Assessment of interfacial charge accumulation in oil-paper interface in transformer insulation from polarization-depolarization current measurements

Accumulation of interfacial space charge in oil-paper interface is a critical issue in insulation diagnostics of transformers. This interfacial charge mainly accumulates due to the conductivity difference of oil and paper. Accumulation of interfacial charge leads to localized field enhancement, whic...

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Bibliographic Details
Published in:IEEE transactions on dielectrics and electrical insulation 2017-06, Vol.24 (3), p.1665-1673
Main Authors: Mishra, D., Haque, N., Baral, A., Chakravorti, S.
Format: Article
Language:English
Subjects:
Acceleration
Condition monitoring
Conductivity
current
Depolarization
Dielectrics
Discharge
Dissipation factor
Electrodes
Insulation
Interfacial charge
Ions
Linearity
Oil insulation
oil-paper insulation
Oils
Polarization
polarization-de-polarization
Power transformer insulation
Space charge
Time constant
transformer
Transformers
Trapping
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Summary:Accumulation of interfacial space charge in oil-paper interface is a critical issue in insulation diagnostics of transformers. This interfacial charge mainly accumulates due to the conductivity difference of oil and paper. Accumulation of interfacial charge leads to localized field enhancement, which further leads to partial discharges and acceleration in the aging of insulation. Therefore, from the point of view of transformer insulation diagnostics, assessment of interfacial charge is very important. However, it is not easy to estimate interfacial space charge behavior from the transformer diagnostics methods currently in use. In case of Polarization-Depolarization Current (PDC) measurement, a well known method for transformer condition monitoring, the effect of interfacial charge is reflected in the non-linearity of current response during polarization and de-polarization. During de-polarization process, a part of the interfacial charge accumulated during polarization period is absorbed by the electrodes producing a current, which is difficult to separate using conventional linear dielectric theory. In this paper, an attempt has been made to separate this current component from de-polarization current through considering charge de-trapping mechanism. Terming this current component as de-trapping current, its relationship with other parameters of transformer insulation is discussed. The developed methodology has been applied on several practical transformers. It was observed that the time constant of de-trapping current is related to the paper conductivity, oil conductivity, dissipation factor and age of the insulation.
ISSN:1070-9878
1558-4135
DOI:10.1109/TDEI.2017.006525