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Discrimination of Internal Faults and Other Transients in an Interconnected System With Power Transformers and Phase Angle Regulators

Pallav Kumar Bera, Can Işık, Vajendra Kumar

2020IEEE Systems Journal29 citationsDOIOpen Access PDF

Abstract

This article solves the problem of accurate detection of internal faults and classification of transients in a five-bus interconnected system for phase angle regulators (PARs) and power transformers (PTs). The analysis prevents mal-operation of differential relays in case of transients other than faults, which include magnetizing inrush, sympathetic inrush, external faults with current transformer (CT) saturation, capacitor switching, nonlinear load switching, and ferroresonance. A gradient boosting classifier (GBC) is used to distinguish the internal faults from the transient disturbances based on 1.5 cycles of three-phase differential currents registered by a change detector. After the detection of an internal fault, GBCs are used to locate the faulty unit (PT, PAR series, or exciting unit) and identify the type of fault. In case, a transient disturbance is detected, another GBC classifies them into the six disturbances. Five most relevant frequency- and time-domain features obtained using information gain are used to train and test the classifiers. The proposed algorithm distinguishes the internal faults from the other transients with a balanced accuracy (-η) of 99.95%. The faulty transformer unit is located with -η of 99.5% and the different transient disturbances are identified with -η of 99.3%. Moreover, the reliability of the scheme is verified for different ratings and connections of the transformers involved, CT saturation, and noise levels in the signals. These GBC classifiers can work together with a conventional differential relay and offer a supervisory control over its operation. PSCAD/EMTDC software is used for simulation of the transients and to develop the two- and three-winding transformer models for creating the internal faults including interturn and interwinding faults.

Topics & Concepts

TransformerElectric power systemControl theory (sociology)Electrical engineeringEngineeringPower (physics)Computer sciencePhysicsVoltageControl (management)Quantum mechanicsArtificial intelligencePower Systems Fault DetectionMachine Fault Diagnosis TechniquesPower System Reliability and Maintenance
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