Weiqiang Fan, Ying Lei, Jing Zhu, Luo Li, Shuai Niu
New energy technology research department, Xi’an High Voltage Apparatus Research Institute Co. Ltd, Xi’an, China.
DOI: 10.4236/epe.2013.54B230   PDF    HTML     4,952 Downloads   5,872 Views   Citations

Abstract

First, the paper analyzes the advantages and disadvantages of all kinds of reactive power compensation technology, and then proposes a principle and integrated control strategy of the composite operation of TSC and SVG, also the paper designs and develops the main controller of Network based composite power quality regulation device, based on RTDS, the real-time digital simulation model of The Device is established, and finally the prototype of the device is developed with the function of filter and split-phase compensation. The main controller determines the cooperative operation of both TSC and SVG, and the switching strategy of TSC. The simulation result in RTDS can verify the precision of the measure system and the validity of the control logic, the prototype has finished the type test according to the national standard.

Keywords

Network Based; Composite Power Quality Regulation Device; Reactive Power Compensation Technology; RTDS

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Conflicts of Interest

The authors declare no conflicts of interest.

References

[1]	Z. A. Wang，J. Yang and J. J. Liu, “Harmonic Suppression and Reactive Power Compensation,” Beijing：China Machine Press, 2005, pp.167-19．
[2]	A. Luo, “Grid Harmonic Suppression and Reactive Power Compensation Technology and Equipment,” Beijing: China Power Press，2006, pp.183-221．
[3]	Y. F. Li and Y. X. Ma, “Progress of Harmonic Suppression and Reactive Power Compensation Technology,” Journal of Shaanxi University of Technology (Social Sciences), Vol. 25, No. 1, 2009.
[4]	X. Q. Tong, W. J. Wu and B. Y. Ren, “The Application of Voltage-source Inverter in the Power System,” China Machine Press, pp.60-63.
[5]	G. F. Guo, “The Application of Reactive Power Compensation in the Distribution System,” Power system technology, Vol. 31, No. 1, 2007, pp. 229-230．
[6]	Q. Gong, “TSC Dynamic Reactive Power Compensation Technology and Its Application,” Power system technology, Vol. 31, No. 2, 2007, pp.118-122.
[7]	X. Q. Tong, Q. F. Wu and J. Yi, “The Research on the Control Method of STATCOM in Parallel Operation,” Journal of Xi'an University of Technology, Vol. 24, No. 4, 2008.
[8]	W. Zhao and A. Luo, “The Cooperation Operation of SVG and TSC in the System Proceeding of the CSEE 2009,” Vol. 29, No. 19, pp. 92 - 98.
[9]	X. H. Ma, “Research on the DSTATCOM,” Xi'an University of Technology, 2004.
[10]	C. B. Luo, Y. Ji and Z. Y. Liu, “The Principle and Realization of the STATCOM,” China Power Press，2005.
[11]	H. S. Su and Q. Z. Li, “Rough Controlling TSC for Reactivecurrent Compensation in Traction Substations,” Conference Proceedings of CES/IEEE 5th International Power Electronics andMotion Control Conference，Shanghai，2006．
[12]	H. W. Liu, “Research on the Parallel Operation of the Active Power Filter Based on the Capacity-limited Control Strategy,” Yan Shan University, 2007.
[13]	X. L. Wei and K. Dai, “The Parallel Control of Active Power Filter in the Three-phase Three-wire System,” Automation of Electric Power Systems，2007.
[14]	Z. Y. Yang and J. F. Zhao and G. Q. Tang, “Research on the Parallel Operation of the Active Power Filter Based on the Current-limited Control Strategy,” Electric power Automation Equipment, Vol. 3, No. 26, 2006.
[15]	W. Freitas and A. Morelato and Xu Wilsun, et al., “Impacts of AC Generators and DSTATCOM Devices on the Dynamic Performance of Distribution System,” IEEE Transactions on Power Delivery, Vol. 20, No. 2, 2005, pp.1493-1501.doi:10.1109/TPWRD.2004.839181
[16]	R. Esmaili, L. Xu and D. K. Nichols, “A New Control Method of Permanent Magnet Generator for Maximum Power Tracking in Wind Turbine Application,” IEEE Power Engineering Society General Meeting, Vol. 3, No. 12-16, 2005, pp. 2090 - 2095.
[17]	S. Ponnaluri, J. K. Steinke, P. Steimer, S. Reichert and B. Buchmann, “Design Comparison and Control of Medium Voltage STATCOM with Novel Twin Converter Topology,” 35th Annul IEEE Power Electronics Specialists Conference, 2004.
[18]	M. S. ElMoursi, Prof. Dr. A. M.Sharaf, “Voltage Stabilization And Reactive Compensation Using A Novel FACTS-STATCOM Scheme,” IEEE CCECE/CCGEI, Saskatoon, May 2005.