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Frequency Event Categorization in Power Distribution Systems Using Micro PMU Measurements

Nan Duan, Emma Stewart

2020IEEE Transactions on Smart Grid36 citationsDOIOpen Access PDF

Abstract

Frequency is an important metric for power stability. To enhance the situational awareness in power distribution systems, this paper proposes a data-driven approach that utilizes the data from micro phasor measurement units (μPMU) to categorize frequency events observed in distribution feeders. The proposed approach has three layers, each of which analyzes if a frequency event is propagated from the transmission system, formed inside a distribution feeder or falsely produced by instantaneous frequency (IF) estimation algorithms, respectively. In the first layer, the Granger causality is utilized to compare the causal relations from measurements across different locations to decide if an event is propagated from the transmission side. In the second layer, a trained sparse coding dictionary is utilized to unmix the physical causes of a frequency event. In the third layer, a moving z-score based event-pair detector is applied to identify if a frequency event is algorithm-induced. The proposed approach is tested using the μPMU measurements collected from Lawrence Berkeley National Laboratory (LBNL) and Riverside Public Utility (RPU).

Topics & Concepts

PhasorEvent (particle physics)Metric (unit)Electric power systemComputer scienceStability (learning theory)Situation awarenessTransmission (telecommunications)IslandingCategorizationPower (physics)AlgorithmElectronic engineeringArtificial intelligenceData miningEngineeringTelecommunicationsMachine learningQuantum mechanicsOperations managementPhysicsAerospace engineeringPower System Reliability and MaintenancePower System Optimization and StabilityOptimal Power Flow Distribution
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