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A new Tone's method in APOLLO3 and its application to fast and thermal reactor calculations

Abstract : This paper presents a newly developed resonance self-shielding method based on Tone's method in APOLLO3® for fast and thermal reactor calculations. The new method is based on simplified models, the narrow resonance approximation for the slowing down source and Tone's approximation for group collision probability matrix. It utilizes mathematical probability tables as quadrature formulas in calculating effective cross-sections. Numerical results for the ZPPR drawer calculations in 1,968 groups show that, in the case of the double-column fuel drawer, Tone's method gives equivalent precision to the subgroup method while markedly reducing the total number of collision probability matrix calculations and hence the central processing unit time. In the case of a single-column fuel drawer with the presence of a uranium metal material, Tone's method obtains less precise results than those of the subgroup method due to less precise heterogeneous–homogeneous equivalence. The same options are also applied to PWR UOX, MOX, and Gd cells using the SHEM 361-group library, with the objective of analyzing whether this energy mesh might be suitable for the application of this methodology to thermal systems. The numerical results show that comparable precision is reached with both Tone's and the subgroup methods, with the satisfactory representation of intrapellet spatial effects.
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Submitted on : Monday, January 6, 2020 - 11:33:32 AM
Last modification on : Tuesday, April 28, 2020 - 11:28:13 AM

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L. Lei-Mao, I. Zmijarevic. A new Tone's method in APOLLO3 and its application to fast and thermal reactor calculations. Nuclear Engineering and Technology, 2017, 49, ⟨10.1016/⟩. ⟨cea-02428798⟩



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