D. B. Zarva, A. Deriglazov, E. G. Batyrbekov, I. L. Tazhibayeva, V. M. Pavlov, A. M. Lee, A. A. Mezentsev, S. V. Merkulov, Yu N. Golobokov

Результат исследований: Материалы для журналаСтатьярецензирование


Taking into account the complexity of electrotechnical processes occurring in power supply systems and coils of tokamaks electromagnetic system, the financial cost and installed electrical power of the equipment used, the possible consequences of emergency situations associated with power supply systems of such type facility - the need to create specialized emergency protection systems becomes obvious as well as create secure verification of the appropriate accident-prevention algorithms. This effort focuses on the creation of emergency protection system of electrotechnical complex of Kazakhstan's Tokamak KTM, the development, formalization, verification of the applied in such case accident-prevention algorithms. As a result of the work done all the possible and detected types of emergency situations related to power supply system and electromagnetic system coils of Tokamak KTM were analyzed, accident-prevention algorithms and algorithms of KTM electrical equipment bringing to a safe state were developed, verified and implemented. The obtained experimental data allow to make a conclusion of the efficiency in emergency protection system of the electrotechnical complex of Tokamak KTM, as well as the applicability of methods used to formalize and verify the algorithms setting the logic of the emergency discrete-event systems when solving similar problems in other fields of science and industry sectors.

Переведенное названиеEmergency protection system of electrotechnical tokamak KTM complex. Algorithmic and information support
Язык оригиналаРусский
Страницы (с-по)74-88
Число страниц15
ЖурналProblems of Atomic Science and Technology, Series Thermonuclear Fusion
Номер выпуска1
СостояниеОпубликовано - 1 янв 2019


  • Electromagnetic system
  • Electrotechnical complex
  • Emergency protection and automation system
  • Finite state machine
  • Formalization and algorithmization
  • Petri net
  • Pulsed power supply
  • Reactive discrete-event system
  • Tokamak KTM

ASJC Scopus subject areas

  • Nuclear and High Energy Physics
  • Nuclear Energy and Engineering
  • Condensed Matter Physics

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