| Address | Ivanovo State Power Engineering University, 34, Rabfakovskaya st., Ivanovo, Russia 153003
1ORCID iD: 0000-0001-9765-2096
WoS Researcher ID: T-1066-2017
e-mail: Semenov_vk@mail.ru
2ORCID iD: 0000-0001-6805-6287
WoS Researcher ID: M-1304-201
e-mail: m_volman@mail.ru
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| References | RD EO 0151-2004. Metodiki rascheta neytronno-fizicheskikh kharakteristik po dannym fizicheskikh eksperimentov na energoblokakh atomnykh elektrostantsiy s reaktorami VVER-1000 [Calculation Methods of Neutron-Physical Characteristics According to Physical Experiments on Nuclear Power Units with WWER-1000]. Moscow: Rosenergoatom. 2005. 101 p. (in Russian).
[2] RD EO 0150-2004. Tipovye programmy i metodiki provedeniya fizicheskikh eksperimentov na energoblokakh atomnykh elektrostantsiy s reaktorami VVER-1000 [Typical Programs and Methods of Physical Experiments on Nuclear Power Units with WWER-1000]. Moscow: Rosenergoatom. 2005. 273 p. (in Russian).
[3] Volman M.A. Imitacionnoe modelirovanie nejtronno-fizicheskih i teplogidravlicheskih processov v reaktorah VVER-1000 [Simulation Modeling of Neutron-Physical and Thermal-Hydraulic Processes in WWER-1000 Reactors. Thesis Abstract of Ph. D. in Engineering]. Moscow. 2017. 20 p. (in Russian).
[4] Semenov V.K., Volman M.A., Belyakov A.A. Metodika opredeleniya koeffitsientov reaktivnosti i effektivnosti grupp tverdykh poglotiteley na analiticheskom trenazhere energobloka VVER-1000 [Method for Determination Of Reactivity Coefficients and Efficiency of Solid Absorbers on Computer Simulator WWER-1000]. Vestnik Ivanovskogo gosudarstvennogo energeticheskogo universiteta [Bulletin of Ivanovo State Power University]. 2018. issue 1. Р. 19-24 (in Russian).
[5] Kazanskij Yu.A., Slekenichs Ya.V. Kinetika yadernykh reaktorov. Koeffitsienty reaktivnosti. Vvedenie v dinamiku: Uchebnoe posobie [The Coefficients of Reactivity. Introduction to Dynamics: Training Course]. Moscow: National Research Nuclear University MEPhI. 2012. 300 p. (in Russian).
[6] Koshelev A.S., Arapov A.V., Ovchinnikov M.A. O vozmozhnosti sozdaniya spetsializirovannogo oruk-reaktimetra s tokovym detektorom neytronov [Possibility of Creation of a Specialized ORUK-Reactimeter with a Current Detector of Neutrons]. Voprosy atomnoy nauki i tekhniki. Seriya: Fizika yadernykh reaktorov [Questions of Atomic Science and Technology. Series: Physics of Nuclear Reactors]. 2015. issue 4. Р. 39-48 (in Russian).
[7] Kolesov V.F. Istoki netochnostey v reaktivnosti, opredelyaemoy s pomoshch'yu obrashchennogo resheniya uravneniy kinetiki [Background of Uncertainties in Reactivity Determined with the Aid of Inverse Solution of Kinetics Equations]. Voprosy atomnoy nauki i tekhniki. Seriya: Fizika yadernykh reaktorov [Questions of Atomic Science and Technology. Series: Physics of Nuclear Reactors]. 2013. issue 3. Р. 30-45 (in Russian).
[8] Zizin M.N., Ivanov L.D. O traktovke obrashchennogo uravneniya kinetiki i prostranstvenno-vremennykh raschetov effektivnosti avariynoy zashchity VVER-1000 [About Interpretation of the Inverted Equation of Kinetics and Space-Time Calculations of the VVER-1000 Reactor Scram System Effectiveness]. Voprosy atomnoy nauki i tekhniki. Seriya: Fizika yadernykh reaktorov [Questions of Atomic Science and Technology. Series: Physics of Nuclear Reactors]. 2012. issue 2. Р. 28-43 (in Russian).
[9] Semenov V.K., Volman M.A. Obosnovanie matematicheskoy modeli teploobmena dlya reaktora s sosredotochennymi parametrami [Argumentation of Heat-Exchange Mathematical Model for Reactor with Lumped Parameters]. Global'naya yadernaya bezopasnost' [Global Nuclear Safety]. 2015. issue 4 (17). Р. 35-42 (in Russian).
[10] Duginov O.B., Levchenko A.V., Samokhin D.S. SSL DYNCO LAB SYSTEM – Gotovye resheniya v oblasti obuchayushchikh trenazhernykh system [SSL DYNCO LAB SYSTEM - Ready-Made Solutions in the Field of Training Simulator Systems]. XIII Mezhdunarodnaya konferentsiya «Bezopasnost' AES i podgotovka kadrov» [XIII International Conference "NPP Safety and Training"]. Obninsk: IATE. 2013. Р. 195-198 (in Russian).
[11] Chernov E.V., Vygovskiy S.B., Makaun D.I., Yamnyy V.E. Primenenie komp'yuternykh trenazherov v podgotovke spetsialistov dlya yadernoy energetiki [The Use of Computer Simulators in Training Specialists for Nuclear Power]. Energeticheskaya Strategiya (Energy Strategy). 2010. issue 5 (17). Р.58-60 (in Russian).
[12] Loshchakov I.I., Mazurik K.M., Romakhova G.A., Shargin G.P. Komp'yuternyy trenazher «AES s RBMK-1000» [Computer Simulator "NPP with RBMK-1000"]. X Mezhdunarodnaya konferentsiya «Bezopasnost' AES i podgotovka kadrov» [Safety of Nuclear Power Plants and Training of Personnel. X International Conference: Abstracts]. Obninsk: IATE. 2007. Р. 57-58 (in Russian).
[13] Roslyakov M.V., Titov G.P., Shcheklein S.E., Ayzatulin A.I., Seleznev E.F., Fedorov I.P. Opyt vnedreniya trenazhera operativnogo modelirovaniya avariynykh situatsiy «TOMAS-1A» v uchebno-metodicheskiy protsess kafedry «Atomnaya energetika» UGTU-UPI [Experience in Implementing the Simulator of Operational Modeling of Emergency Situations "ТОМАС-1А" in the Educational-Methodical Process]. Perspektivnye energeticheskie tekhnologii. Ekologiya. Ekonomika, bezopasnost' i podgotovka kadrov ["Perspective Energy Technologies. Ecology. Economics, Security and Training ". Collection of scientific papers]. Ekaterinburg. 2006. Р. 150 (in Russian).
[14] Chernakov V.A., Osadchiy M.A. Osobennosti sovremennykh modeliruyushchikh kompleksov slozhnykh tekhnologicheskikh ob"ektov (na primere analizatora rezhimov AES s VVER) [Features of Modern Modeling Complexes of Complex Technological Objects]. Pribory [Devices]. 2002. issue 7. Р. 12 (in Russian).
[15] Western Services Corporation. Availаble at: http://www.ws-corp.com.
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