Abstract
Consideration was given to the main issues concerning development of a flexible modeling complex for the operator support system of a UPP power-generating unit with VVER reactor, as well as to the model for calculation of the dynamics of the neutron-physical parameters of the VVER-1000 core with the aim of using it in the flexible modeling complex.
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Egorov, A.K., Zharko, E.F., Molchanov, S.A., et al., Experience in Designing Effective Models and Fast Programs for Calculation of the Parameters of the Turbine Section of the UPP Power Units, in Abstr. Workshop “Safety and Control Systems of Nuclear reactor,” Moscow: TsHIIATOMINFORM, 1995, pp. 25, 26.
Egorov, A.K., Zharko, E.F., Molchanov, S.A., et al., New Elements in the Informational Operator Support System, in Abstr. Workshop “Safety and Control Systems of Nuclear reactor,” Moscow: TsHIIATOMINFORM, 1995, pp. 52, 53.
Saprykin, E.M., Molchanov, S.A., Brikov, Yu.H., et al., Program-technical Complex for Analysis and Forecasting of the Current States of a Power Unit with VVER-1000 reactor, in Abstr. All-Union Workshop “Problems of Dynamics of Unmanned and Transport NPI,” Moscow: TsHIIATOMINFORM, 1992, pp. 21–24.
Hetrick, D.L., Dynamics of Nuclaar Reactors, Chicago: Chicago Univ. Press, 1971. Translated under the title Dinamika yadernykh reaktorov, Moscow: Atomizdat, 1975.
Demen’t’ev, B.A., Kinetika i regulirovanie yadernykh reaktorov (Kinetics and Control of the Nuclear Reactors), Moscow: Energoatomizdat, 1986.
Filipchuk, E.V., Potapenko, P.T., and Postnikov, V.V., Upravlenie neitronnym polem yadernogo reaktora (Control of the Nuclear Reactor Neutron Field), Moscow: Energoizdat, 1981.
Rudik, A.P., Ksenonovye perekhodnye protsessy (Xenon Transients), Moscow: Atomizdat, 1974.
Rudik, A.P., Fizicheskie osnovy yadernykh reaktorov (Physical Fundamentals of Nuclear Reactors), Moscow: Atomizdat, 1979.
Case, K.M. and Zweifel, P.F., Linear Transport Theory, Reading: Addison-Wesley, 1967. Translated under the title Lineinaya teoriya perenosa, Moscow: Mir, 1972.
Kondrashev, A.P. and Shestopalov, E.V., Osnovy fizicheskogo eksperimenta i matematicheskaya obrabotka rezul’tatov izmerenii (Fundamentals of Physical Experiment and Mathematical Processing of Measurements), Moscow: Atomizdat, 1977.
Kazanskii, Yu.A. and Matusevich, E.S., Eksperimental’naya fizika reaktorov (Experimental Physics of Reactors), Moscow: Energoatomizdat, 1994.
Ershev, Yu.I. and Shikhov, S.B., Matematicheskie osnovy teorii perenosa. “Prilozheniya k fizike reaktora” (Mathematical Fundamentals of the Transfer Theory. “Application to Reactor Physics”), Moscow: Energoatomizdat, 1985.
Bajbulatov, A., Byvaikov, M., Jharko, E., et al., Structure of Early Failure Detection System DEMO, Proc. 13th Eur. Simulation Sympos., Marseille, France, 2001, pp. 277–279.
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Original Russian Text © E.F. Zharko, 2006, published in Avtomatika i Telemekhanika, 2006, No. 5, pp. 80–92.
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Zharko, E.F. Flexible modeling complex for the operator support systems of UPP’s with VVER-1000 reactor. Autom Remote Control 67, 748–758 (2006). https://doi.org/10.1134/S0005117906050079
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DOI: https://doi.org/10.1134/S0005117906050079