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1. Investigation on thermally aged natural ester oil for real-time monitoring and analysis of transformer insulation

Author

Arputhasamy Joseph Amalanathan, Ramanujam Sarathi, Swayam Prakash, Ashok Kumar Mishra, Ribhu Gautam, and Ravikrishnan Vinu

Subjects

ultraviolet spectra, weibull distribution, power transformer insulation, viscosity, chromatography, organic compounds, transformer oil, fluorescence, harmonic distortion, ageing, partial discharge measurement, mass spectra, surface tension, turbidity, thermally aged natural ester oil, partial discharge inception voltage measurements, aging time, high frequency ac voltages, thermal aging temperature, standard lightning impulse voltage, breakdown voltage variation, aging duration, real-time monitoring, transformer insulation, dc voltages, harmonic voltages, scale parameter, normal distribution, ultraviolet analysis, absorbance parameter, interfacial tension, gas chromatography-mass spectrometric analysis, carboxylic acids, ketones, steady-state fluorescence, emission profile, uv absorption spectroscopy, liquid insulation, viscosity dependence, temperature 160.0 degc, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Electricity, QC501-721

Abstract

Thermal aging of natural ester oil shows drastic reduction in partial discharge inception voltage (PDIV) and a significant variation is observed only above a certain aging time, under AC, DC, high frequency AC voltages and with harmonic voltages with different total harmonic distortion. Weibull distribution studies on PDIV measurements indicate a reduction in scale parameter (α) with increase in thermal aging temperature. A characteristic reduction in breakdown voltage was observed with the thermally aged ester oil, under AC, DC and standard lightning impulse voltage. The breakdown voltage variation with aged ester oil follows normal distribution. Ultraviolet (UV) analysis of ester oil thermally aged at 160°C has revealed a regular shift of the derived absorbance parameter to longer wavelengths. The interfacial tension and turbidity exhibits an inverse relationship with the thermally aged ester oil. Gas chromatography/mass spectrometric analysis of the thermally aged ester oil predicted the formation of more carboxylic acids and ketones with aging duration. The steady-state fluorescence on thermally aged ester oil exhibits a shift in its emission profile, which is in tandem with the UV absorption spectroscopic analysis. Fluorescence analysis can be adopted as a real-time monitoring tool in transformers, to understand the condition of liquid insulation. The viscosity dependence on the wavelength of derivative absorption maxima follows a direct relationship with the thermally aged natural ester oil.

Published

2019