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Accurate critical slab calculations for various degrees of anisotropy and for different reflection coefficients

  • N. G. Sjöstrand
Veröffentlicht/Copyright: 5. April 2013
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Kerntechnik
Aus der Zeitschrift Kerntechnik Band 75 Heft 1-2

Abstract

In order to check new calculation results on critical slabs, numerical calculations have been done with a discrete ordinates method. The critical thickness of reflected slabs with various degrees of anisotropic scattering has been determined. In general, the agreement with the new calculation results is good. However, for thin slabs the deviations may be larger than one per cent, so some of these cases were studied in more detail.

Kurzfassung

Um die Ergebnisse neuer Berechnungen für kritische Platten zu prüfen, wurden numerische Berechnungen mit einer Methode von diskreten Ordinaten durchgeführt. Die kritische Dicke reflektierender Platten wurde für verschiedene Grade anisotroper Streuung bestimmt. Im Allgemeinen stimmen die Resultate mit den Ergebnissen der neuen Berechnungen überein. Für dünne Platten können die Abweichungen allerdings 1% übersteigen. Darum wurden einige solcher Fälle im Einzelnen studiert.

References

1 Öztürk, H.: The reflected critical slab problem for one-speed neutrons with strongly anisotropic scattering. Kerntechnik73 (2008) 66Suche in Google Scholar

2 Sjöstrand, N. G.: The discrete ordinates method compared to Carlvik's and Syros's methods for anisotropic neutron scattering in a slab. Ann. Nucl. Energy7 (1980) 435Suche in Google Scholar

3 Sahni, D. C.; Sjöstrand, N. G.; Garis, N. S.: Criticality and time eigenvalues for one-speed neutrons in a slab with forward and backward scattering. J. Phys. D. Appl. Phys.25 (1992) 1381Suche in Google Scholar

4 Lee, C. E.; Dias, M. P.: Analytical solutions to the moment transport equations – I; one-group one-region slab and sphere criticality. Ann. Nucl. Energy11 (1984) 515Suche in Google Scholar

5 Dahl, E. B.; Sjöstrand, N. G.: Eigenvalue spectrum of multiplying slabs and spheres for monoenergetic neutrons with anisotropic scattering. Nucl. Sci. Eng.69 (1979) 114Suche in Google Scholar

6 Garis, N. S.; Sjöstrand, N. G.: Eigenvalues for reflecting boundary conditions in one-speed neutron transport theory. Ann. Nucl. Energy21 (1994) 67Suche in Google Scholar

Received: 2009-8-12
Published Online: 2013-04-05
Published in Print: 2010-03-01

© 2010, Carl Hanser Verlag, München

Artikel in diesem Heft

  1. Contents/Inhalt
  2. Contents
  3. Summaries/Kurzfassungen
  4. Summaries
  5. Technical Contributions/Fachbeiträge
  6. European clearinghouse on nuclear power plants operational experience feedback
  7. Investigation on primary side oriented accident management measures in a hypothetical station blackout scenario for a VVER-1000 pressurized water reactor
  8. Heat transfer to the building structures of the Ignalina NPP accident localisation system
  9. Algorithmic determination of fuel rod cladding burst time at elevated temperatures
  10. Development of a decommissioning strategy for the MR research reactor
  11. Neutron transmutation doping conceptual design
  12. Design optimization of shell-and-tube heat exchangers using single objective and multiobjective particle swarm optimization
  13. Chebyshev polynomials expansion method for solving the one-dimensional transport equation in spherical geometry
  14. Heuristic geometric “eigenvalue universality” in a one-dimensional neutron transport problem with anisotropic scattering
  15. An analytical solution for the one-dimensional time-dependent SN transport equation for bounded and unbounded domains in cartesian geometry
  16. Accurate critical slab calculations for various degrees of anisotropy and for different reflection coefficients
  17. Technical Notes/Technische Mitteilungen
  18. The boundary problem in the 1D-CANDLE burn-up reactor
https://doi.org/10.3139/124.110062

Artikel in diesem Heft

  1. Contents/Inhalt
  2. Contents
  3. Summaries/Kurzfassungen
  4. Summaries
  5. Technical Contributions/Fachbeiträge
  6. European clearinghouse on nuclear power plants operational experience feedback
  7. Investigation on primary side oriented accident management measures in a hypothetical station blackout scenario for a VVER-1000 pressurized water reactor
  8. Heat transfer to the building structures of the Ignalina NPP accident localisation system
  9. Algorithmic determination of fuel rod cladding burst time at elevated temperatures
  10. Development of a decommissioning strategy for the MR research reactor
  11. Neutron transmutation doping conceptual design
  12. Design optimization of shell-and-tube heat exchangers using single objective and multiobjective particle swarm optimization
  13. Chebyshev polynomials expansion method for solving the one-dimensional transport equation in spherical geometry
  14. Heuristic geometric “eigenvalue universality” in a one-dimensional neutron transport problem with anisotropic scattering
  15. An analytical solution for the one-dimensional time-dependent SN transport equation for bounded and unbounded domains in cartesian geometry
  16. Accurate critical slab calculations for various degrees of anisotropy and for different reflection coefficients
  17. Technical Notes/Technische Mitteilungen
  18. The boundary problem in the 1D-CANDLE burn-up reactor
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