chapter-8

REFERENCES: [1] S. Sugimoto, J. Kida, H. Arita, C. Fakui, and T. Yamagiwa, “Principle and characteristics of a fault current limiter with series compensation,” IEEE Trans. Power Delivery, vol. 11, no. 2, pp. 842–847, Apr. 1996. [2] B. C. Sung, D. K. Park, J. W. Park, and T. K. Ko, “Study on a series resistive SFCL to improve power system transient stability: Modeling, simulation and experimental verification,” IEEE Trans. Industrial Electron.,vol. 56, no. 7, pp. 2412–2419, Jul. 2009. [3] Litos Strategic Communication, “The Smart Gird: An Introduction,”2008 [Online]. Available: http://www.oe.energy.gov/Smart ridIntroduction.htm, Prepared for U.S. Department of Energy. [4] R. Strzelecki and G. Benysek, Power Electronics in Smart Electrical Energy Networks. London, U.K.: Springer-Verlag London Ltd.,2008, pp. 203–213. [5] J. Driesen, P. Vermeyen, and R. Belmans, “Protection issues in microgrids with multiple distributed generation units,” in Power Conversion Conf., Nagoya, April 2007, pp. 646–653. [6] W. Friedl, L. Fickert, E. Schmautzer, and C. Obkircher, “Safety and reliability for smart-, micro-, and islanded grids,” presented at the CIRED Seminar: SmartGrids for Distribution, Jun. 2008, Paper 107.

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REFERENCES:

[1] S. Sugimoto, J. Kida, H. Arita, C. Fakui, and T. Yamagiwa, “Principle and characteristics of

a fault current limiter with series compensation,” IEEE Trans. Power Delivery, vol. 11, no. 2, pp.

842–847, Apr. 1996.

[2] B. C. Sung, D. K. Park, J. W. Park, and T. K. Ko, “Study on a series resistive SFCL to

improve power system transient stability: Modeling, simulation and experimental verification,”

IEEE Trans. Industrial Electron.,vol. 56, no. 7, pp. 2412–2419, Jul. 2009.

[3] Litos Strategic Communication, “The Smart Gird: An Introduction,”2008 [Online].

Available: http://www.oe.energy.gov/Smart ridIntroduction.htm, Prepared for U.S. Department

of Energy.

[4] R. Strzelecki and G. Benysek, Power Electronics in Smart Electrical Energy Networks.

London, U.K.: Springer-Verlag London Ltd.,2008, pp. 203–213.

[5] J. Driesen, P. Vermeyen, and R. Belmans, “Protection issues in microgrids with multiple

distributed generation units,” in Power Conversion Conf., Nagoya, April 2007, pp. 646–653.

[6] W. Friedl, L. Fickert, E. Schmautzer, and C. Obkircher, “Safety and reliability for smart-,

micro-, and islanded grids,” presented at the CIRED Seminar: SmartGrids for Distribution, Jun.

2008, Paper 107.

[7] L. Dessaint, K. Al-Haddad, H. Le-Huy, G. Sybille, and P. Brunelle, “A power system tool

based on simulink,” IEEE Trans. Industrial Electron., vol. 46, no. 6, pp. 1252–1254, Dec. 1999.

[8] K. Maki, S. Repo, and P. Jarventausta, “Effect of wind power based distributed generation on

protection of distribution network,” in IEEE Developments in Power System Protection, Dec.

2004, vol. 1, pp.327–330

[9] Leonard kovalsky, Xing Yuan, Kasegn Tekletsadik, Albert Keri, Joachim Bock, Frank

Breuer. “Applications of superconducting fault current limiters in electrical power transmission

system”

[10] Power, A.J., “An overview of transmission fault current limiters,” Fault Current Limiters -

A Look at Tomorrow, IEE Colloquium on 8 Jun 1995, pp. 1/1 - 1/5.

[11] Kovalsky, L., Yuan, X., Tekletsadik, K., Keri, A., Bock, J. and Breuer, F., ”Applications of

superconducting fault current limiters in electric power transmission systems,” IEEE Trans. on

Applied Superconductivity, Vol. 15, No. 2, June 2005.

[12] P. G. Slade, et al, "The Utility Requirements for A Distribution Fault Current Limiters", IEEE Transactions on

Power Delivery, Vol. 7, No. 2 April 1992 507-515 [13] W. Paul, Makan Chen et al, "Superconducting Fault Current

Limiter – Applications, Technical & Economical Benefits and Simulations & Test Results", CIGRE, Session 13-

201Paris, France, pp 1-8

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