THE RESEARCH OF EMERGENCY MODES OF THE SEMICONDUCTING COMPENSATOR


Cite item

Full Text

Abstract

The article covers the study of emergency situations in the work of semiconducting compensator. The authors considered potential impact of emergency situations, determined the main emergency modes that may arise in the system "industrial supply mains - static semiconducting compensator - load", and showed the basic ways of prediction of system behavior under the emergency conditions and boundary conditions close to the emergency. A single-phase power supply of contact AC machine for spot welding used in the automotive industry when manufacturing the body parts in mechanical engineering is considered to be an example of electro-process load in the system. The authors performed a simulation modeling in the Matlab Simulink system. The article presents and describes the diagram of electrical system computer model, describes mathematical expressions for calculation of compensating current. The authors give the simulation results in the form of flow diagrams in the absence of compensation, in normal operation of compensating device, and in emergency modes: short-circuit in the load, short-circuit in the semiconducting switch of the compensator voltage inverter, at idle load, and at no-load of inverter switch of compensator voltage. The article presents the ways of protection of compensator and its load in such modes, and makes the conclusions about the possibility of their processing using the facilities of compensator management system. The authors prove the necessity of joint use of such traditional protection facilities as circuit breakers under the conditions of short-circuit in the load. The article describes possible behavior of the control system of compensating device for safe processing of short-circuit of one inverter voltage switch, as well as the modes of no-load or compensator switch.

About the authors

Alexander Alexandrovich Shevtsov

Togliatti State University, Togliatti

Email: a_shevtsov@list.ru

candidate of technical sciences, Associate Professor, Head of the Department of Industrial Electronics

Russian Federation

Evgeny Sergeevich Glibin

Togliatti State University, Togliatti

Author for correspondence.
Email: zhenya118@gmail.com

candidate of technical sciences, assistant professor of the Department of Industrial Electronics

Russian Federation

References

  1. Shevtsov A.A., Glibin E.S. Simulation modeling of joint operation of static compensators and contact welding machine. Elektrotehnika, 2010, no. 4, pp. 34–38.
  2. Ivashin V.V., Pozdnov M.V., Pryadilov A.V. Electromagnetic vibrator with controlled vibration frequency. Nauka – proizvodstvu, 2004, no. 4, pp. 46–47.
  3. Zhezhelenko I.V. Pokazateli kachestva elektroenergii na promishlennih predpriyatiyah [Quality indicators of electric power at the industrial enterprises]. Moscow, Energiya publ., 1977, 128 p.
  4. Zhelezko Yu.S. Kompensatsiya reaktivnoy moshchnosti i povisheniya kachestva elektroenergii [Reactive power compensation and electric power quality improvement]. Moscow, Energoatomizdat publ., 1985, 224 p.
  5. Dyakonov V.P., Penkov A.A. MATLAB i Simulink v elektroenergetike [MATLAB and Simulink in power industry]. Moscow, Goryachaya liniya-Telekom publ., 2009, 816 p.
  6. Pevchev V.P. Application of MICRO CAP software when simulating the process of actuation of impulse electro-mechanical. Elektrotehnika, 2010, no. 4, pp. 55–59.
  7. Glibin E.S., Shevtsov A.A. Simulation of functioning of compensating devices jointly with the contact welding machines. Svarochnoe proizvodstvo, 2009, no. 5, pp. 17–21.
  8. Debni Dzh., Kharman T. Simulink 4. Sektety masterstva [Simulink 4. Se-crets of skill]. Moscow, Binom. Laboratoriya znaniy publ., 2003, 403 p.
  9. German-Galkin S.G. Kompyuternoe modelirovanie poluprovodnikovih sistem v MATLAB 6.0 [Computer simulation of semiconducting systems in MATLAB 6.0]. S. Peterburg, Korona print publ., 2001, 320 p.
  10. Shevtsov A.A., Glibin E.S. Istochnik pitaniya kontaktnoy svarochnoy mashiny [Power supply of contact welding machine]. Patent RF, no. 2421311, 2009.
  11. Klimov A.S. Osnovi tekhnologii i postroeniya oborudovaniya dlya kontaktnoy svarki [Principles of technology and development of equipment for contact welding]. Tolyatty, Tolyattinskiy gos. universitet publ., 2004, 170 p.
  12. Lebedev V.K. et al. Mashinostroenie. Tom IV-T. Oborudovanie dlya svarki [Mechanical engineering. T. IV-6. Welding equipment]. Moscow, Mashinostroenie publ., 1999, 496 p.
  13. Banov M.D. Tekhnologiya i oborudovanie kontaktnoy svarki [Technologies and equipment for contact welding]. Moscow, Akademiya publ., 2005, 224 p.
  14. Slibin E.S., Shevtsov A.A. The Price-Based Aspects of Non-Active Power Compensator Selection for Contact Welding. Vestnik Samarskogo gosudarstvennogo tekhnicheskogo universiteta. Seriya Tekhnicheskie nauki, 2009, no. 2, pp. 152–158.
  15. Zhelezko Yu.S. Kompensatsiya reaktivnoy moshchnosti v slozhnih elektricheskih sistemah [Reactive power compensation in complex electrical sys-tems]. Moscow, Energoizdat publ., 1981, 200 p.
  16. Ivashin V.V., Pozdnov M.V., Pryadilov A.V. Vibrating source of rotary fluctuations. Vektor nauki Tolyattinskogo gosudarstvennogo universiteta, 2010, no. 3, pp. 56–59.
  17. Ivashin V.V., Medvedev V.A., Pozdnov M.V. Rezonansniy vibrator [Resonance vibrator]. Patent RF no. 2177840, 1999.
  18. Zhezhelenko I.V. Visshie garmoniki v sistemah elektrosnabzheniya predpriyatiy [Higher harmonics in power supply systems of the enterprises]. Moscow, Energoatomizdat publ., 1984, 160 p.
  19. Agunov M.V., Shevtsov A.A. Sposob dinamicheskoy kompensatsii neaktivnih sostavlyayushchih moshchnosti [Method of dynamic compensation of inactive power components]. Patent RF no. 2103779, 1998.
  20. Agunov M.V. Energeticheskie protsessi v elektricheskih tsepyah s nesinusoidalnimi rezhimami i ih effektivnost [Energy processes in electrical circuits with non-sinusoidal modes and their efficiency]. Kishinev, MoldNIITEI publ., 1997, 84 p.
  21. Dyakonov V.P. Matlab R2006/2007/2008. Simulink 5/6/7. Osnovi primeneniya [Matlab R2006/2007/2008. Simulink 5/6/7. Principles of use]. Moscow, Solon-Press publ., 2008, 800 p.

Supplementary files

Supplementary Files
Action
1. JATS XML

Copyright (c)



This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies