Li Lin, Jizhong Zhu, Niancheng Zhou, and Kaipei Wang
[1] A.S. Farag, A. Shehri, J. Bakhashwain, T.C. Cheng, and D. Penn, Impact of electromagnetic fields management on the design of 500 kV transmission lines, Electric Power Systems Research, 40(3), 1997, 203–238. [2] R.D. Begamudre, Extra high voltage AC transmission engineering (India: New Age International, 2006). [3] L.L. Grigsby, The electric power engineering handbook (USA: CRC Press, 2001). [4] R. Benato and A. Paolucci, Operating capability of long AC EHV transmission cables, Electric Power Systems Research, 75(1), 2005, 17–27. [5] A.Y. Abdelaziz, A.M. Ibrahim, M.M. Mansour, and H.E. Talaat, Modern approaches for protection of series compensated transmission lines, Electric Power Systems Research, 75(1), 2005, 85–98. [6] N.C. Zhou, J.Z. Zhu, and L. Lin, Application of total least squares to harmonic state estimation of power system, International Journal of Power and Energy Systems, 32(3), 2012, 93–99. [7] G. Ziegler, Numerical distance protection: Principles and applications (New York, NY: Wiley-VCH, 2006). [8] A.J.F. Keri, Experience and future plans with 765 kV transmission at American electric power, Proc. Brazilian Symposium on Power Systems, Brazil, April 27–30 2008. [9] J.Z. Zhu, K. Cheung, D. Hwang, and A. Sadjadpour, Operation strategy for improving voltage profile and reducing system loss, IEEE Transactions on Power Delivery, 25(1), 2010, 390–397. [10] Z. Zhen and L.J. Wei, Study on the automatic compensation device for high-voltage network’s power-factor based on microcomputer, Coal Mine Automation, 3, 2001. [11] P. Kundur, Power system stability and control (China: China Electric Power Press, 2001).
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