Startseite Account for uncertainties of control measurements in the assessment of design margin factors
Artikel
Lizenziert
Nicht lizenziert Erfordert eine Authentifizierung

Account for uncertainties of control measurements in the assessment of design margin factors

  • V. Dementiev , V. Sidorenko und L. Shishkov
Veröffentlicht/Copyright: 21. Oktober 2013
Veröffentlichen auch Sie bei De Gruyter Brill
Manuskript einreichen Informationen für Autor*innen
Kerntechnik
Aus der Zeitschrift Kerntechnik Band 78 Heft 4

Abstract

This paper considers two interrelated issues and – proceeding from the conditional probability concept and Bayes’ statistical theorem – suggests a universal method to process measured data with account of prior information available. To assure reliable reactor operation, at the design stage it is suggested to account for errors of subsequent control measurements while assessing the engineering margin factors for reactor parameters to be measured.

Kurzfassung

Um einen zuverlässigen Reaktorbetrieb zu gewährleisten, ist es notwendig schon in der Designphase bei der Festlegung der Fehlerspanne für im Betrieb zu messende Reaktorparameter die Fehler dieser Messung zu berücksichtigen. Hierzu wird ein Verfahren vorgestellt.

4Lev Shishkov (corresponding author), E-mail:

References

1 UK AP 1000, Safety, security and environmental report.Suche in Google Scholar

2 US.EPR Final safety analysis report.Suche in Google Scholar

3 Szecsenyi, Z.; et al.: Determination of engineering factors – routine in Hungary. Presentation on the AER Group Meeting “Elaboration of the methodology for calculating the core design engineering factors”. Moscow, June 8–9, 2010Suche in Google Scholar

4 Tsyganov, S. V.: Components of VVER engineering factors for peaking factors: status and trends. Proceedings of the twentieth Symposium of AER. Hanasaari, Espoo, Finland, September 20–24, 2010Suche in Google Scholar

5 Fisher, R.: Statistical methods and scientific inference. New York, 1956Suche in Google Scholar

6 Hudson, D. J.: Statistics lectures on elementary statistics and probability. Geneva, 1964Suche in Google Scholar

7 Gorunov, V. K.; Shevelev, Ja. V.: Reconstructing neutron fields from measurements under harmonic approximation for spatial correlation of physical calculations. Voprosy Atomnoj Nauki i Tehniki (Series: Nuclear Constants), Moscow, 1982 (In Russian)Suche in Google Scholar

8 Kramerov, A. Ya.; Shevelev, Ya. V.: Engineering calculations for nuclear reactors. Energoizdat, Moscow, 1984 (In Russian)Suche in Google Scholar

9 Grachev, E. V.; Shishkov, L. K.: Reconstructing power fields and correcting neutronic constants for VVER-1000 computer model. Voprosy Atomnoi Nauki i Tehniki (Series: Nuclear Reactor Physics) Moscow, 1986 (In Russian)Suche in Google Scholar

10 Pustylnik, E. I.: Statistic methods for analysis and processing of observations. Nauka, Moscow, 1968 (In Russian)Suche in Google Scholar

11 Gmurman, V. E.: Probability theory and mathematical statistics. Vyschaya schkola, Moscow, 2001 (In Russian)Suche in Google Scholar

12 Dementiev, V. G.; Sidorenko, V. D.; Shishkov, L. K.: Account for uncertainties of control measurements in the assessment of design margin factors. Proceedings of the twenty-first Symposium of AER. Dresden, Sept. 2011, p. 773Suche in Google Scholar

Received: 2012-1-13
Published Online: 2013-10-21
Published in Print: 2013-08-28

© 2013, Carl Hanser Verlag, München

Artikel in diesem Heft

  1. Contents/Inhalt
  2. Contents
  3. Summaries/Kurzfassungen
  4. Summaries
  5. Editorial
  6. Selected contributions to the XXIInd symposium of the Atomic Energy Research organization
  7. Technical Contributions/Fachbeiträge
  8. Fuel cycles of WWER-440: results of basic design modification
  9. Use of erbium as burnable poison for VVER reactors
  10. The estimation of the control rods absorber burn-up during the VVER-1000 operation
  11. The main characteristic of the evolution project SuperVVER with spectrum shift regulation
  12. Automatic loading pattern optimization tool for Loviisa VVER-440 reactors
  13. Uncertainties of the neutronic calculations at core level determined by the KARATE code system and the KIKO3D code
  14. The reactor dynamics code DYN3D and its trigonal-geometry nodal diffusion model
  15. Comparison of sensitivity and uncertainty in Gd and Er containing fuels for VVER-1000 using TSUNAMI-2D
  16. Contribution of the number of measured data to calculation uncertainty in the worth of VVER control rods
  17. A comparison of the FA's models with the detailed and simplified description in the MCU code calculations
  18. Account for uncertainties of control measurements in the assessment of design margin factors
  19. Results of precision calculations of three-dimensional power density in VVER-1000 core with feedbacks using MCU code
  20. CFD analysis of temperature deviations in Gd assembly heads
  21. Application of statistical uncertainty and sensitivity evaluations to a PWR LBLOCA analysis calculated with the code ATHLET. Part 1: uncertainty analysis
  22. Post test calculations of a severe accident experiment for VVER-440 reactors by the ATHLET code
  23. The impact on the competence on severe accidents following the Fukushima event
https://doi.org/10.3139/124.110387

Artikel in diesem Heft

  1. Contents/Inhalt
  2. Contents
  3. Summaries/Kurzfassungen
  4. Summaries
  5. Editorial
  6. Selected contributions to the XXIInd symposium of the Atomic Energy Research organization
  7. Technical Contributions/Fachbeiträge
  8. Fuel cycles of WWER-440: results of basic design modification
  9. Use of erbium as burnable poison for VVER reactors
  10. The estimation of the control rods absorber burn-up during the VVER-1000 operation
  11. The main characteristic of the evolution project SuperVVER with spectrum shift regulation
  12. Automatic loading pattern optimization tool for Loviisa VVER-440 reactors
  13. Uncertainties of the neutronic calculations at core level determined by the KARATE code system and the KIKO3D code
  14. The reactor dynamics code DYN3D and its trigonal-geometry nodal diffusion model
  15. Comparison of sensitivity and uncertainty in Gd and Er containing fuels for VVER-1000 using TSUNAMI-2D
  16. Contribution of the number of measured data to calculation uncertainty in the worth of VVER control rods
  17. A comparison of the FA's models with the detailed and simplified description in the MCU code calculations
  18. Account for uncertainties of control measurements in the assessment of design margin factors
  19. Results of precision calculations of three-dimensional power density in VVER-1000 core with feedbacks using MCU code
  20. CFD analysis of temperature deviations in Gd assembly heads
  21. Application of statistical uncertainty and sensitivity evaluations to a PWR LBLOCA analysis calculated with the code ATHLET. Part 1: uncertainty analysis
  22. Post test calculations of a severe accident experiment for VVER-440 reactors by the ATHLET code
  23. The impact on the competence on severe accidents following the Fukushima event
Jetzt anmelden und 20% sparen
Institutioneller Zugang
Wie funktioniert Authentifizierung?
Haben Sie eine Idee, wie wir unsere Website verbessern können?
Bitte schreiben Sie uns.
© 2025 De Gruyter Brill
Heruntergeladen am 29.10.2025 von https://www.degruyterbrill.com/document/doi/10.3139/124.110387/html?lang=de
Button zum nach oben scrollen