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Signal-Model-Based Fault Diagnosis in Windings of Synchronous Generator

Zahra Masoumi, Bijan Moaveni, S.M. Mousavi G., Jawad Faiz

2022IEEE Transactions on Industrial Informatics18 citationsDOI

Abstract

Any reduction in the cross-sectional area of wires (RCSAW) in the stator or rotor (field or damper) windings of synchronous generators (SGs) is considered as a fault in SGs. In this article, a signal-model-based fault detection, isolation, and estimation approach based on the eigenvalues estimation of SGs is presented to diagnose RCSAW fault. The subspace identification method is employed to estimate the state matrix eigenvalues. A form of the characteristic equation in the faulty condition is introduced for fault diagnosis of SGs in the presence of linear and nonlinear loads. The stator and field currents and voltages, and the rotor speed are used for fault diagnosis. The effectiveness of the introduced fault diagnosis method is shown using simulation and experimental results on a salient-pole SG in Iran-Safir (ER24) diesel-electric locomotives.

Topics & Concepts

Control theory (sociology)StatorRotor (electric)Fault (geology)Electromagnetic coilEngineeringEigenvalues and eigenvectorsFault detection and isolationDamperComputer scienceControl engineeringPhysicsActuatorElectrical engineeringGeologySeismologyArtificial intelligenceQuantum mechanicsControl (management)Machine Fault Diagnosis TechniquesOil and Gas Production TechniquesFault Detection and Control Systems
Signal-Model-Based Fault Diagnosis in Windings of Synchronous Generator | Litcius