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Nuclear Science and Engineering Volume 175, 2013 - Issue 3
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Technical Paper

Distributed Resonance Self-Shielding Using the Equivalence Principle

Dimitar AltiparmakovAtomic Energy of Canada Limited, Chalk River Laboratories Chalk River, Ontario K0J 1J0, Canada
Pages 239-249 | Published online: 22 Mar 2017

REFERENCES

  • J. R. ASKEW, J. F. FAYERS, and P. B. KEMSHELL, “A General Description of the Lattice Code WIMS,” J. Br. Nucl. Energy Soc., 5, 564 (1966).
  • A. HÉBERT, “A Review of Legacy and Advanced Self-Shielding Models for Lattice Calculations,” Nucl. Sci. Eng., 155, 310 (2007).
  • D. ALTIPARMAKOV, “New Capabilities of the Lattice Code WIMS-AECL,” Proc. Int. Conf. Reactor Physics: Nuclear Power: A Sustainable Resource (PHYSOR 2008), Interlaken, Switzerland, September 14–19, 2008, Paper 246.
  • A. HÉBERT, “Revisiting the Stamm’ler Self-Shielding Method,” Proc. 25th Conf. Canadian Nuclear Society, Toronto, Canada, June 6–9, 2004, Canadian Nuclear Society (2004).
  • R. GOLDSTEIN and E. R. COHEN, “Theory of Resonance Absorption of Neutrons,” Nucl. Sci. Eng., 13, 132 (1962).
  • R. GOLDSTEIN, “Intermediate Resonance Absorption at Low Energies,” Nucl. Sci. Eng., 22, 387 (1965).
  • B. R. SEHGAL, “Resonance Absorption for Heavy Moderators in Homogeneous Media,” J. Nucl. Energy Parts A/B, 19, 921 (1965).
  • R. E. MacFARLANE and D. W. MUIR, “The NJOY Nuclear Data Processing System, Version 91,” LA-12470-M, Los Alamos National Laboratory (1994).
  • G. I. BELL, “Theory of Effective Cross Sections,” LA-2322, Los Alamos National Laboratory (1959).
  • E. P. WIGNER et al., “Resonance Absorption of Neutrons by Spheres,” J. Appl. Physics, 26, 250 (1955).
  • D. C. LESLIE, J. G. HILL, andA. JONSSON, “Improvements to the Theory of Resonance Escape in Heterogeneous Fuel—I. Regular Arrays of Fuel Rods,” Nucl. Sci. Eng., 22, 78 (1965).
  • R. J. J. STAMM’LER and M. J. ABBATE, Methods of Steady-State Reactor Physics in Nuclear Design, Academic Press, London (1983).
  • A. HÉBERT and G. MARLEAU, “Generalization of the Stamm’ler Method for the Self-Shielding of Resonance Isotopes in Arbitrary Geometries,” Nucl. Sci. Eng., 108, 230 (1991).
  • M. A. LONE, “Fuel Temperature Reactivity Coefficient of a CANDU Lattice—Numerical Benchmark on WIMS-AECL (2-5d) Against MCNP,” Proc. 22nd Annual Conf. Canadian Nuclear Society, Toronto, Canada, June 10–13, 2001, Canadian Nuclear Society (2001).
  • X-5 MONTE CARLO TEAM, “MCNP—A General Monte Carlo N-Particle Transport Code, Version 5,” LA-UR-03-1987, Los Alamos National Laboratory (2000).
  • D. ALTIPARMAKOV, “ENDF/B-VII.0 Versus ENDF/B-VI.8 in CANDU Calculations,” Proc. Advances in Reactor Physics to Power the Nuclear Renaissance (PHYSOR 2010), Pittsburgh, Pennsylvania, May 9–14, 2010, American Nuclear Society (2010).

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