z

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Fault ride through , High voltage DC (HVDC) , Offshore wind power plant , Power hardware in the loop (PHIL) , Voltage source converter (VSC) , Production of electric energy or power. Powerplants. Central stations , TK1001-1841 , Renewable energy sources , TJ807-830

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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