Determining the inhibitor content of transformer insulating oil using UV-Vis spectroscopy

Monitoring and inspection of inhibitor content in transformer insulating oil has been a routine test for power utilities. Although new uninhibited transformer insulating oil contains naturally occurring inhibitors, these inhibitors could deplete over time during operation. Once the inhibitor deplete...

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Main Authors: Sing, L.Y., Ker, P.J., Jamaludin, M.Z., Ismail, A., Abdullah, F., Mun, L.H., Saniyyat, C.N., Shukri, M.
Format: Conference Paper
Language:English
Published: 2017
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Institution: Universiti Tenaga Nasional
Language: English
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spelling my.uniten.dspace-59652018-12-12T02:58:12Z Determining the inhibitor content of transformer insulating oil using UV-Vis spectroscopy Sing, L.Y. Ker, P.J. Jamaludin, M.Z. Ismail, A. Abdullah, F. Mun, L.H. Saniyyat, C.N. Shukri, M. Monitoring and inspection of inhibitor content in transformer insulating oil has been a routine test for power utilities. Although new uninhibited transformer insulating oil contains naturally occurring inhibitors, these inhibitors could deplete over time during operation. Once the inhibitor depleted completely, the oil would start to deteriorate at a faster rate and eventually could lead to faults in transformer. The common method of determining the weight percentage of inhibitor in transformer oil is through Fourier Transform Infrared (FTIR) spectroscopy. However, this method is laboratory-based, which means oil sampling at site is necessary and the oil samples need to be transported to the laboratory. The necessity for oil sampling, coupled with the high cost of FTIR equipment have led to high maintenance cost. Therefore, this work investigated the possibility of using single wavelength or waveband optical detection for the determination of weight percentage of inhibitor in transformer oil using ultraviolet-visible-near infrared (UV-VIS-NIR) spectroscopy. Result of the work shows that the samples with inhibitor produced an absorbance peak at 1403nm. The peak absorbance of the spectral response is proportional to the weight percentage of inhibitor content that was measured using the conventional method, which is IEC 60666. An equation was derived to model the peak absorbance and weight percent of inhibitor content (%IC) of the oil and it was verified with additional oil sample with a known weight percent of Inhibitor content. © 2016 IEEE. 2017-12-08T07:48:01Z 2017-12-08T07:48:01Z 2017 Conference Paper 10.1109/ICCSCE.2016.7893567 en In PECON 2016 - 2016 IEEE 6th International Conference on Power and Energy, Conference Proceeding (pp. 234-238). [7951565] Institute of Electrical and Electronics Engineers In
institution Universiti Tenaga Nasional
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country Malaysia
content_provider Universiti Tenaga Nasional
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description Monitoring and inspection of inhibitor content in transformer insulating oil has been a routine test for power utilities. Although new uninhibited transformer insulating oil contains naturally occurring inhibitors, these inhibitors could deplete over time during operation. Once the inhibitor depleted completely, the oil would start to deteriorate at a faster rate and eventually could lead to faults in transformer. The common method of determining the weight percentage of inhibitor in transformer oil is through Fourier Transform Infrared (FTIR) spectroscopy. However, this method is laboratory-based, which means oil sampling at site is necessary and the oil samples need to be transported to the laboratory. The necessity for oil sampling, coupled with the high cost of FTIR equipment have led to high maintenance cost. Therefore, this work investigated the possibility of using single wavelength or waveband optical detection for the determination of weight percentage of inhibitor in transformer oil using ultraviolet-visible-near infrared (UV-VIS-NIR) spectroscopy. Result of the work shows that the samples with inhibitor produced an absorbance peak at 1403nm. The peak absorbance of the spectral response is proportional to the weight percentage of inhibitor content that was measured using the conventional method, which is IEC 60666. An equation was derived to model the peak absorbance and weight percent of inhibitor content (%IC) of the oil and it was verified with additional oil sample with a known weight percent of Inhibitor content. © 2016 IEEE.
format Conference Paper
author Sing, L.Y.
Ker, P.J.
Jamaludin, M.Z.
Ismail, A.
Abdullah, F.
Mun, L.H.
Saniyyat, C.N.
Shukri, M.
spellingShingle Sing, L.Y.
Ker, P.J.
Jamaludin, M.Z.
Ismail, A.
Abdullah, F.
Mun, L.H.
Saniyyat, C.N.
Shukri, M.
Determining the inhibitor content of transformer insulating oil using UV-Vis spectroscopy
author_facet Sing, L.Y.
Ker, P.J.
Jamaludin, M.Z.
Ismail, A.
Abdullah, F.
Mun, L.H.
Saniyyat, C.N.
Shukri, M.
author_sort Sing, L.Y.
title Determining the inhibitor content of transformer insulating oil using UV-Vis spectroscopy
title_short Determining the inhibitor content of transformer insulating oil using UV-Vis spectroscopy
title_full Determining the inhibitor content of transformer insulating oil using UV-Vis spectroscopy
title_fullStr Determining the inhibitor content of transformer insulating oil using UV-Vis spectroscopy
title_full_unstemmed Determining the inhibitor content of transformer insulating oil using UV-Vis spectroscopy
title_sort determining the inhibitor content of transformer insulating oil using uv-vis spectroscopy
publishDate 2017
_version_ 1644493811165954048