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Volume 41 Issue 2
Apr.  2020
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Zhou Chunlin, Li Haitao, Zhang Jiangyun, Chen Liang, Li Ketian, Lai Lisi, . Study on Production Capacity of 63Ni by HFETR Irradiation[J]. Nuclear Power Engineering, 2020, 41(2): 168-172.
Citation: Zhou Chunlin, Li Haitao, Zhang Jiangyun, Chen Liang, Li Ketian, Lai Lisi, . Study on Production Capacity of 63Ni by HFETR Irradiation[J]. Nuclear Power Engineering, 2020, 41(2): 168-172.

Study on Production Capacity of 63Ni by HFETR Irradiation

  • Publish Date: 2020-04-11
  • To complete the production of radioisotope 63Ni based on self-reliance, the reactor physical calculation program is used to establish a balanced core model of HFETR. The process of irradiating natural nickel and high-purity 62Ni to produce 63Ni at four typical in-pile locations is simulated. The results show that high purity 62Ni is the most suitable target material. The central channel of K14 fuel element is the best irradiation position. The high specific activity 63Ni (≥5.55×1011 Bq/g) is produced by high purity 62Ni target with irradiation time about 60 cycles; The radioactive isotope 63Ni produced by irradiation has low impurity nuclide content; The target at K14 position during the irradiation has the highest heat release rate of 9.73 W/g. Furthermore, a continuous batch production plan for segmented loading and segmentation is proposed, which can provide technical support for the subsequent engineering production line design.

     

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      沈阳化工大学材料科学与工程学院 沈阳 110142

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