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Eliminating VT uncertainties in modeling ferroresonance phenomena caused by single phase-to-ground faults in isolated neutral network

Sergey E. Zirka, Yuriy I. Moroz, Anton V. Zhuykov, D. A. Matveev, M. A. Kubatkin, M. V. Frolov, Marjan Popov

2021International Journal of Electrical Power & Energy Systems17 citationsDOIOpen Access PDF

Abstract

It is commonly recognized that correct transformer model (particularly topological one) is a key element for any ferroresonance simulations. This paper represents a line of reasoning by which a reliable model of a voltage transformer (VT) can be constructed given substantial uncertainties in its parameters and characteristics. Starting with catalog data for electric steels and typical leakage inductances of 6-kV VTs, a model of an isolated neutral network with three inductive VTs is initially fitted to reproduce in detail its ferroresonant behavior for a chosen network capacitance. Then, validity of the network model is verified by accurate predictions of ferroresonance processes for all other capacitance values available and thus different ferroresonance modes recorded during full-scale factory tests. Possibilities to simplify the VT model by neglecting dynamic, and then entire core losses and hysteresis are also shown.

Topics & Concepts

Ferroresonance in electricity networksTransformerCapacitanceGroundVoltageNetwork modelElectric networkControl theory (sociology)EngineeringElectronic engineeringElectrical engineeringComputer sciencePhysicsArtificial intelligenceQuantum mechanicsElectrodeControl (management)Magnetic Properties and ApplicationsPower Transformer Diagnostics and InsulationPower Systems Fault Detection
Eliminating VT uncertainties in modeling ferroresonance phenomena caused by single phase-to-ground faults in isolated neutral network | Litcius