Device for quality control of high voltage electrical isolation

Authors

  • Aleksandr Serebryakov Nizhny Novgorod State Engineering and Economic University, Knyaginino
  • Vladimir Osokin Nizhny Novgorod State Engineering and Economic University, Knyaginino
  • Dmitriy Semyonov Nizhny Novgorod State Engineering and Economic University, Knyaginino
  • Dmitriy Dulepov Nizhny Novgorod State Engineering and Economic University, Knyaginino

Keywords:

charge of absorption, absorption coefficient, self-discharge voltage, return voltage, remaining isolation lifespan, high voltage isolation

Abstract

The article examines different physical values that are connected with the absorption phenomenon and their use for condition assessment of non-uniform high voltage isolation. The device has been developed for condition monitoring of non-uniform high voltage isolation and determination of its remaining lifespan using isolation condition evaluation based on absorption phenomenon.  

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References

[APA]

1. Serebryakov, A.S. (2005). Elektrotekhnicheskoe materialovedenie. Elektroizolyacionnye materialy [Electrical materials science. Electrical insulating materials]. Moscow: Marshrut [In Russian].

2. Alekseev, B.A. (2002). Kontrol' sostoyaniya (diagnostika) krupnyh silovyh transformatorov [Condition monitoring (diagnostics) of large power transformers]. Moscow: Izd-vo NC ENAS.

3. Serebryakov, A.S. (2014). Transformatory [Transformers]. Moscow: Izd. dom MEI.

4. Serebryakov, A.S. (2014). Diagnostika glavnoj izolyacii elektrodvigatelej tyagovogo podvizhnogo sostava rossijskih zheleznyh dorog [Diagnostics of the main insulation of electric motors of traction rolling stock of Russian railways]. Moscow: MIIT.

5. Serebryakov, A.S., & Semenov D.A. (2014). Patent RU 2523075 S2. Ustrojstvo kontrolya kachestva elektricheskoj izolyacii [Device for quality control of electrical insulation].

6. Serebryakov, A.S., & Semenov D.A. (2013). Certificate of state registration of the computer program No 2013617538. Programma rascheta ostatochnogo resursa izolyacii transformatorov (PROSTARESIS-1) [The program for calculating the residual life of transformer insulation (PROSTARESIS-1)].

7. Serebryakov, A.S., Osokin, V.L., & Semenov D.A. (2020). Patent RU 2730535 S1. Ustrojstvo dlya kontrolya kachestva elektricheskoj izolyacii [Device for quality control of electrical insulation].

8. Weindl, C., Mladenovic, I., Scharrer, T., & Patsch. T. (2010). Development of the p-factor in an accelerated ageing experiment of the MV PILC cables. Proc. of the 10th IEEE International Conference on Solid Dielectrics. (p. 11525117). Potsdam: IEEE. Available: http://doi.org/10.1109/ICSD.2010.5568071

9. Menzel, J., Patsch, R., & Kamenka D. (2009). Measurement of the dielectric properties of paper-oil cables and the cellulose-oil insulation system of power transformers. Proc. of the IEEE 9th International Conference on the Properties and Applications of Dielectric Materials. (pp. 1020-1025). Harbin: IEEE. Available: https://doi.org/10.1109/ICPADM.2009.5252441

10. Sidorova, A., Semenov, D., Cheremukhin, A., & Astakhova T. (2019). Algorithm for Determining the State of Impregnated Paper Insulation of High-Voltage Cables. International Journal of Emerging Electric Power Systems, 20(4), 20190002. Available: https://doi.org/10.1515/ijeeps-2019-0002

11. Semenov, D., Sidorova, A., Romanov, P., & Kuvshinov A. (2018). Examination of State of the Cable Insulation by the Return Voltage. International Journal of Emerging Electric Power Systems, 19(6), 20180167. Available: https://doi.org/10.1515/ijeeps-2018-0167

[ГОСТ Р 7.0.5–2008]

1. Серебряков А.С. Электротехническое материаловедение. Электроизоляционные материалы: уч. пос. М.: Маршрут, 2005. 280 с.
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2. Алексеев Б.А. Контроль состояния (диагностика) крупных силовых трансформаторов: уч. пос. М.: Изд-во НЦ ЭНАС, 2002. 216 с.

3. Серебряков А.С. Трансформаторы: уч. пос. М.: Изд. дом МЭИ, 2014. 360 с.

4. Серебряков А.С. Диагностика главной изоляции электродвигателей тягового подвижного состава российских железных дорог: монография. М.: МИИТ, 2014. 275 с.

5. Пат. РФ RU 2523075 С2 Рос. Федерация G01R 27/18. Устройство контроля качества электрической изоляции / А.С. Серебряков, Д.А. Семенов; заявитель и патентообладатель Нижегород. инженерно-эконом. ин-т. № 2012122288/28; заявл. 29.05.2012; опубл. 20.07.2014, бюл. № 20.
eLIBRARY: https://www.elibrary.ru/item.asp?id=37801770

6. Св-во о гос. рег. прогр. для ЭВМ № 2013617538. Программа расчета остаточного ресурса изоляции трансформаторов (PROSTARESIS-1) / А.С. Серебряков, Д.А. Семенов: правообл. Правообладатель: Нижегородский гос. инж.-эк. инст. Дата публикации: 20.09.2013.

7. Пат. РФ RU 2730535 С1 Рос. Федерация G01R 27/18; G01R 31/14, Устройство для контроля качества электрической изоляции / А.С. Серебряков, В.Л. Осокин, Д.А. Семенов; заявитель и патентообладатель Нижегород. инженерно-эконом. ин-т. № 2020104251, заявл. 30.01.2020; опубл. 24.08.2020, бюл. № 24.
eLIBRARY: https://www.elibrary.ru/item.asp?id=43916513

8. Development of the p-factor in an accelerated ageing experiment of the MV PILC cables / C. Weindl, I. Mladenovic, T. Scharrer, R. Patsch. // 10th IEEE International Conference on Solid Dielectrics. Potsdam: IEEE, 2010. P. 11525117.
DOI: http://doi.org/10.1109/ICSD.2010.5568071

9. Menzel J., Patsch R., Kamenka D. Measurement of the dielectric properties of paper-oil cables and the cellulose-oil insulation system of power transformers // IEEE 9th International Conference on the Properties and Applications of Dielectric Materials. Harbin: IEEE, 2009. P. 1020-1025.
DOI: https://doi.org/10.1109/ICPADM.2009.5252441

10. Algorithm for Determining the State of Impregnated Paper Insulation of High-Voltage Cables / A. Sidorova, D. Semenov, A. Cheremukhin, T. Astakhova // International Journal of Emerging Electric Power Systems. 2019. Vol. 20(4). P. 20190002.
DOI: https://doi.org/10.1515/ijeeps-2019-0002
eLIBRARY: https://www.elibrary.ru/item.asp?id=41612409

11. Examination of State of the Cable Insulation by the Return Voltage / D. Semenov, A. Sidorova, P. Romanov, and A. Kuvshinov // International Journal of Emerging Electric Power Systems. 2018. Vol. 19(6). P. 20180167.
DOI: https://doi.org/10.1515/ijeeps-2018-0167
eLIBRARY: https://www.elibrary.ru/item.asp?id=38619677

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Published

2020-11-25

How to Cite

Serebryakov А., Osokin В., Semyonov Д., & Dulepov Д. (2020). Device for quality control of high voltage electrical isolation. Energy Systems, 5(1), 76–85. Retrieved from https://j-es.ru/index.php/journal/article/view/2020-1-009

Issue

Vol. 5 No. 1 (2020): The V International Scientific and Technical Conference “Energy systems” (ICES - 2020)

Section

Main issue

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Copyright (c) 2020 A.S. Serebryakov, V.L. Osokin, D.A. Semyonov and D.E. Dulepov

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This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.