Improvement of Method of Control of Insulation of Generator–Transformer Unit
DOI:
https://doi.org/10.31649/1997-9266-2020-148-1-39-45Keywords:
synchronous generator, block transformer, self-contained transformer, power line, isolation, information-measuring system, diagnosticsAbstract
In the conditions of significant aging of the main production capacities and prolongation of the service life of electrical equipment of power plants of Ukraine, the question of development and implementation of methods of continuous control of the technical condition of the generator–transformer unit equipment is urgent. Modern information-measuring systems and relay protection terminals, operated on generator–transformer units, enable control of electrical, thermal, mechanical parameters and parameters characterizing the status or position of technological fittings and auxiliary equipment, as well as providing relay protection of electrical equipment a wide range of possible damage.
However, the existing information-measurement systems do not allow the tracing of the following electrical parameters of the stator winding isolation such as resistance, capacitance and tangent of angle of the dielectric loss, and relay protection may be insensitive to the occurrence of single-phase ground fault near the neutral point of the stator winding and symmetric decrease of parameters of the stator winding insulation, and does not allow detecting the occurrence of damage at an early stage of its development and signal this to the service personnel. There is also the possibility of false actuations at unit start-ups due to the asymmetry of voltages in the machine phases, which is especially acute in synchronous hydrogenerators.
The paper proposes a method of controlling the isolation of a stator winding of a synchronous generator operating in a block with a transformer, a block diagram and basic formulas for signal processing and calculation of electrical insulation parameters. The proposed method is based on the overlay on the circuit containing the stator winding, alternating voltage signals with a frequency lower than the rated network frequency, DC voltage, the use of energy of the pre-charged capacitor and the calculation of the isolation parameters of the generator–transformer unit. The proposed solutions will allow increasing the efficiency of operation of power units by providing operational and repair personnel with reliable information on the technical condition of isolation of equipment in the scheme of power unit output.
References
Г. М. Хуторецкий, М. И. Токов, и Е. В. Толвинская, Проектирование турбогенераторов. Лениниград: Энергоатомиздат, 1987, 256 с.
А. И. Вольдек, Электрические машины. Лениниград: Энергия, 1974, 840 с.
О. С. Голоднова, Основные причины отказов турбогенераторов и пути их предупреждения. Москва, Россия: ИПК-госслужбы, 2005, 93 с.
А. М. Федосеев, и М. А. Федосеев, Релейная защита электро-энергетических систем. Москва, Россия: Энергоатомиздат, 1992, 528 с.
J. L. Blackburn, and Th. J. Domin, Protective Relaying: Principles and Applications. Boca Raton, Florida, USA, Taylor & Francis Group CRC Press, 2006, 638 p.
W. A. Elmore, Protective Relaying Theory and Applications. New York, USA, Marcel Dekker, 2004, 410 p.
A. M. Sleva, Protective Relay Principles Boca Raton, Florida, USA, Taylor & Francis Group CRC Press, 2009, 368 p.
M. Loos, Single Phase to Ground Fault in Compensated Network. Saarbrücken, Germany, Lambert Academic Publishing, 2014, 228 p.
D. Reimert, Protective Relaying for Power Generation Systems. Boca Raton, Florida, USA, Taylor & Francis Group CRC Press, 2005, 592 p.
A. G. Phadke, and J. S. Thorp, Computer Relaying for Power Systems. Hoboken, New Jersey, USA, Wiley Language, 2009, 344 p.
S. H. Horowitz, and A. G. Phadke, Power System Relaying. New York, USA, Research Studies Press Limited, 2008, 331 p.
Э. М. Шнеерсон, Цифровая релейная защита. Москва, Россия: Энергоатомиздат, 2007, 549 с.
Р. А. Вайнштейн, Р. Б. Тентиев, и С. М. Юдин, «Повышение надежности защиты генераторов от замыканий на землю, основанной на наложении вспомогательного тока с частотой 25 Гц», Известия Томского политехнического университета, № 4, с. 96-100, 2008.
В. М. Кутін, та О. О. Шпачук, Захист від однофазних замикань на землю обмотки статора синхронного генератора, що працює в блоці з трансформатором. Вінниця, Україна: ВНТУ, 2019, 183 с.
В. М. Кутін, та О. О. Шпачук, «Удосконалення засобів захисту від однофазних замикань на землю в обмотці статора синхронного генератора», Проблеми аварійності та діагностика в електромеханічних системах та електричних машинах, № 2/2013(22), ч. 2, с. 393-396.
Downloads
-
PDF (Українська)
Downloads: 235
Published
How to Cite
Issue
Section
License
Authors who publish with this journal agree to the following terms:
- Authors retain copyright and grant the journal right of first publication.
- Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgment of its initial publication in this journal.
- Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).
