USING THERMAL, HUMIDITY AND RADIATION CONDITION CFD-MODEL IN THE MONITORING SYSTEM OF THE NEW SAFE CONFINEMENT


  • P.G. Krukovskiy
  • O.Y. Tadlia
  • A.I. Deyneko
  • Metel M.A. Metel M.A.
Keywords: New Safe Confinement, Shelter Object, radiation safety, state monitoring, CFD-model.

Abstract

It is shown the relevance and advantages of the CFD-models application in the monitoring system of the thermal, humidity and radiation state of the New Safe Confinement (NSC) as an object of particular importance aimed to ensure radiation safety of the Shelter Object of the Chornobyl NPP. Described scheme of the NSC state monitoring essentially complements and extends the capabilities of the designed monitoring system of the NSC parameters. The features and problems of CFD-models application for such a monitoring system are shown.

References

1. https://ru.wikipedia.org/wiki/%D0%9C%D0%BE%D0%BD%D0%B8%D1%82%D0%
BE%D1%80%D0%B8%D0%BD%D0%B3

2. Prilozheniye dlya informatsii: Predlozheniya podryadchika PK-1 NBK po tekhnicheskoy kontseptsii PK-1 NBK [Appendix for information: Proposals of the contractor NSC CS-1 on the technical concept of NSC CS-1], http://chnpp.gov.ua/images/stories/sip/rus/081204append. pdf (RUS)

3. Razvitiye i optimizatsiya sistem kontrolya atomnykh elektrostantsiy 0-62 s VVER: monografiya [The development and optimization of nuclear power plant control systems with 0-62 PWR: Monograph] . V.I. Skalozubov, D.V. Biley, T.V. Gablaya, i dr.; pod red. V. I. Skalozubova; NAN Ukrainy, In-t problem bezopasnosti AES [Institute of safety problem NASU], Chernobyl', 2008, 512 p. (RUS)

4. http://www.metoffice.gov.uk/research/modelling-systems/numerical-models.

5. Povarov V.P., Bakirov M.B. RU 2574578 Sistema mnogoparametricheskogo nepreryvnogo monitoringa ekspluatatsionnoy povrezhdayemosti oborudovaniya atomnoy elektrostantsii [Multiparameter system of continuous monitoring of damage to operational nuclear power plant equipment], http://www.findpatent.ru/ patent/257/2574578.html. (RUS)

6. Golotina L.A., Tsvetkov R.V., Shardakov I.N. Ispol'zovaniye programmnogo sredstva «ANSYS» v avtomatizirovannoy sisteme monitoringa mekhanicheskogo sostoyaniya zdaniy i sooruzheniy [Using the software tool «ANSYS» in the automated system for monitoring the mechanical state of buildings and structures], International Journal for Computational Civil and Structural Engineering, 2008, V. 4, Issue 2, P. 48–50. (RUS)

7. Sistema monitoringa ekspluatatsionnykh dannykh AES (v chasti radiatsionnogo monitoringa ob"yekta) [NPP operational data monitoring system (in terms of radiation monitoring facility)], http://neolant.ru/projects/news_ detail.php?ID=206. (RUS)

8. Deme S., Janosy J.S., Lang E., Szabo I.C. Radionuclide dispersion calculation in environmental radiation monitoring system of the Рaks NPP . KFKI Atomic Energy Research Institute, H-1525, Budapest, P.O. Box 49, Paks Nuclear Power Plant, H-7031, Paks, P.O. Box 71, http://www.iaea.org/inis/collection/NCLCollectionStore/_ Public/36/097/36097682.pdf.

9. Poyasnitel'naya zapiska sistemy monitoringa tekhnicheskogo sostoyaniya stroitel'nykh konstruktsiy mashinnogo zala energobloka №1 Balakovskoy AES dlya otsenki tekhnicheskogo sostoyaniya i ostatochnogo resursa v period dopolnitel'nogo sroka ekspluatatsii [The explanatory note of the system for monitoring the technical condition of building constructions machine room unit №1 of Balakovo NPP to assess the technical condition and remaining life during the additional years of operation], Penza, 2010, 74 p. (RUS)

10. Belostotskiy A.M., Kalichava D.K. Matematicheskoye modelirovaniye kak osnova monitoringa zdaniy i sooruzheniy [Mathematical modeling as a basis for buildings and structures monitoring]. Int. Jorn. for Computational Civil and Structural Engineering, 2010, V. 6, Issue 1&2, pp. 78–80. (RUS)

11. Krukovs'kiy P.G. Analiz termogazodinamichnogo stanu Novogo Bezpechnogo Konfaynmentu i «Ob’ekta Ukrittya» [Analysis heat and humid state of New Safe Confinement and "Shelter" Object], Visnik Natsional'noi Akademii Ukraini [Bulletin of the National Academy of Ukraine], 2014, №3, pp.13–19. (UKR)

12. Richter C., Sogalla M., Thielen H., Martens R. Atmospharisches Radionuklid-Transport-Modell mit dergraphischen Benutzeroberflache GO-ARTM, Programmbeschreibung zu Version 2.8.0 (GO-ARTM Version 2.0), Stand 17.04.2015, Gesellschaft fur Anlagen- und Reaktorsicherheit (GRS) mbH, Koln.
Published
2017-08-08
How to Cite
Krukovskiy, P., Tadlia, O., Deyneko, A., & Metel M.A., M. M. (2017). USING THERMAL, HUMIDITY AND RADIATION CONDITION CFD-MODEL IN THE MONITORING SYSTEM OF THE NEW SAFE CONFINEMENT. Thermophysics and Thermal Power Engineering, 39(1), 26-32. https://doi.org/https://doi.org/10.31472/ihe.1.2017.04