WAMS COI-Based Phasor Visualization Frame for Power System Area Separation

Yubelny J. Bernal; Mario Alberto Rios

doi:10.4028/www.scientific.net/AMM.267.75

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 267WAMS COI-Based Phasor Visualization Frame for...

WAMS COI-Based Phasor Visualization Frame for Power System Area Separation

Abstract:

A methodology of visualization of the power system oscillation among operational areas is proposed based on PMUs measurements. The method is based on the definition of the center of inertia by operational areas based on phasor measurements on generation nodes. This visualization takes measurements of the PMUs in every single operation area and makes a unique equivalent measure which corresponds to phasor-center of inertia of each operational area. In this way, the observation of equivalent phasors by area allows an easy and clear visualization of the behavior of the power system when a contingency occurs allows the selection of adequate control measures.

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Periodical:

Applied Mechanics and Materials (Volume 267)

Pages:

75-78

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.267.75

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Online since:

December 2012

Authors:

Yubelny J. Bernal, Mario Alberto Rios

Keywords:

Phasor Measurement Unit (PMU), Power System Visualization

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References

[1] S. E. Stanton and D. R. Waggoner, A Center of Inertia Transform Applied to Responses of Nonlinear Power Systems, in: 21st Annual North-American Power Symposium Proceedings, (1989).

DOI: 10.1109/naps.1989.77093

Google Scholar

[2] J.A. Sanchez and M.A. Rios, Vulnerability Assessment of Cascade Contingencies in Power Systems, International Review of Electrical Engineering, Vol. 6, No. 4, Part B, August 2011, pp.1831-1838.

Google Scholar

[3] T. Overbye, P. Sauer, C. DeMarco, B. Lesieutre and M. Venkatasubramanian, Using PMU Data to Increase Situational Awareness, PSERC Publication 10-16 (2010).

Google Scholar

[4] H. Hashim, M.R. Zulkepali, Y.R. Omar, N. Ismail, I.Z. Abidin and S. Yusof, An Analysis of Transient Stability Using Center-of-Inertia: Angle and Speed, in Proceedings of 2010 PECon, pp.402-407 (2010).

DOI: 10.1109/pecon.2010.5697617

Google Scholar

[5] A.A. Daoud, Implementation of Inter-area Angle Stability Prediction in Wide Area Control, in Proceedings of 2009 EEEIC International Conference on Environment and Electrical Engineering (2009).

Google Scholar

[6] B. Pal and B. Chaudhuri: Robust Control in Power Systems, (Springer, 2005).

Google Scholar