Open AccessA Monte Carlo Method for Analyzing Mixed-Lattice Substitution Experiment Using MCNP
Author(s) -
G.B. Wilkin,
Blair P. Bromley,
D.G. Watts
Publication year - 2012
Publication title -
aecl nuclear review
Language(s) - English
Resource type - Journals
eISSN - 1929-6371
pISSN - 1929-8056
DOI - 10.12943/anr.2012.00016
Subject(s) - monte carlo method , nuclear engineering , lattice (music) , nuclear data , fission , nuclear physics , substitution (logic) , statistical physics , physics , neutron , computer science , mathematics , engineering , statistics , acoustics , programming language
Critical experiments involving a small region of test fuel substituted into a reference lattice have traditionally been analyzed using diffusion codes to extract lattice physics parameters of the test fuel such as the critical buckling and the associated bias in the calculation of k eff . A method that was first developed in 2006 uses a version of MCNP that was modified to allow the analyst to selectively change fission neutron production in various parts of the model. This paper describes the modification made to MCNP, demonstrates how the substitution experiment analysis is done through several examples using data from the ZED-2 critical facility, and finally, quantifies the expected uncertainties in the method.
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