Optimal controller design of a doubly fed induction generator wind turbine system for small signal stability enhancement

Publication: Research - peer-reviewJournal article – Annual report year: 2010

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Optimal controller design of a doubly fed induction generator wind turbine system for small signal stability enhancement. / Yang, Lihui; Yang, Guang-Ya; Xu, Zhao; Dong, Zhao Yang; Wong, Kit Po; Ma, Xikui.

In: I E T Generation, Transmission and Distribution, Vol. 4, No. 5, 2010, p. 579 - 597.

Publication: Research - peer-reviewJournal article – Annual report year: 2010

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Author

Yang, Lihui; Yang, Guang-Ya; Xu, Zhao; Dong, Zhao Yang; Wong, Kit Po; Ma, Xikui / Optimal controller design of a doubly fed induction generator wind turbine system for small signal stability enhancement.

In: I E T Generation, Transmission and Distribution, Vol. 4, No. 5, 2010, p. 579 - 597.

Publication: Research - peer-reviewJournal article – Annual report year: 2010

Bibtex

@article{b3e52b66937d4bf79b8b017bb7cca151,
title = "Optimal controller design of a doubly fed induction generator wind turbine system for small signal stability enhancement",
publisher = "The/Institution of Engineering and Technology",
author = "Lihui Yang and Guang-Ya Yang and Zhao Xu and Dong, {Zhao Yang} and Wong, {Kit Po} and Xikui Ma",
year = "2010",
doi = "10.1049/iet-gtd.2009.0553",
volume = "4",
number = "5",
pages = "579 -- 597",
journal = "I E T Generation, Transmission and Distribution",
issn = "1751-8687",

}

RIS

TY - JOUR

T1 - Optimal controller design of a doubly fed induction generator wind turbine system for small signal stability enhancement

A1 - Yang,Lihui

A1 - Yang,Guang-Ya

A1 - Xu,Zhao

A1 - Dong,Zhao Yang

A1 - Wong,Kit Po

A1 - Ma,Xikui

AU - Yang,Lihui

AU - Yang,Guang-Ya

AU - Xu,Zhao

AU - Dong,Zhao Yang

AU - Wong,Kit Po

AU - Ma,Xikui

PB - The/Institution of Engineering and Technology

PY - 2010

Y1 - 2010

N2 - Multi-objective optimal controller design of a doubly-fed induction generator (DFIG) wind turbine system using differential evolution (DE) is presented. A detailed mathematical model of DFIG wind turbine with a closed-loop vector control system is developed. Based on this, objective functions addressing the steady-state stability and dynamic performance at different operating conditions are implemented to optimise the controller parameters of both the rotor and grid-side converters. A superior 1-constraint method and method of adaptive penalties are applied to handle the multi-objective problem and the constraint with DE, respectively. Eigenvalue analysis and time-domain simulations are performed on a single machine infinite bus system as well as a nine-bus multi-machine system with two DFIG wind turbines to illustrate the control performance of the DFIG wind turbine with the optimised controller parameters. The electric energy productions of the studied DFIG wind turbine system with and without optimised controller parameters under turbulent wind speed are also demonstrated.

AB - Multi-objective optimal controller design of a doubly-fed induction generator (DFIG) wind turbine system using differential evolution (DE) is presented. A detailed mathematical model of DFIG wind turbine with a closed-loop vector control system is developed. Based on this, objective functions addressing the steady-state stability and dynamic performance at different operating conditions are implemented to optimise the controller parameters of both the rotor and grid-side converters. A superior 1-constraint method and method of adaptive penalties are applied to handle the multi-objective problem and the constraint with DE, respectively. Eigenvalue analysis and time-domain simulations are performed on a single machine infinite bus system as well as a nine-bus multi-machine system with two DFIG wind turbines to illustrate the control performance of the DFIG wind turbine with the optimised controller parameters. The electric energy productions of the studied DFIG wind turbine system with and without optimised controller parameters under turbulent wind speed are also demonstrated.

U2 - 10.1049/iet-gtd.2009.0553

DO - 10.1049/iet-gtd.2009.0553

JO - I E T Generation, Transmission and Distribution

JF - I E T Generation, Transmission and Distribution

SN - 1751-8687

IS - 5

VL - 4

SP - 579

EP - 597

ER -