Authors:
T. R. Rangaswamy,S. Prakash,V. Jayalakshmi,C. Ramachandran,DOI NO:
https://doi.org/10.26782/jmcms.spl.2019.08.00066Keywords:
Smart Grid,230 KV substation,fault tolerant control,darkout,Abstract
As the requirement of smart grid network for reliability and operational flexibility, enhancing, development and change of the distribution network have turned out to be consistent. At any cost the interruption of supply should not be there. It should be avoided by implementing the various innovations through practical experiences. The impact of fault in any one of the feeders in 230 KV substations should not affect other feeders irrespective of radial and tie. A fault tolerant logic has been developed and implemented in a prototype experimental setupRefference:
I. Guiping Deng; Yuanzhang Sun and Jian Xu, ” Research of reactive
compensation capacity for distribution network based on synthesis load
model,” in Industrial Electronics and Applications, 2008. ICIEA 2008.
3rd IEEE Conf., pp. 2025-2030, 2008.
II. Lendak I, A. Erdeljan, D. Čapko and S. Vukmirovic, “Algorithms in
electric power system one-line diagram creation,” Systems Man and
Cybernetics (SMC), 2010 IEEE International Conference on, Istanbul,
pp. 2867-2873, 2010.
III. Liu J., Y. Wu and G. Q. Liu, “Conversion form GIS based feeder maps
to electric diagrams,” Automation of Electrical Power Systems, vol.
29,no. 14, pp. 73-77, 2005.
IV. Lu Y. M., D. Liu and Y. H. Huang, “Feeder modeling and application
based on CIM,” Proceedings of the CSEE, pp. 157-163, 2012.
V. Majumder, R., “Reactive Power Compensation in Single-Phase
Operation of Microgrid,” in IEEE Transactions on Industrial
Electronics, pp. 1403-1416, 2013.
VI. Paul, S.; Jewell, W.T., “Importance of Voltage Reduction and Optimal
Voltage Setting During Reactive Power Compensation,” in IEEE
Transactions on Power Delivery, pp. 1999-2007, 2014.
VII. Qinghe Chu; Weixian Li and XiuboNiu, ” The Application of S7-200
PLC Reactive Compensation Device in Small Substation,” in
Intelligent Human-Machine Systems and Cybernetics (IHMSC), 2013
5th International Conf., pp. 182-285, 2013.
VIII. Wollenberg, B.F., “Transmission system reactive power
compensation,” in Power Engineering Society Winter Meeting, 2002.
IEEE, pp. 507-508, 2002.
IX. Zhang J. M., H. Chen and M. L. Zhou, “Generation of uniformly
distributed distribution network connection diagram and perception
measurement for situation awareness diagram,” Automation of
Electrical Power Systems, vol. 38, no. 13, pp. 166-173, 2014.
X. Zhou B. X., Z. Y. Meng and W. X. Wu, “Power grid automatic maping
algorithm for radial distribution feeder,” Electric Power, vol. 48, no.
12, pp. 136-140, 2015.
XI. Zhou Jianguo; Sun Qiuye; Zhang Huaguang and Zhao Yan, “Load
balancing and reactive power compensation based on capacitor banks
shunt compensation in low voltage distribution networks,” in Control
Conference (CCC), 2012 31st Chinese, pp. 6681-6686, 2012.