Evaluation of the Removal Properties of Iodine and Organic Iodide by a AgNO3 Solution

T. Kanai, M. Furuya, S. Nisimura
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Abstract

When excess pressure and temperature are added to a containment vessel of a nuclear power plant during a severe accident, damage of the containment vessel and the release of radioactive materials into the environment are expected. Filtered containment venting systems (FCVS) installed in exhaust systems reduce the release of radioactive materials by the use of multistage filters. In actual FCVS, several types of alkaline solution are used in the scrubbing stage to capture the radioactive iodine (I2). Therefore, it is difficult to remove CH3I by the alkaline solution, and molecular sieves such as silver zeolites installed downstream of the scrubbing stage are used to capture the organic iodide (CH3I). Silver nitrate aqueous solution (AgNO3 aq.) is highly reactive against iodine; hence, by using AgNO3 aq., the removal of organic iodide in the scrubbing stage can be expected. We have conducted basic evaluations of the removal properties of iodine and organic iodide by AgNO3 aq. using smallscale and pool-scrubbing (inner diameter: 300 mm) test sections at ambient temperature and pressure. The small-scale test results show that AgNO3 aq. has the same I2 removal performance as sodium hydroxide aqueous solution (NaOH aq.). Moreover, the pool-scrubbing test results show that a CH3I decontamination factor (DF) of over 50 can be expected under the conditions of a AgNO3 concentration ≥ 10 wt% and submergence ≥ 1.14 m.
AgNO3溶液对碘和有机碘化物去除率的评价
在一次严重事故中,当核电站的安全壳增加了过高的压力和温度时,安全壳的损坏和放射性物质释放到环境中是可以预料的。安装在排气系统中的过滤容器排气系统(FCVS)通过使用多级过滤器减少放射性物质的释放。在实际的FCVS中,在洗涤阶段使用几种碱性溶液来捕获放射性碘(I2)。因此,碱性溶液很难去除CH3I,因此采用安装在洗涤阶段下游的银沸石等分子筛来捕获有机碘化物(CH3I)。硝酸银水溶液(agno3aq .)对碘具有高活性;因此,通过使用agno3aq,可以期望在洗涤阶段去除有机碘化物。在常温常压下,采用小型池擦洗(内径300 mm)试样,对AgNO3水溶液去除碘和有机碘的性能进行了基本评价。小试结果表明,AgNO3水溶液与NaOH水溶液具有相同的I2去除率。洗涤池试验结果表明,当AgNO3浓度≥10 wt%,沉水≥1.14 m时,CH3I去污系数(DF)可达50以上。
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