Molten salt reactors (MSRs) are being investigated as a possible source of ⁹⁹Mo for medical uses. This paper describes computational modeling being performed to determine the feasibility for use of several MSR concepts in ⁹⁹Mo production: the Molten Salt Breeder Reactor (MSBR), the Molten Salt Demonstration Reactor (MSDR), and the Molten Salt Reactor Experiment (MSRE). This modeling is accomplished with SCALE/TRITON using a three-mixture system and estimated removal terms. Results showed that the MSBR, MSDR and MSRE were capable of supplying an estimated 35,800,000, 13,700,000, and 132,000 six-day Ci/week of ⁹⁹Mo, respectively, which is far more than the global demand. A range of operating parameters has been determined in which each reactor type is expected to have sufficient production capability to meet global demand.

熔融盐反应堆（MSR）正在研究中，作为医学上可能使用的⁹⁹ Mo来源。本文介绍了正在执行的计算模型，以确定在⁹⁹ Mo生产中使用多个MSR概念的可行性：熔融盐育种反应堆（MSBR），熔融盐示范反应堆（MSDR）和熔融盐反应堆实验（MSRE）。使用三混合物系统和估计的去除项，使用SCALE / TRITON完成此建模。结果表明，MSBR，MSDR和MSRE能够提供每周35天的800万，13700000和132000的六天Ci / ⁹⁹钼分别远远超过全球需求。确定了一系列操作参数，其中每种反应器类型均有望具有足够的生产能力以满足全球需求。