Methodology of calculation of time reserves when planning the duration of NPP construction

Introduction. The issues of risk and problem situations arising during the construction of nuclear power plants, as well as methods of response and prevention of such scenarios are considered. The available analogues of the developed system among the known information systems which carry out calculations of calendar-network models and construction completion forecasts are analyzed.

Materials and methods. In particular, the methodology of creating a system of time reservation during the formation and approval of calendar-network schedules of construction and installation works is highlighted. A step-by-step plan of initial data preparation, necessary statistical analysis and direct calculation of time reserves by Monte-Carlo method using the software package of the same name developed within the framework of the current research is presented. As the initial data, the information of the analysis of disruption of the deadlines of already completed works at reference NPP with a certain classification, as well as the results of an expert survey on the influence of internal and external factors on the duration of plant construction are used.

Results. Examples of using the development within the process of managing the construction schedule of El-Dabaa NPP in the Arab Republic of Egypt are described. The possibility of applying this methodology at different levels of project management is indicated.

Conclusions. A generalized conclusion on the issue of determining the duration of construction of nuclear power plants taking into account the formation of time reserves for work schedules, a step-by-step plan for calculating time reserves and positive approbation of the methodology for NPP construction is formulated.

1. Filimonova T.P. Promotion of Russian nuclear energy to the global market: trends and new opportunities. Actual Issues of the Modern Economy. 2023; 5:559-568. DOI: 10.34755/IROK.2023.66.16.033. EDN ASGYUN. (rus.).

2. Tomashevskaya E.S., Semenov E.V. Foreign portfolio of projects of Rosatom state corporation. Synergy of Sciences. 2020; 54:488-506. EDN DGJRTE. (rus.).

3. Ostrovskiy R.V. Comparison of NPP construction durations by Russian and foreign projects. Scientific and Technical Development of Russia and the World : collection of articles of XV International Scientific and Practical Conference. 2023; 60-69. (rus.).

4. Soloveva A.P., Kharitonov V.V., Shmakov O.G. Effect of delays in NPP construction on investment efficiency. Izvestiya vuzov. Yadernaya Energetika. 2018; 3:52-62. DOI: 10.26583/npe.208.3.05. EDN YYCGKT. (rus.).

5. Saakov E.S. Engineering at commissioning of new NPP power units. ATOMEX-North-West: Forum of Nuclear Industry Suppliers. ATOMEXPO 2012. 2012. (rus.).

6. Nazarova V.V., Morozova E.V. Scenario analysis of risks of residential property construction project. Vestnik NSUEM. 2014; 2:71-83. EDN SMFQGR. (rus.).

7. Alekseeva N.S. The Monte Carlo method for investing in green building projects. Proceedings of the Southwest State University. Series: Economics, Sociology and Management. 2020; 10(1):241-252. EDN KNOOBS. (rus.).

8. Adamyuk I.A. Risk assessment (economic attractiveness) of the investment project, by the example of residential building construction, by Monte Carlo method. Economics and Management in the XXI century: development trends. 2011; 3:150-156. EDN RKZHAP. (rus.).

9. Nikonorov S.V., Melnik A.A. Improvement of organizational and technological reliability of construction in modern conditions. Bulletin of SUSU. Series “Construction Engineering and Architecture”. 2019; 19(3):19-23. DOI: 10.14529/build190303. EDN JQRUNE. (rus.).

10. Kuchumova Y.V., Bukalova A.Y. Formulation of the research task of assessing organizational and technological risks in construction. Modern Technologies in Construction. Theory and Practice. 2019; 1:160-165. EDN WJTPBE.

11. Gridus A.Yu., Bokov I.I., Ivanchuk E.V. Analysis of the programs for calendar planning in construction. Academic Publishing. 2017; 10:15-22. EDN ZSGMXP. (rus.).

12. Shipulina A.S., Mozgova Ya.G. Review and analysis of the possibilities of using the project management programs for the automation of calendar planning in construction. Polzunov Almanac. 2020; 2-1:186-189. EDN RWTUWQ. (rus.).

13. Malykh E.B. International experience in the risk management of investment projects in the field of multi-family housing using the Monte Carlo method and the Oracle Crystal Ball application for Microsoft Excel. Economics and Management. 2018; 11(157):92-97. EDN VVPDMF.

14. Certificate of state registration of computer program No. 2022681527 RF. Network model of construction using the Monte Carlo method “Monte Carlo Network” / Pavlov A.S., Ostrovsky R.V.; patent pending National Research Moscow State University of Civil Engineering; appl. No. 2022680826 dated 03.11.2022, publ. 15.11.2022. EDN CJHJBQ.

15. Pavlov A.S., Ostrovskii R.V. Analysis of terms of work performance during nuclear power plant costruction. Industrial and Civil Engineering. 2023; 1:75-80. DOI: 10.33622/0869-7019.2023.01.75-80. EDN TZYWUH. (rus.).

16. Bondarenko Yu.V., Vasilchikova E.V. Mathematical methods of supporting network analysis of the project and assessment of planning risk in case of fuzzy information on work duration. Proceedings of Voronezh State University. Series: Systems Analysis and Information Technologies. 2023; 2:100-111. DOI: 10.17308/sait/1995-5499/2023/2/100-111. EDN ULOXXK. (rus.).

17. Kalugin Yu.B. Universal method for calculation of reliable completion times. Magazine of Civil Engineering. 2016; 7(67):70-80. DOI: 10.5862/MCE.67.7. EDN YFWGLB.

18. Ostrovskii R. Development of a Model for Managing the Terms of NPP Construction Projects Based on Production Control. Lecture Notes in Civil Engineering. 2022; 231:405-413. DOI: 10.1007/978-3-030-96206-7_42. EDN BKBVPB.

19. Voronkov I., Ostrovskii R. Structure of realised risks of projects for construction nuclear power plant by Rosatom State Corporation in 2010-2020. E3S Web of Conferences. 2021; 258:09081. DOI: 10.1051/e3sconf/202125809081

20. Demidov L.P. Research on the application of expert assessments when analyzing potential of construction site. Technology and Organization of Construction Production. 2014; 1:51-53. EDN SASIRN. (rus.).

21. Kuzmin K.A., Gryzhov E.V. Applying thr method of expert estimations in processing questionnaires of building and construction works effectiveness. Natural and Mathematical Sciences in the Modern World. 2014; 16:73-79. EDN RWVQXP. (rus.).