Volgodonsk Engineering Technical Institute the branch of National Research Nuclear University «MEPhI», Lenin St., 73/94, Volgodonsk, Rostov region, Russia 347360

¹AALapkis@mephi.ru, ORCID ID: 0000-0002-9431-7046

1. Shutikov A.V.Obosnovanie sposobov i effektivnosti povysheniya moshchnosti energoblokov AES s VVER vyshe nominal'nogo urovnya [Justification of Methods and Efficiency of Increasing the Capacity of Power Units of NPPs with WWER above the Nominal Level]. Vestnik Saratovskogo gosudarstvennogo tekhnicheskogo universiteta [Bulletin of Saratov State Technical University]. 2006. №4(20). Р.32-39 (in Russian).
2. Maintaining the Design Integrity of Nuclear Installations throughout their Operating Life. INSAG-19. A report by the international nuclear safety advisory group. URL: https://www-pub.iaea.org/MTCD/publications/PDF/Pub1178_web.pdf (in English).
3. Povarov V.P. Nekotorye aspekty povtornogo prodleniya sroka ekspluatacii reaktornoj ustanovki s VVER-440 na primere energobloka № 4 Novovoronezhskoj [Some Aspects of Re-Extension of WWER-440 Reactor Unit No. 4 at Novovoronezh NPP]. Izvestiya vuzov. Yadernaya eneregtika [News of Higher Education Institutions. Nuclear Power Engineering]. 2019. №2. Р.91-104 (in Russian). DOI 10.26583/npe.2019.2.08
4. STO 1.1.1.01.002.0069-2019 Pravila organizacii tekhnicheskogo obsluzhivaniya i remonta sistem i oborudovaniya atomnyh stancij [STO 1.1.1.01.002.0069-2017 Rules of Organization of Maintenance and Repair of Systems and Equipment of Nuclear Power Plants]. URL: https://files.stroyinf.ru/Data2/1/4293739/4293739253.pdf  (reference date: 04.04.2022) (in Russian)
5. ST CKBA 008-2014 Armatura truboprovodnaya. Raschet i ocenka nadezhnosti i bezopasnosti na etape proektirovaniya [ST CKBA 008-2014 Pipeline Valves. Calculation and Evaluation of Reliability and Safety at Design Stage]. URL: https://files.stroyinf.ru/Data2/1/4293762/
   4293762631.pdf (reference date: 04.04.2022) (in Russian)
6. STO 1.1.1.02.002.1857-2021 Tekhnicheskoe diagnostirovanie elektroprivodnoj truboprovodnoj promyshlennoj armatury na energoblokah atomnyh stancij [STO 1.1.1.02.002.1857-2021 Technical Diagnostics of Electric Pipeline Industrial Valves on Power Units of Nuclear Power Plants]. Rosenergoatom Concern OJSC. Moscow, 2021. 60 p. (in Russian).
7. Rosenergoatom: Pervyj v Rossii proekt po vnedreniyu na AES sistemy prediktivnoj analitiki vyshel na finishnuyu pryamuyu.[ Rosenergoatom: Russia's First Project to Introduce a Predictive Analytics System at NPPs Has Reached the Finish Line] URL: https://www.rosenergoatom.ru/zhurnalistam/news/37790/ (reference date: 04.04.2022). (in Russian)
8. Prediktivnaya analitika i diagnostika AES. Biblioteka tekhnicheskoj diagnostiki atomnyh elektrostancij[Predictive Analytics and Nuclear Power Plant Diagnostics. Technical Diagnostics Library for Nuclear Power Plants]. Moscow: JSC «NTCD». 2019. 69 p. (in Russian).
9. Kalinushkin A.E., Mitin V.I., Semchenkov Yu.M. Sozdanie ekspertnyh sistem dlya yadernoj energetiki [        Building Expert Systems for Nuclear Power]. Atomnaya tekhnika za rubezhom [Nuclear Technology Abroad]. 1990. №7 (in Russian).
10. Trykov E.L. i dr. Obnaruzhenie anomalij v rabote reaktornogo oborudovaniya s pomoshch'yu nejrosetevyh algoritmov [Reactor Equipment Anomaly Detection Using Neural Network Algorithms]. Izvestiya vysshih uchebnyh zavedenij. YAdernaya energetika [News of Higher Education Institutions. Nuclear Power Engineering]. 2020. №3. Р.136-147  (in Russian).
11. Abidova E.A.Tekhnologii analiza diagnosticheskih parametrov elektroprivodnoj armatury na dejstvuyushchih energoblokah Novovoronezhskoj AES [Technologies for Analysis of Diagnostic Parameters of Electric Actuator Valves at Operating Power Units of Novovoronezh NPP]. Elektrotekhnicheskie kompleksy i sistemy upravleniya [Electrical Complexes and Control Systems]. 2014.  №4. P. 16-22 (in Russian).
12. Matveev A.V., Zhidkov S.V.. Adamenkov A.K., Galivec E.Yu., Usanov D.A. «Kompleksnyj podhod k diagnostirovaniyu elektroprivodnoj armatury primenitel'no k zadacham upravleniya resursom» [An Integrated Approach to Diagnostics of Electric Actuated Valves as Applied to Service Life Management Tasks]. Armaturostroenie [Armature Construction]. 2009. №2(59).
    P. 53-59 (in Russian).
13. NP-096-15 Trebovaniya k upravleniyu resursom oborudovaniya i truboprovodov atomnyh stancij. Osnovnye polozheniya [NP-096-15 Requirements for Lifetime Management of Equipment and Pipelines of Nuclear Power Plants. General provisions]. URL : http://cntr-nrs.gosnadzor.ru/about/AKTS/НП-096-15.pdf   (reference date: 04.04.2022) (in Russian).
14. RB 024-19 Rukovodstvo po bezopasnosti pri ispol'zovanii atomnoj energii «Rekomendacii po razrabotke veroyatnostnogo analiza bezopasnosti urovnya 1 bloka atomnoj stancii dlya vnutrennih iskhodnyh sobytij» [RB 024-19 Guidance on Safety in the Use of Atomic Energy "Recommendations for the Development of a Probabilistic Safety Analysis of Level 1 Unit of a Nuclear Power Plant for Internal Baseline Events]. URL: https://docs.cntd.ru/document/560704037  (reference date: 04.04.2022) (in Russian).
15. GOST R MEK 61165-2019 Nadezhnost' v tekhnike. Primenenie markovskih metodov [IEC 61165:2006, Application of Markov techniques, IDT]. URL: https://docs.cntd.ru/document/1200167576  (reference date: 04.04.2022) (in Russian).
16. Slepov M.T., Sysoev N.P. Diagnostika EPA – opyt raboty Novovoronezhskoj AES.[ EPA Diagnostics - Novovoronezh NPP's Experience]. Global'naya yadernaya bezopasnost' [Global Nuclear Safety]. 2014. №2. P.79-85 (in Russian).
17. MT 1.2.3.02.999.0085-2010 Metodika «Diagnostirovanie truboprovodnoj elektroprivodnoj armatury»[МТ 1.2.3.02.999.0085-2010 Methodology «Diagnosis of Pipeline Electric Actuated Valves»]. Rosenergoatom Concern OJSC. Moscow, 2010. 140 p. (in Russian).
18. Adamenkov A.K. Diagnosticheskoe obespechenie perekhoda na tekhnicheskoe obsluzhivanie i remont zaporno-reguliruyushchej armatury AES po tekhnicheskomu sostoyaniyu [Diagnostic Support for the Transition to Maintenance and Repair of NPP Shut-Off and Control Valves by Technical Condition]. Avtoreferat dissertacii na soiskanie uchyonoj stepeni kandidata tekhnicheskih nauk [Thesis Abstract of PhD in Engineering. Speciality: 05.04.11 - Nuclear Reactor Engineering, Machines, Units and Material Technology of Nuclear Industry]. Volgodonsk, 2009. 137 p. (in Russian).