Impact of synchrophasor measurement uncertainty on detecting voltage stability margin in power systems

Phasor Measurement Units (PMUs) provide synchronized phasors (synchrophasors) of voltage and current, usually together with measurements of frequency and rate of change of frequency. One of the main characteristics of the PMUs is to provide synchronized and accurate measurement of all these quantities with a reporting rate much higher than that of traditional measurement systems. Also for this reason, PMUs have been shown have a lot of potential in different applications in power systems, including voltage stability monitoring. As the uncertainty of the PMUs impacts the monitoring performance, it is necessary to perform a thorough analysis before the monitoring system can be designed and its outcome used for control, particularly of critical applications. Hence, this paper presents the analysis of the effect of the uncertainty introduced by the PMUs, on a global method for voltage instability detection. In particular, the Load Margin Index based on wide-area phasor measurements is considered as reference method. Several tests and results obtained on the IEEE 39-bus system are presented and discussed.

[1]  Junqi Liu,et al.  Effects of PMU's uncertainty on voltage stability assessment in power systems , 2011, 2011 IEEE International Instrumentation and Measurement Technology Conference.

[2]  F.P.M. Barbosa,et al.  Assessment of voltage stability of electrical power systems: A simulational survey , 2009, 2009 International Conference on Electrical and Electronics Engineering - ELECO 2009.

[3]  Miroslav Begovic,et al.  Voltage Stability Protection and Control Using a Wide Area Network of Phasor Measurements , 2002, IEEE Power Engineering Review.

[4]  B. Gao,et al.  Voltage Stability Evaluation Using Modal Analysis , 1992, IEEE Power Engineering Review.

[5]  Athula D. Rajapakse,et al.  Online Monitoring of Voltage Stability Margin Using an Artificial Neural Network , 2010 .

[6]  B. Kasztenny,et al.  Development and Implementation of a Synchrophasor Estimator Capable of Measurements Under Dynamic Conditions , 2008, IEEE Transactions on Power Delivery.

[7]  Carlo Muscas,et al.  On the accuracy specifications of Phasor Measurement Units , 2010, 2010 IEEE Instrumentation & Measurement Technology Conference Proceedings.

[8]  James S. Thorp,et al.  Synchronized Phasor Measurement Applications in Power Systems , 2010, IEEE Transactions on Smart Grid.

[9]  K. Vu,et al.  Use of local measurements to estimate voltage-stability margin , 1997 .

[10]  M. Glavic,et al.  Wide-Area Detection of Voltage Instability From Synchronized Phasor Measurements. Part I: Principle , 2009, IEEE Transactions on Power Systems.

[11]  M. Glavic,et al.  Wide-Area Detection of Voltage Instability From Synchronized Phasor Measurements. Part II: Simulation Results , 2009, IEEE Transactions on Power Systems.

[12]  Paolo Attilio Pegoraro,et al.  Performance comparison of algorithms for synchrophasors measurements under dynamic conditions , 2011, 2011 IEEE International Workshop on Applied Measurements for Power Systems (AMPS).