SGTR期间的剂量评估

J. Adams
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引用次数: 2

摘要

核管理委员会要求公用事业公司确定压水反应堆对蒸汽发生器管破裂(SGTR)的反应,作为该工厂安全分析的一部分。SGTR分析包括对反应堆冷却剂系统(RCS)中由于碘峰值、一次闪蒸和旁路馏分以及二次冷却剂系统(SCS)中的碘分配而产生的碘浓度的假设。最近完成了实验和分析调查,其中对这些假设进行了检验,以确定它们是否以及在何种程度上是保守的(即,它们所计算出的碘源期/剂量是否至少与实际事件期间的预期值一样大或更大)。目前的研究目的是评估这些调查结果对SGTR期间计算的环境碘剂量的总体影响。为了协助这项研究,编写了一个计算机程序,DOSE。该程序使用一个简单的非机制模型来计算SGTR期间对环境的碘源项,作为RCS和SCS中水质量库存和流速以及碘浓度的函数。本研究的主要结论是,RCS中的碘浓度是主要参数,这是由于一次闪光在碘源项上占主导地位。«少
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Assessment of dose during an SGTR
The Nuclear Regulatory Commission requires utilities to determine the response of a pressurized water reactor to a steam generator tube rupture (SGTR) as part of the safety analysis for the plant. The SGTR analysis includes assumptions regarding the iodine concentration in the reactor coolant system (RCS) due to iodine spikes, primary flashing and bypass fractions, and iodine partitioning in the secondary coolant system (SCS). Experimental and analytical investigations have recently been completed wherein these assumptions were tested to determine whether and to what degree they were conservative (that is, whether they result in a calculated iodine source term/dose that is at least as large or larger than that expected during an actual event). The current study has the objective to assess the overall effects of the results of these investigations on the calculated iodine dose to the environment during an SGTR. To assist in this study, a computer program, DOSE, was written. This program uses a simple, non-mechanistic model to calculate the iodine source term to the environment during an SGTR as a function of water mass inventories and flow rates and iodine concentrations in the RCS and SCS. The principal conclusion of this study is that the iodine concentrationmore » in the RCS is the dominant parameter, due to the dominance of primary flashing on the iodine source term.« less
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