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The slab albedo problem for the triplet scattering kernel with modified FN method

  • D. Türeci
Published/Copyright: December 8, 2016
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Kerntechnik
From the journal Kerntechnik Volume 81 Issue 6

Abstract

One speed, time independent neutron transport equation for a slab geometry with the quadratic anisotropic scattering kernel is considered. The albedo and transmission factor are calculated by the modified FN method. The obtained numerical results are listed for different scattering coefficients.

Kurzfassung

Die Eingruppen-, zeitunabhängige Neutronentransportgleichung in ebener Geometrie mit quadratischem anisotropen Streukern wurde betrachtet. Albedo und Transmissionsfaktor wurden mit Hilfe der modifizierten FN-Methode berechnet. Die erhaltenen numerischen Ergebnisse werden für verschiedene Streukoeffizienten dargestellt.

References

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Received: 2016-01-24
Published Online: 2016-12-08
Published in Print: 2016-12-16

© 2016, Carl Hanser Verlag, München

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https://doi.org/10.3139/124.110611

Articles in the same Issue

  1. Contents/Inhalt
  2. Contents
  3. Summaries/Kurzfassungen
  4. Summaries
  5. Technical Contributions/Fachbeiträge
  6. Use of molybdenum as a structural material of fuel elements for improving nuclear reactors safety
  7. Effect of ultra high temperature ceramics as fuel cladding materials on the nuclear reactor performance by SERPENT Monte Carlo code
  8. Spatial distribution of nanoparticles in PWR nanofluid coolant subjected to local nucleate boiling
  9. Impact of mesh points number on the accuracy of deterministic calculations of control rods worth for Tehran research reactor
  10. Dependence of neutron rate production with accelerator beam profile and energy range in an ADS-TRIGA RC1 reactor
  11. Effects of the wallpaper fuel design on the neutronic behavior of the HTR-10
  12. Loss of flow Accident (LOFA) analyses using LabView-based NRR simulator
  13. Basket criticality design of a dual purpose cask for VVER 1000 spent fuel assemblies
  14. Simulation of polycarbonate-CNT nanocomposite dosimeter based on electrical characteristics
  15. Thermoluminescence properties of micro and nano structure hydroxyapatite after gamma irradiation
  16. Equilibrium based analytical model for estimation of pressure magnification during deflagration of hydrogen air mixtures
  17. Polynomial approach method to solve the neutron point kinetics equations with use of the analytic continuation
  18. The slab albedo problem for the triplet scattering kernel with modified FN method
  19. Calculation of the fuel composition and the deterministic reloading pattern in the second cycle of the BUSHEHR VVER-1000 reactor using the weighting factor method
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