Home / Store / Journals / Electronic Articles / Nuclear Science and Engineering / Volume 160 / Number 3
Edward W. Larsen, Allan B. Wollaber
Nuclear Science and Engineering
Volume 160 / Number 3 / November 2008 / Pages 267-283
Format:electronic copy (download)
A quantitative theory of angular truncation errors is developed for three-dimensional discrete-ordinates (SN) particle transport calculations. The theory is based on an analysis of a special problem: a localized radially symmetric source in an infinite homogeneous scattering medium, with an arbitrary scattering ratio c satisfying 0 < c < 1. For both the linear Boltzmann equation and the SN equations, we construct and compare analytic solutions of this problem that are asymptotically valid far from the source region. Comparing these analytic solutions, we find that the relative error in the SN solution increases without bound for large distances from the source region but decreases at each fixed spatial point as the scattering ratio or N (the order of the quadrature set) increases. Also, the SN error patterns conform to classic ray effects for small c but not for larger c. We present numerical results that test and validate the theoretical predictions.
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