Litcius/Paper detail

A Novel Fast Transient Stability Assessment of Power Systems Using Fault-On Trajectory

Meysam Shahriyari, Hamid Khoshkhoo, Josep M. Guerrero

2022IEEE Systems Journal22 citationsDOI

Abstract

In this article, for fast transient stability status (TSS) prediction, a new scheme is proposed, which does not require any postfault data and predicts TSS using data measured until the end of the fault-on period. In this method, phasor measurement units (PMUs) are located at synchronous generators' (SGs) buses to gather time-synchronized data. Then, these measurements are applied to the proposed procedure to calculate the feature set utilizing fault-on and prefault information and predict TSS by a decision tree classifier. Since the feature set does not include any postfault (i.e., after short-circuit clearance) data, the proposed method has the capability of fast prediction of postdisturbance TSS, and hence, it provides more opportunity for system operators and/or special protection systems to implement timely corrective actions to prevent instability. Also, the results of the time-domain analysis carried out in IEEE14-bus, IEEE39-bus, 16-Machine (68-bus), and IEEE118-bus test systems and comparison of them with previous techniques reveal that although the proposed method requires fewer PMUs, it can forecast TSS accurately under N-1 and N-2 conditions. Besides, these results confirm that, considering the measurement error, when the rotor angle of SGs is estimated using the data measured by WAMS, the proposed method accurately predicts TSS.

Topics & Concepts

PhasorElectric power systemUnits of measurementTransient (computer programming)Phasor measurement unitControl theory (sociology)Computer scienceTime domainFault (geology)EngineeringTrajectoryReliability engineeringData miningPower (physics)Artificial intelligenceComputer visionQuantum mechanicsPhysicsSeismologyAstronomyGeologyControl (management)Operating systemPower System Optimization and StabilityPower System Reliability and MaintenancePower Systems Fault Detection