A combined controller design of power system stabilizer and wind turbine drive-train damping filter

Research output: Chapter in Book/Report/Conference proceedingConference contribution book

1 Citation (Scopus)

Abstract

A coordinated power system stabiliser (PSS) design for wind turbine equipped with doubly-fed induction generator (DFIG) is presented in this paper. It is shown that the proposed control scheme enables the optimal performance for both the wind turbine structural loads damping and the power system damping. The interaction between wind turbine controller and PSS is studied by simulation. A holistic model including both the wind turbine and the electric network dynamics is employed for the assessment of controller performance. The influence of PSS control on wind turbine drive-train and tower are demonstrated. A generic network model is used to test the contribution that wind farm can make to the power system damping. It is shown that wind turbine is capable of providing similar damping response as synchronous generator do with acceptable increase of structural loads.
LanguageEnglish
Title of host publicationInternational Conference on Sustainable Power Generation and Supply (SUPERGEN 2012)
Place of PublicationPiscataway, NJ.
PublisherIEEE
Number of pages6
ISBN (Print)9781849196734
DOIs
Publication statusPublished - 31 Dec 2012
EventIET International Conference on Sustainable Power Generation and Supply - Hangzhou, China
Duration: 8 Sep 20129 Sep 2012
http://www.ukchinanet.com/UK-China%20Network_conference%20website%20HZ.html

Conference

ConferenceIET International Conference on Sustainable Power Generation and Supply
Abbreviated titleSUPERGEN 2012
CountryChina
CityHangzhou
Period8/09/129/09/12
Internet address

Fingerprint

Wind turbines
Damping
Controllers
Structural loads
Asynchronous generators
Circuit theory
Synchronous generators
Farms
Towers

Keywords

  • doubly-fed induction generato
  • power system stabilizer
  • drive-train damping filter
  • small signal stability
  • fault ride-through

Cite this

Zhang, F., Leithead, W., & Anaya-Lara, O. (2012). A combined controller design of power system stabilizer and wind turbine drive-train damping filter. In International Conference on Sustainable Power Generation and Supply (SUPERGEN 2012) Piscataway, NJ.: IEEE. https://doi.org/10.1049/cp.2012.1767
Zhang, F. ; Leithead, W. ; Anaya-Lara, O. / A combined controller design of power system stabilizer and wind turbine drive-train damping filter. International Conference on Sustainable Power Generation and Supply (SUPERGEN 2012). Piscataway, NJ. : IEEE, 2012.
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title = "A combined controller design of power system stabilizer and wind turbine drive-train damping filter",
abstract = "A coordinated power system stabiliser (PSS) design for wind turbine equipped with doubly-fed induction generator (DFIG) is presented in this paper. It is shown that the proposed control scheme enables the optimal performance for both the wind turbine structural loads damping and the power system damping. The interaction between wind turbine controller and PSS is studied by simulation. A holistic model including both the wind turbine and the electric network dynamics is employed for the assessment of controller performance. The influence of PSS control on wind turbine drive-train and tower are demonstrated. A generic network model is used to test the contribution that wind farm can make to the power system damping. It is shown that wind turbine is capable of providing similar damping response as synchronous generator do with acceptable increase of structural loads.",
keywords = "doubly-fed induction generato, power system stabilizer, drive-train damping filter, small signal stability, fault ride-through",
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Zhang, F, Leithead, W & Anaya-Lara, O 2012, A combined controller design of power system stabilizer and wind turbine drive-train damping filter. in International Conference on Sustainable Power Generation and Supply (SUPERGEN 2012). IEEE, Piscataway, NJ., IET International Conference on Sustainable Power Generation and Supply , Hangzhou, China, 8/09/12. https://doi.org/10.1049/cp.2012.1767

A combined controller design of power system stabilizer and wind turbine drive-train damping filter. / Zhang, F.; Leithead, W.; Anaya-Lara, O.

International Conference on Sustainable Power Generation and Supply (SUPERGEN 2012). Piscataway, NJ. : IEEE, 2012.

Research output: Chapter in Book/Report/Conference proceedingConference contribution book

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PY - 2012/12/31

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N2 - A coordinated power system stabiliser (PSS) design for wind turbine equipped with doubly-fed induction generator (DFIG) is presented in this paper. It is shown that the proposed control scheme enables the optimal performance for both the wind turbine structural loads damping and the power system damping. The interaction between wind turbine controller and PSS is studied by simulation. A holistic model including both the wind turbine and the electric network dynamics is employed for the assessment of controller performance. The influence of PSS control on wind turbine drive-train and tower are demonstrated. A generic network model is used to test the contribution that wind farm can make to the power system damping. It is shown that wind turbine is capable of providing similar damping response as synchronous generator do with acceptable increase of structural loads.

AB - A coordinated power system stabiliser (PSS) design for wind turbine equipped with doubly-fed induction generator (DFIG) is presented in this paper. It is shown that the proposed control scheme enables the optimal performance for both the wind turbine structural loads damping and the power system damping. The interaction between wind turbine controller and PSS is studied by simulation. A holistic model including both the wind turbine and the electric network dynamics is employed for the assessment of controller performance. The influence of PSS control on wind turbine drive-train and tower are demonstrated. A generic network model is used to test the contribution that wind farm can make to the power system damping. It is shown that wind turbine is capable of providing similar damping response as synchronous generator do with acceptable increase of structural loads.

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KW - power system stabilizer

KW - drive-train damping filter

KW - small signal stability

KW - fault ride-through

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M3 - Conference contribution book

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PB - IEEE

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Zhang F, Leithead W, Anaya-Lara O. A combined controller design of power system stabilizer and wind turbine drive-train damping filter. In International Conference on Sustainable Power Generation and Supply (SUPERGEN 2012). Piscataway, NJ.: IEEE. 2012 https://doi.org/10.1049/cp.2012.1767