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Validation of Doppler Temperature Coefficients and Assembly Power Distribution for the Lattice Code KYLIN V2.0

This work is interested in verifying and analyzing the advanced neutronics lattice code KYLIN V2.0. Assembly calculations are an integral part of the two-step calculation for core design, and their accuracy directly affects the results of the core physics calculations. In this paper, we use the Dopp...

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Bibliographic Details
Published in:Frontiers in energy research 2021-12, Vol.9
Main Authors: Jichong, Lei, Jinsen, Xie, Zhenping, Chen, Tao, Yu, Chao, Yang, Bin, Zhang, Chen, Zhao, Xiangyang, Li, Jiebo, Wu, Huajian, Zhang, Nianbiao, Deng
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Language:English
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Summary:This work is interested in verifying and analyzing the advanced neutronics lattice code KYLIN V2.0. Assembly calculations are an integral part of the two-step calculation for core design, and their accuracy directly affects the results of the core physics calculations. In this paper, we use the Doppler coefficient numerical benchmark problem and CPR1000 AFA-3G fuel assemblies to verify and analyze the advanced neutronics lattice code KYLIN V2.0 developed by the Nuclear Power Institute of China. The analysis results show that the Doppler coefficients calculated by KYLIN V2.0 are in good agreement with the results of other well-known nuclear engineering design software in the world; the power distributions of AFA-3G fuel assemblies are in good agreement with the results of the RMC calculations, it’s error distribution is in accordance with the normal distribution. It shows that KYLIN V2.0 has high calculation accuracy and meets the engineering design requirements.
ISSN:2296-598X
2296-598X
DOI:10.3389/fenrg.2021.801481