Research on the possibilities of solution of the monitoring projects of the railway power supply system

Authors

DOI:

https://doi.org/10.15587/2312-8372.2019.187278

Keywords:

power supply system, railway transport, data synchronization, computer tools, man-machine interface settings

Abstract

The object of research is the monitoring parameters of the railway power supply system. PMUs power supply system recording devices are the basis of the WAMS transient monitoring system. An important aspect of WAMS elements is data synchronization, which is technologically ensured using satellite-based orientation systems.

The study used a system analysis, a systematic approach to the problem, as well as methods of synchronization and systematization of data.

Methods for solving problems of monitoring processes of the railway transport power supply system are investigated. Diagnostic functions, currently implemented using PMUs, WAMS, are actually concentrated and limited in the areas of power supply, and include monitoring of low-frequency fluctuations of system parameters. As well as identification of the emergency mode and determining the location of damage in the facilities of the power supply system. In addition, to use these functions, at the same time, even with the modern development of systems, it is necessary to ensure diagnostic functions on the scale of power systems, with minimizing the participation and influence of a person in the formation of the results of the assessment of modes. This is due to the fact that there is a need to expand diagnostic functions according to the parameters of the objects of the power supply system, the monitoring systems used, which will solve the problems of operational dispatch control of these objects.

This ensures the resolution of operational dispatch tasks, assessing and predicting the state in the processing of information, its synchronization and systematization. As well as monitoring and synchronizing measurements over time, which significantly increases the level of operational dispatch control of the operating modes of objects of the power supply system. Compared with similar technologies, the new ones based on the use of PMU devices for data collection have an advantage over traditional SCADA technologies, which measured system objects without time synchronization.

Author Biographies

Halyna Holub, State University of Infrastructure and Technologies, 9, Kyrylivska str., Kyiv, Ukraine, 04071

PhD, Associate Professor

Department of Automation and Computer-Integrated Technologies of Transport

Ivan Kulbovskyi, State University of Infrastructure and Technologies, 9, Kyrylivska str., Kyiv, Ukraine, 04071

PhD, Associate Professor

Department of Automation and Computer-Integrated Technologies of Transport

Inna Skliarenko, State University of Infrastructure and Technologies, 9, Kyrylivska str., Kyiv, Ukraine, 04071

PhD, Associate Professor, Senior Researcher

Research Sector

Iryna Hannoshyna, State University of Infrastructure and Technologies, 9, Kyrylivska str., Kyiv, Ukraine, 04071

PhD, Senior Lecturer

Department of Navigation and Ship Management

Yurii Klochkov, State University of Infrastructure and Technologies, 9, Kyrylivska str., Kyiv, Ukraine, 04071

PhD, Senior Lecturer

Department of Navigation and Ship Management

Valentina Kharuta, College of Information Technology and Land Management of National Aviation University, 6, Druzhkivska str., Kyiv, Ukraine, 02000

Assistant

References

  1. Butkevych, O. F., Chyzhevskyi, V. V. (2010). Deiaki aspekty monitorynhu nyzkochastotnykh kolyvan rezhymnykh parametriv enerhoobiednan. Intelektualni enerhetychni systemy – IES (ESS10). Mukacheve.
  2. Stohnii, B. S., Kyrylenko, O. V., Denysiuk, S. P. (2010). Intelektualni elektrychni merezhi elektroenerhetychnykh system ta yikh tekhnolohichne zabezpechennia. Tekhnichna elektrodynamika, 6, 44–50.
  3. Stasiuk, O. I., Butkevych, O. F., Levkoniuk, A. V. (2014). Pidvyshchennia nadiinosti monitorynhu dopustymosti zavantazhen kontrolovanykh peretyniv enerhosystem. Tekhnichna elektrodynamika, 2, 56–67.
  4. Butkevych, O. F., Tutyk, V. L. (2010). Monitorynh ta diahnostuvannia elektroenerhetychnykh obiektiv ta system Ukrainy na bazi kompleksiv «Rehina». Hidroenerhetyka Ukrainy, 3, 46–49.
  5. Kalyniuk, I. O. (2010). Perspektyvy orhanizatsii kompiuternykh system monitorynhu ta diahnostyky elektrychnykh merezh i obiektiv. Zb. nauk. prats DETUT: seriia «Transportni systemy i tekhnolohii», 17, 194–200.
  6. Liu, Q., Watanabe, M., Mitani, Y. (2012). Hilbert-Huang Transform and FFT Analysis of Oscillation Characteristics for Japan Power System based on Campus WAMS. Power and Energy Systems. Phuket, 7–12. doi: http://doi.org/10.2316/p.2012.768-112
  7. Stohnii, B. S., Kyrylenko, O. V., Butkevych, O. F. ta in. (2011). Systema zboru ta obrobky informatsii, shcho reiestruietsia kompleksamy «Rehina-Ch». Pratsi IED NAN Ukrainy, 29, 35–46.
  8. Haidenko, O. S. (2014). Metodolohichni kontseptsii rozvytku informatsiinykh tekhnolohii operatyvnoho keruvannia tiahovymy elektromerezhamy. Zbirnyk naukovykh prats «Transportni systemy i tekhnolohii», 25, 153–160.
  9. Butkevych, O. F., Levkoniuk, A. V., Zorin, Ye. V., Bulanaia, V. S. (2010). Pro vykorystannia synkhronizovanykh vymiriv kutiv napruhy z obiektiv OES Ukrainy pry vyznachenni dopustymosti yii potochnykh rezhymiv za zapasamy statychnoi stiikosti. Tekhnichna elektrodynamika, 6, 51–58.
  10. Kulbovskyi, І. І., Holub, H. M, Kyiashko, V. T., Andonova, S. (2018). Information model of railway transport power supply system computer monitoring data flow. Metallurgical and Mining Industry, 2, 31–36.
  11. Stasiuk, O. I., Tutyk, V. L., Honcharova, L. L., Holub, H. M. (2015). Matematychni modeli i kompiuterno-oriientovani metody monitorynhu i identyfikatsii avariinykh rezhymiv tiahovykh merezh. Informatsiino-keruiuchi systemy na zaliznychnomu transporti, 2, 7–13.
  12. Stasiuk, O. I., Honcharova, L. L., Maksymchuk, V. F. (2012). Metody orhanizatsii kompiuternoi merezhi monitorynhu parametriv rezhymiv system elektropostachannia. Informatsiino-keruiuchi systemy na zaliznychnomu transporti, naukovo-tekhnichnyi zhurnal, 2, 35–40.

Published

2019-11-21

How to Cite

Holub, H., Kulbovskyi, I., Skliarenko, I., Hannoshyna, I., Klochkov, Y., & Kharuta, V. (2019). Research on the possibilities of solution of the monitoring projects of the railway power supply system. Technology Audit and Production Reserves, 6(2(50), 23–25. https://doi.org/10.15587/2312-8372.2019.187278

Issue

Section

Reports on research projects