Relevance of adaptive protection scheme using phasor measurement unit in Indian power grid

被引：0

作者：

Kumar D.S. ^{[1
]}

Savier J.S. ^{[1
]}

机构：

[1] Department of Electrical Engineering, College of Engineering Trivandrum, Engineering College P.O., Thiruvananthapuram, Kerala

来源：

International Journal of Power Electronics | 2019年 / 10卷 / 1-2期

关键词：

Adaptive relay; Phasor measurement units; PMUs; Protection; SMT; Synchronised measurement technology;

D O I：

10.1504/IJPELEC.2019.096806

中图分类号：

学科分类号：

摘要：

The configuration of the power system is constantly changing due to renewable integration, changing loads, network switching operations or faults. The relays settings based on pre-determined static system conditions that are in general maximum or minimum, may not suffice, leading to inaccurate relay operation for a dynamic power system. Malfunction of conventional protection system has been one of the main causes of cascading catastrophes in power grid. Selection of suitable relay characteristics that will be an appropriate compromise for all loading conditions and contingencies is a matter of concern. The relevance of adaptive relay settings in wide area monitoring, protection, and control (WAMPAC) using synchrophasor is brought out in this paper. The significance of new wide area adaptive protection system (WAAPS) in improving the reliability and safety of power transmission through Indian grid, with a high level of operational uncertainties, is analysed and an architecture is suggested. Copyright © 2019 Inderscience Enterprises Ltd.

引用

页码：33 / 484

页数：451

共 16 条

[1] Abdulhadi I., Coffele F., Dysko A., Booth C., Burt G., Adaptive protection architecture for the smart grid, 2nd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies (ISGT Europe), pp. 1-8, (2011)
[2] Baba K.V.S., Narasimhan S.R., Jain N.L., Singh A., Shukla R., Gupta A., Synchrophasor based real time monitoring of grid events in Indian power system, IEEE International Conference on Power System Technology (POWERCON), pp. 1-5, (2006)
[3] De La Ree J., Centeno V., Thorp J.S., Phadke A.G., Synchronized phasor measurement applications in power systems, IEEE Transactions on Smart Grid, 1, 1, pp. 20-27, (2010)
[4] Hazra J., Reddi R.K., Das K., Seetharam D.P., Sinha A.K., Power grid transient stability prediction using wide area synchrophasor measurements, 2012 3rd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies (ISGT Europe), pp. 1-8, (2012)
[5] Jena M.K., Samantaray S.R., Panigrahi B.K., A new wide-area backup protection scheme for series-compensated transmission system, IEEE Systems Journal, (2015)
[6] Jena M.K., Samantaray S.R., Panigrahi B.K., A new decentralized approach to wide-area back-up protection of transmission lines, IEEE Systems Journal, (2017)
[7] Kumar T.M., Raghuram P.R., Kumar S.P., Operational experience of synchrophasor pilot project in Southern India, Innovative Smart Grid Technologies-Asia (ISGT Asia), 2013 IEEE, pp. 1-5, (2013)
[8] Nayak P.K., Pradhan A.K., Bajpai P., Wide-area measurement-based backup protection for power network with series compensation, IEEE Transactions on Power Delivery, 29, 4, pp. 1970-1977, (2014)
[9] Overbye T., Sauer P., DeMarco C., Lesieutre B., Venkatasubramanian M., Using PMU Data to Increase Situational Awareness, Power System Engineering Research Center, pp. 10-16, (2010)
[10] Phadke A.G., De Moraes R.M., The wide world of wide-area measurement, IEEE Power and Energy Magazine, 6, 5, pp. 52-65, (2008)

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