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CFETR 堆体活化计算与分析
引用本文:宋欢,陈志,雷洁瑛,蒋帅. CFETR 堆体活化计算与分析[J]. 核聚变与等离子体物理, 2014, 34(3): 235-239
作者姓名:宋欢  陈志  雷洁瑛  蒋帅
作者单位:(中国科学技术大学核科学技术学院,合肥 230026)
基金项目:国家自然科学基金资助项目(11375182);中央高校基本科研业务费专项资金资助(WK2140000004)
摘    要:
运用FLUKA计算程序对中国聚变工程实验堆(CFETR)进行了一维模拟活化运算,得出了产氚包层、屏蔽层、真空室结构材料、环向场线圈等模块的中子活化特性。计算结果表明,在聚变堆以200MW聚变功率持续稳态运行一年后,刚停堆时堆体的总活度为1.05×10 19 Bq,停堆十年后堆体总活度为1.03×10 17 Bq,此时堆体的主要残留放射性核素为55 Fe。研究结果表明,目前CFETR的设计不存在突出的放射性环境安全问题。

关 键 词:CFETR   辐射安全  放射性活度  放射性核素  
收稿时间:2013-10-09

Activation calculation and analysis for CFETR
SONG Huan,CHEN Zhi,LEI Jie-ying,JIANG Shuai. Activation calculation and analysis for CFETR[J]. Nuclear Fusion and Plasma Physics, 2014, 34(3): 235-239
Authors:SONG Huan  CHEN Zhi  LEI Jie-ying  JIANG Shuai
Affiliation:(School of Nuclear Science and Technology, USTC, Hefei 230022 )
Abstract:
This paper considers the current China fusion engineering test reactor (CFETR) design, and simplifies it to a one-dimensional model. With the multi-particle transport code FLUKA, the neutron activation character of the tritium breeding blanket, shielding layer, vacuum vessel material and TFC of CFETR has been calculated to verify the radiation safety of the present design. The related results provide data reference for designing the components of CFETR and for further neutron activation analysis and calculation. The calculation results show that under the circumstances of one year operation with 200WM fusion power, the total radioactivity is 1.05×10 19 Bq after shutdown and 1.03×10 17 Bq after cooling for ten years. The primary residual nuclide is 55 Fe after decaying for ten years. It shows that there isn’t seriously activation safety issue.
Keywords:CFETR  Activation safety  Radioactivity  Radioactive nuclide  
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