:A study of PFBR auxiliary neutron source strength activation and its variability with respect to the neutron spectrum and 123Sb capture cross section论文

:A study of PFBR auxiliary neutron source strength activation and its variability with respect to the neutron spectrum and 123Sb capture cross section论文

本文主要研究内容

作者(2019)在《A study of PFBR auxiliary neutron source strength activation and its variability with respect to the neutron spectrum and 123Sb capture cross section》一文中研究指出:In fast reactors, the inherent neutron source strength is often insufficient for monitoring the reactor start-up operation with ex-core detectors. To increase the subcritical neutron flux, an auxiliary neutron source subassembly(SSA) is generally used to overcome this problem. In this study, the estimated neutron source strength and detector count rate of an antimony-beryllium-based SSA are obtained using the deterministic transport code DORT and Monte Carlo calculations. Because the antimony activation rate is a critical parameter, its sensitivity to the capture cross section and neutron flux spectrum is studied. The reaction cross section sensitivity is studied by considering data from different evaluated nuclear data files.It is observed that, because of the variation in the cross sections from different evaluated nuclear data files, the values of the saturation gamma(> 1.67 MeV) activity and neutron strength predicted by ORIGEN2 lie within ±2%.The obtained antimony activation rate and sensitivity to the neutron flux are partially validated by irradiating samples of antimony in the KAMINI reactor. The average onegroup capture cross sections of bare and cadmium-covered 123Sb samples obtained by the ratio method are 4.0 and 1.78 b, respectively. The results of the calculation predicting the activated neutron source strength as a function of operating time and sensitivity to the neutron spectrum in the irradiation region are also presented.

Abstract

In fast reactors, the inherent neutron source strength is often insufficient for monitoring the reactor start-up operation with ex-core detectors. To increase the subcritical neutron flux, an auxiliary neutron source subassembly(SSA) is generally used to overcome this problem. In this study, the estimated neutron source strength and detector count rate of an antimony-beryllium-based SSA are obtained using the deterministic transport code DORT and Monte Carlo calculations. Because the antimony activation rate is a critical parameter, its sensitivity to the capture cross section and neutron flux spectrum is studied. The reaction cross section sensitivity is studied by considering data from different evaluated nuclear data files.It is observed that, because of the variation in the cross sections from different evaluated nuclear data files, the values of the saturation gamma(> 1.67 MeV) activity and neutron strength predicted by ORIGEN2 lie within ±2%.The obtained antimony activation rate and sensitivity to the neutron flux are partially validated by irradiating samples of antimony in the KAMINI reactor. The average onegroup capture cross sections of bare and cadmium-covered 123Sb samples obtained by the ratio method are 4.0 and 1.78 b, respectively. The results of the calculation predicting the activated neutron source strength as a function of operating time and sensitivity to the neutron spectrum in the irradiation region are also presented.

论文参考文献

  • [1].Study of neutron production and moderation for sulfur neutron capture therapy[J]. Meng Peng,Guo-Zhu He,Qi-Wei Zhang,Bin Shi,Hong-Qing Tang,Zu-Ying Zhou.  Nuclear Science and Techniques.2019(01)
  • [2].Measurement of Neutron Capture Cross Section for 152Sm[J]. Luo Xiao-bing Xia Yi-jun Yang Zhi-hua Liu Man-tian (Institute of Nuclear Science and Technology,Sichuan University.Chengdu 610064).  Chinese Journal of Nuclear Physics.1994(03)
  • [3].A capture-gated fast neutron detection method[J]. 刘毅,杨祎罡,邰杨,张智.  Chinese Physics C.2016(07)
  • [4].Design of a shielding collimator device for a small-angle monoenergetic neutron source[J]. Wen-Hui Lü,Hui-Ping Guo,Ning Lü,Kuo Zhao,Xiao-Tian Wang,Yi-Jie Hou.  Nuclear Science and Techniques.2018(08)
  • [5].Determination of neutron capture cross sections of 232That 14.1 MeV and 14.8 MeV using the neutron activation method[J]. 兰长林,张毅,吕韬,解保林,彭猛,姚泽恩,陈金根,孔祥忠.  Chinese Physics C.2017(04)
  • [6].Impact parameter dependence of the yield ratios of light particles as a probe of neutron skin[J]. Ting-Zhi Yan,Shan Li.  Nuclear Science and Techniques.2019(03)
  • [7].Calculation of the wide-angle neutron spectra from the ~9Be(d,xn) reaction in a thick beryllium target[J]. 韦峥,王俊润,张雅玲,黄智武,马占文,张杰,丁琰琰,夏莉,李建一,卢小龙,张宇,徐大鹏,杨磊,姚泽恩.  Chinese Physics C.2019(05)
  • [8].Measurement of the neutron total cross section of carbon at the Back-n white neutron beam of CSNS[J]. Xing-Yan Liu,Yi-Wei Yang,Rong Liu,Jie Wen,Zhong-Wei Wen,Zi-Jie Han,Zhi-Zhou Ren,Qi An,Huai-Yong Bai,Jie Bao,Ping Cao,Qi-Ping Chen,Yong-Hao Chen,Pin-Jing Cheng,Zeng-Qi Cui,Rui-Rui Fan,Chang-Qing Feng,Min-Hao Gu,Feng-Qin Guo,Chang-Cai Han,Guo-Zhu He,Yong-Cheng He,Yue-Feng He,Han-Xiong Huang,Wei-Ling Huang,Xi-Ru Huang,Xiao-Lu Ji,Xu-Yang Ji,Hao-Yu Jiang,Wei Jiang,Han-Tao Jing,Ling Kang,Ming-Tao Kang,Bo Li,Lun Li,Qiang Li,Xiao Li,Yang Li,Yang Li,Shu-Bin Liu,Guang-Yuan Luan,Ying-Lin Ma,Chang-Jun Ning,Bin-Bin Qi,Jie Ren,Xi-Chao Ruan,Zhao-Hui Song,Hong Sun,Xiao-Yang Sun,Zhi-Jia Sun,Zhi-Xin Tan,Hong-Qing Tang,Jing-Yu Tang,Peng-Cheng Wang,Qi Wang,Tao-Feng Wang,Yan-Feng Wang,Zhao-Hui Wang,Zheng Wang,Qing-Biao Wu,Xiao-Guang Wu,Xuan Wu,Li-Kun Xie,Han Yi,Li Yu,Tao Yu,Yong-Ji Yu,Guo-Hui Zhang,Jing Zhang,Lin-Hao Zhang,Li-Ying Zhang,Qing-Min Zhang,Qi-Wei Zhang,Xian-Peng Zhang,Yu-Liang Zhang,Zhi-Yong Zhang,Ying-Tan Zhao,Liang Zhou,Zu-Ying Zhou,Dan-Yang Zhu,Ke-Jun Zhu,Peng Zhu.  Nuclear Science and Techniques.2019(09)
  • [9].Design of the thermal neutron detection system for CJPL-Ⅱ[J]. 曾昭明,宫辉,李荐民,岳骞,曾志,程建平.  Chinese Physics C.2017(05)
  • [10].Effect of positive Q-value neutron transfers on sub-barrier fusion reactions[J]. 温培威,冯兆庆,张凡,李成,林承键,张丰收.  Chinese Physics C.2017(06)
  • 论文详细介绍

    论文作者分别是来自Nuclear Science and Techniques的,发表于刊物Nuclear Science and Techniques2019年08期论文,是一篇关于,Nuclear Science and Techniques2019年08期论文的文章。本文可供学术参考使用,各位学者可以免费参考阅读下载,文章观点不代表本站观点,资料来自Nuclear Science and Techniques2019年08期论文网站,若本站收录的文献无意侵犯了您的著作版权,请联系我们删除。

    标签:;  

    :A study of PFBR auxiliary neutron source strength activation and its variability with respect to the neutron spectrum and 123Sb capture cross section论文
    下载Doc文档

    猜你喜欢