Deformation Diagnostic Methods for Transformer Winding through System Identification

Title

Deformation Diagnostic Methods for Transformer Winding through System Identification

Creator

Venkataswamy R.; Rao K.U.; Meena P.

Description

Transformers play a critical role in the power system. Dynamics of the power system changes if the transformers are out of service for scheduled and unscheduled maintenance work under contingency situations. Faults, overloading, and mechanical abnormalities causes the incipient and critical damages to the transformer. The isolation of transformers leads to the voltage profile change, load curtailments, high compensation, economic loss, and many more problems. It is very important to know the problems occurred in the transformer parts to repair and restore it into the system to attain better stability, reliability, and economics. The transformer health monitoring system consisting of prediction, identification, and diagnostics in online as well as offline mode that will provide sufficient content to the managerial utility to take actions against the problem anticipated or occurred. The heuristic survey inks, the probability of damage in the transformer winding is more compared to the other parts. A novel method using system identification is proposed for the diagnosis of transformer winding. The location and extent of mechanical deformations can be ascertained along with specifically detecting radial and axial deformations in the transformer windings. A system identification approach in frequency and time domain were employed in the diagnostic algorithms for the sweep frequency response dataset. For both transfer function and state space model, a reference table called deformation information tableau has been synthesized for lumped parameter transformer model by varying series and shunt circuit elements systematically. The details of deformation are extracted from the tableau for actual frequency response data for a specified frequency range and winding type. The crosscorrelation of two-dimensional frequency response arrays, one being a signature array and other being deformation array, is used to represent relativity as a singleton. A toolbox is developed for the generation of heuristic deformation information tableau and to diagnose using the diagnostics algorithm developed. The proposed algorithms were verified and simulated for continuous disk type winding. 2019 IEEE.

Source

2019 International Conference on Data Science and Communication, IconDSC 2019

Date

2019-01-01

Publisher

Institute of Electrical and Electronics Engineers Inc.

Subject

Deformation Information Tableau; Frequency Response Analysis; System Identification; Transformer Winding

Coverage

Venkataswamy R., Department of Electrical and Electronics Engineering, CHRIST, Deemed to be University, Bengaluru, India; Rao K.U., Department of Electrical and Electronics Engineering, R. V. College of Engineering, Bengaluru, India; Meena P., Department of Electrical and Electronics Engineering, B. M. S. College of Engineering, Bengaluru, India

Rights

Restricted Access

Relation

ISBN: 978-153869319-3

Format

Online

Language

English

Type

Conference paper

Identifier

https://doi.org/10.1109/IconDSC.2019.8816967

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85072772322&doi=10.1109%2fIconDSC.2019.8816967&partnerID=40&md5=280aba6030e1505318d5100557f20d9d