Journal of Isotopes (Jun 2023)

Feasibility Study for Irradiation Production of 90Y by 49-2 Pool Reactor

  • ZUO Yajie;CHEN Xiaoliang;ZHANG Yu;ZHANG Weijian;WANG Shuo;CHEN Xiaoxian

DOI
https://doi.org/10.7538/tws.2023.36.03.0279
Journal volume & issue
Vol. 36, no. 3
pp. 279 – 284

Abstract

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90Y is an ideal therapeutic radionuclide, and its labeled radiopharmaceuticals are widely used in the diagnosis and treatment of a variety of cancers. In order to verify the feasibility of irradiating the 49-2 reactor to produce 90Y isotopes, the activity of irradiating high-purity yttrium oxide (Y2O3) targets to produce radioisotopes 90Y in the 49-2 core was calculated by using the Monka program MCNP6 (Monte Carlo N-particle 6) and SCALE6.1. It was compared with the results of irradiation experiments at the H8 position. The theoretical calculation results show that E8 and H8 pores can produce 90Y (>10 Ci/gY) with high specific activity, the irradiation time required is 2 days and 6 days, respectively, and the content of impurity nuclides in the radioactive isotope 90Y produced by irradiation is low (<105). Compared with the results of 90Y irradiation experiment at H8 hole in the reactor of 49-2, the deviation was 4.02%. The results show that 90Y isotopes that meet medical requirements can be produced by irradiating high-purity yttrium oxide targets with 49-2 reactors.

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