Automation of the Analysis of the Thermal State of Electrical Equipment

Authors

  • V. M. Kutin Vinnytsia National Technical University
  • O. O. Shpachuk Separated subdivision «Khmelnytskyi Nuclear Power Plant»
  • M. V. Nikitchuk Separated subdivision «Khmelnytskyi Nuclear Power Plant»
  • V. M. Svitko Separated subdivision «Khmelnytskyi Nuclear Power Plant»

Keywords:

technical condition, electrical equipment, current-carrying part, thermographic control, infrared technology

Abstract

The paper considers the main problems arising in the analysis of the thermal state of electrical equipment 0, 4...750 kV and proposes general approaches for the construction of an automated subsystem of the analysis of the thermal state of electrical equipment.

Development of an effective system for diagnosing and making decisions on the expediency of further exploitation of electrical equipment is relevant, given the significant lifetime of most electric power equipment of power plants and substations of Ukraine.

Diagnostic system should have the capability of automatic or automated collection and processing of the results of periodic electrical tests and measurements, the control of the level of partial discharges, the control of the level of free gases dissolved in the transformer oil, the control of the thermal state of the electrical equipment; to receive data on the mode of loading of the controlled equipment, weather conditions, passport data of the equipment; contain knowledge bases and algorithms for analysis of data of current measurements of controlled parameters and a set of measurements for the comprehensive determination of technical state of equipment.

It is advisable to use a comparison of the temperature of elements of the electrical equipment presented in relative units to compare the results of thermal imaging tests that were performed under different ambient conditions and in different seasons.

As the base temperature, it is proposed to use: for a powerful oil-filled electrical equipment (power transformers, autotransformers, reactors), the maximum temperature indicated by the thermosensors is laid down to the most hot spot of equipment, and for electrical equipment with porcelain insulation and low-strength power oil-filled equipment - the ambient temperature on measurement moment.

Author Biographies

V. M. Kutin, Vinnytsia National Technical University

Dr. Sc.(Eng.), Professor, Professor of the Chair of Power Plants and Systems

O. O. Shpachuk, Separated subdivision «Khmelnytskyi Nuclear Power Plant»

Engineer for Adjustment and Testing of the Group of Thermographic Control and Diagnostics of Electrical Equipment, Electric Department

M. V. Nikitchuk, Separated subdivision «Khmelnytskyi Nuclear Power Plant»

Electrician for Tests and Measurements of the Group of Thermographic Control and Diagnostics of Electrical Equipment, Electric Department

V. M. Svitko, Separated subdivision «Khmelnytskyi Nuclear Power Plant»

Electrician for Tests and Measurements of the Group of Thermographic Control and Diagnostics of Electrical Equipment, Electric Department

References

Є. І. Удод, Р. М. Горбей, та В. Ф. Чернов, Діагностування електроустановок 0,4–750 кВ засобами інфрачервоної техніки. Київ, Україна: «КВІЦ», 2007, 370 с. ISBN 978-966-96441-8-3.

С. А. Бажанов, Тепловизионный контроль электрооборудования в эксплуатации (Часть 1). Москва, Россия: НТФ «Энергопрогресс», 2005, 80 с. ISNN 0013-7278.

С. А. Бажанов, Тепловизионный контроль электрооборудования в эксплуатации (Часть 2). Москва, Россия: НТФ «Энергопрогресс», 2005, 64 с. ISNN 0013-7278.

С. А. Бажанов, Инфракрасная диагностика электрооборудования распределительных устройств. Москва, Россия: НТФ «Энергопрогресс», 2000, 76 с. ISNN 0013-7278.

«Технічне діагностування електрообладнання та контактних з’єднань електроустановок і повітряних ліній електропередачі засобами інфрачервоної техніки», СОУ-Н ЕЕ 20.577 : 2007. Київ, Україна: ДП «НТУКЦ «АсЕлЕнерго». 2007, 123 с. ISBN 978-966-96441-7-6.

Мінпаливенерго України, «Норми випробування електрообладнання», СОУ-Н ЕЕ 20.302 : 2007. Київ, Україна: ГРІФРЕ : М-во палива та енергетики України. 2007, 262 с.

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Published

2018-06-28

How to Cite

[1]
V. M. Kutin, O. O. Shpachuk, M. V. Nikitchuk, and V. M. Svitko, “Automation of the Analysis of the Thermal State of Electrical Equipment”, Вісник ВПІ, no. 3, pp. 51–56, Jun. 2018.

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Section

Energy generation and electrical engineering

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