Grounds for Searching the Best Solution for Controlling the Pressurized Water Reactor in Dynamic Modes when Changing the Controlled Parameters

: pp. 56 – 61
Received: March 23, 2021
Revised: April 12, 2021
Accepted: April 19, 2021
Odessa Polytechnic State University
Odessa Polytechnic State University
Odessa Polytechnic State University
Odessa National Polytechnic University

The article focused on the development of information technology for the optimization of control over complex dynamic systems at the stage of their design that should realize possibilities of modeling of linear and nonlinear dynamic systems, the analysis and synthesis of such systems, their optimization on various quality criteria. The purpose of this article is to develop the structure and elements of information technology to optimize the control of complex dynamic systems, including automated control systems. The general structure and functional model of information technology of the analysis and synthesis of control systems includes modeling of dynamic systems in the form of systems of differential equations and transfer functions, integration of systems of differential equations, calculation of system quality criteria, methods for solving various optimization tasks on solutions of optimization problems of dynamic systems is offered.

  1. Bastrikov M.V., Ponomarev O.P. Information technologies control. Moscow, EKSMO Publ., 2002. 391 p. (in Russian)
  2. Pavlov A.A., Telenik S.F. Information technologies and algorithms in control. Kiev, Tekhnika Publ., 2002. 344 p. (in Ukrainian)
  3. Ershova N.M. Modern methods of the theory of design and control of complex dynamic systems: monograph. Dnepropetrovsk, PRASA Publ., 2016. 272 p. (in Ukrainian)
  4. Yastrebenetskiy М.А., Vasil'chenko V.N., Vinogradov S.V. Nuclear power plant safety: information and control Systems. Kiev, Tekhnika Publ., 2004. 472 p. (in Ukrainian)
  5. Nikulina E.N. Development of the controller for the quadcopter Finken in simulation enviroment Vrep / V.P. Severin, E.N. Nikulina, V.S. Buriakovskyi // Bulletin of the National Technical University "Kharkiv Polytechnic Institute" (series: Systems analysis, management and information technology). – Kharkiv: NTU «KhPI», 2016. – No. 37 (1209). – pp. 9–12. (in Ukrainian)
  6. Nikulina E.N. Analysis of electronic Butterworth filters by numerical methods / Severin V.P., Nikulina E.N., Buriakovskyi V.S., // Bulletin of the National Technical University "Kharkiv Polytechnic Institute" (series: Systems analysis, management and information technology). – Kharkiv: NTU «KhPI», 2014. – No. 55 (1097). – pp. 19–24. (in Ukrainian)
  7. Maksymov M.V. Models of the Nuclear Power Unit WWER-1000 Using Data Mining Techniques / Tymur Foshch, Filipe Portela, José Machado,  // Procedia Computer Science – 2016– Vol. 100 – Pp. 253–262.
  8. Nikulina E.N., Severin V.P., Lukidova D.A. Mathematical models for the study of transient modes of the WWER-1000 nuclear reactor of the V-320 series, 2018. No.  1(77). Pp. 18–23. (in Russian)
  9. Nikulina E.N. Block of optimization methods for information technology of control of complex dynamic systems / Severin V.P., Nikulina E.N., Shevtsov O.C. // Information technologies: science, engineering, technology, education, health: Abstracts of the XXVII International Scientific and Practical Conference MicroCAD-2019, Pt. I. – Kharkiv: NTU «KhPI», 2019. – P. 41. (in Ukrainian)
  10. Maksymov M.V. Regression Maksymov M.V. Method for controlling a reactor plant with WWER-1000 in maneuverable mode / Maksymov M.V., Tsiselskaya T.A., Kokol E.A. // Problems of Control and Informatics: Intern.  scientific and technical journal. -2015. – No. 3. – pp. 59–75. (in Russian)
T. Petik, V. Vataman, K. Beglov, A. Lysyuk. Grounds for searching the best solution for controlling the pressurized water reactor in dynamic modes when changing the controlled parameters. Energy Engineering and Control Systems, 2021 Vol. 7, No. 1, pp. 56 – 61.