Resonance damping in array cable systems by wind turbine active filtering in large offshore wind power plants

被引：20

作者：

Kocewiak, Lukasz Hubert ^{[1
]}

Kramer, Birte Laudal Ohlenschlaeger ^{[1
]}

Holmstrom, Ole ^{[1
]}

Jensen, Kim Hoj ^{[2
]}

Shuai, Lei ^{[2
]}

机构：

[1] DONG Energy Wind Power, Elect Syst Anal, Fredericia, Denmark

[2] Siemens Wind Power, Lyngby, Denmark

来源：

IET RENEWABLE POWER GENERATION | 2017年 / 11卷 / 07期

关键词：

wind power; offshore installations; wind turbines; active filters; power harmonic filters; power cables; damping; power grids; power convertors; power system stability; power transformers; harmonic distortion; resonance damping; array cable systems; wind turbine active filtering; large offshore wind power plants; large offshore WPP; harmonic emission; harmonic mitigation methods; widespread medium-voltage cable system; offshore grid transformers; low-frequency parallel resonances; harmonic voltage distortion; point of common coupling; grid-side converters; harmonic rejection; harmonic stability; system robustness; noise rejection;

D O I：

10.1049/iet-rpg.2016.0111

中图分类号：

X [环境科学、安全科学];

学科分类号：

08 ; 0830 ;

摘要：

The application of active filtering in large offshore wind power plants (WPPs) is presented in this study. The harmonic challenges such as sources of harmonic emission and resonances are identified and briefly explained. Also modern remedial harmonic mitigation methods as of active filtering are described and their application in real-life WPP systems demonstrated. It is underlined that WPP components such as widespread medium-voltage cable system and offshore grid transformers can introduce significant low-frequency parallel resonances which can cause a significant harmonic voltage distortion at the point of common coupling. Active filtering in modern grid-side converters used in wind turbines is applied simultaneously keeping sufficient harmonic/noise rejection. Extensive harmonic stability studies are also shown to prove the overall system robustness.

引用

页码：1069 / 1077

页数：9

共 21 条

[11]

Kocewiak H., 2010, EUR WIND EN C WARS 2

[12]

Kocewiak H., 2013, 12 INT WORKSH LARG S

[13] Wind turbine converter control interaction with complex wind farm systems [J].

Kocewiak, Lukasz Hubert ;

Hjerrild, Jesper ;

Bak, Claus Leth .

IET RENEWABLE POWER GENERATION, 2013, 7 (04) :380-389

[14] Stationary frame voltage harmonic controller for standalone power generation [J].

Kulka, Arkadiusz ;

Undeland, Tore ;

Vazquez, Sergio ;

Franquelo, Leopoldo G. .

2007 EUROPEAN CONFERENCE ON POWER ELECTRONICS AND APPLICATIONS, VOLS 1-10, 2007, :2367-2376

[15] Stability of photovoltaic and wind turbine grid-connected inverters for a large set of grid impedance values [J].

Liserre, M ;

Teodorescu, R ;

Blaabjerg, F .

IEEE TRANSACTIONS ON POWER ELECTRONICS, 2006, 21 (01) :263-272

[16] Dual current control scheme for PWM converter under unbalanced input voltage conditions [J].

Song, HS ;

Nam, K .

IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS, 1999, 46 (05) :953-959

[17] Impedance-Based Stability Criterion for Grid-Connected Inverters [J].

Sun, Jian .

IEEE TRANSACTIONS ON POWER ELECTRONICS, 2011, 26 (11) :3075-3078

[18] Evaluation of Current Controllers for Distributed Power Generation Systems [J].

Timbus, Adrian ;

Liserre, Marco ;

Teodorescu, Remus ;

Rodriguez, Pedro ;

Blaabjerg, Frede .

IEEE TRANSACTIONS ON POWER ELECTRONICS, 2009, 24 (3-4) :654-664

[19]

Wakileh G.J., 2001, POWER SYST

[20] Modeling and Analysis of Harmonic Stability in an AC Power-Electronics-Based Power System [J].

Wang, Xiongfei ;

Blaabjerg, Frede ;

Wu, Weimin .

IEEE TRANSACTIONS ON POWER ELECTRONICS, 2014, 29 (12) :6421-6432

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