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Feasibility study for production of 99Mo and 99mTc by the neutron activation of 98Mo in the MNSR reactor

Q4 Energy
International Journal of Nuclear Energy Science and Technology Pub Date : 2019-04-26 DOI:10.1504/IJNEST.2019.10020878
K. Khattab, G. Saba
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Abstract

The calculated weekly specific activities of 99Mo and 99mTc produced from the irradiation of the MoO3 targets in the Miniature Neutron Source Reactor (MNSR) are presented in this paper. The productions of the 99Mo and 99mTc were modelled and calculated through a set of differential equations using the Mathcad program. The resonance self-shielding factor (Gres) was calculated using the MATSSF and MCNP4C codes. The effects of the physical parameters such as the neutron flux and irradiation time on the weekly specific activities of 99Mo and 99mTc have been analysed. It was found that the optimum irradiation scheme was achieved when the MNSR was operated for an extended period of 5 hours a day for 5 days a week at the neutron flux of 7.5×1011 n.cm‒2.s‒1. The weekly specific activities for the 99Mo and 99mTc which can be produced in the MNSR, filling each of the five inner irradiation sites with 20 g of the MoO3 targets and using the regular natural convection method to cool the reactor, were 7.20 and 5.05 mCi.g‒1, respectively.
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微堆中子活化98Mo生产99Mo和99mTc的可行性研究
本文介绍了微型中子源反应堆(MNSR)中MoO3靶体辐照产生的99Mo和99mTc的周比活度计算结果。使用Mathcad程序通过一组微分方程对99Mo和99mTc的生产进行了建模和计算。利用MATSSF和MCNP4C代码计算了谐振自屏蔽系数(Gres)。分析了中子通量和辐照时间等物理参数对99Mo和99mTc周比活度的影响。结果表明,在中子通量为7.5×1011 n.cm-2.s-1的情况下,每周5天,每天延长运行5小时,可获得最佳辐照方案。在用20 g MoO3靶材填充5个内辐照点并采用常规自然对流方式冷却反应堆时,微核反应堆可产生的99Mo和99mTc的周比活度分别为7.20和5.05 mCi。分别g1。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal of Nuclear Energy Science and Technology
International Journal of Nuclear Energy Science and Technology Energy-Nuclear Energy and Engineering
CiteScore
0.80
自引率
0.00%
发文量
2
期刊介绍: Today, nuclear reactors generate nearly one quarter of the electricity in nations representing two thirds of humanity, and other nuclear applications are integral to many aspects of the world economy. Nuclear fission remains an important option for meeting energy requirements and maintaining a balanced worldwide energy policy; with major countries expanding nuclear energy"s role and new countries poised to introduce it, the key issue is not whether the use of nuclear technology will grow worldwide, even if public opinion concerning safety, the economics of nuclear power, and waste disposal issues adversely affect the general acceptance of nuclear power, but whether it will grow fast enough to make a decisive contribution to the global imperative of sustainable development.
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