Research on MCR Type Static Var Power Compensator Device in Wind Farms

Wei Zheng; Li Guang Shi; Shi Qun Li; Yong Zhi; Run Qing Bai; Chen Liang; Jian Ru Wan

doi:10.4028/www.scientific.net/AMM.433-435.1325

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 433-435Research on MCR Type Static Var Power Compensator...

Research on MCR Type Static Var Power Compensator Device in Wind Farms

Abstract:

With the application of FACTS devices in large-scale new energy base, in the light of FACTS devices installed in each wind farm in Gansu Jiuquan, which can supply reactive compensation for the power transmission system and stable the grid voltage, in this paper the magnetic controllable reactor (MCR) type static var compensator (SVC) is studied deeply. The paper introduces the working principle and characteristics of the MCR-SVC. In connection with MCR equivalent circuit, the simulation model is built in MATLAB/SPS, the simulation results and field tests verify the reactive power compensation effect of MCR-SVC during wind farms.

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Periodical:

Applied Mechanics and Materials (Volumes 433-435)

Pages:

1325-1329

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.433-435.1325

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Online since:

October 2013

Authors:

Wei Zheng, Li Guang Shi, Shi Qun Li*, Yong Zhi, Run Qing Bai, Chen Liang, Jian Ru Wan

Keywords:

Flexible AC Transmission System (FACTS), Magnetic Controllable Reactor, Reactive Power Compensation, Static Var Compensator

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References

[1] Karymov R R, Ebadianm: Electrical Power and Energy Systems, Vol. 29 (2007), p.191.

Google Scholar

[2] Zhongdong Yin, Hong Liu, Baichao Chen, et al: Transformer, Vol. 35(7) (1998), p.1 (In Chinese).

Google Scholar

[3] Dolgopolov A G, Dolgopolov S G, Zaitsev A I: Elektrotekhnika, Vol. 1 (2003), p.30.

Google Scholar

[4] Bryantsev A M, Dolgopolov A G, Lur'e A I, et al: Russian Electrical Engineering, Vol. 75(1) (2004), p.31.

Google Scholar

[5] Jianhua Qian, Baichao Chen: Proceedings of the EPSA, Vol. 15(2) (2003), p.66 (In Chinese).

Google Scholar

[6] Baoan Wang, Lili Jin, Yaqiao Luo, et al: Electric Power Automation Equipment, Vol. 4(30) (2010), p.97 (In Chinese).

Google Scholar

[7] Ruiming Fang, Qingshan Zhu: Low Voltage Apparatus, Vol. 5 (2012), p.45 (In Chinese).

Google Scholar

[8] Jiayun Shao: Study on application of magnetic controllable reactor in power system (2009) (In Chinese).

Google Scholar

[9] Kai Jiang, Yinsheng Tang: Electric Power, Vol. 37(12) (2004), p.27 (In Chinese).

Google Scholar