Treatment of Water Contaminated with Radiocesium Using Novel Complexes between Prussian-Blue and Bivalent Transition Metal Hydroxides

Insights Concerning the Fukushima Daiichi Nuclear Accident Vol. 4 Pub Date : 1900-01-01 DOI:10.3327/TAESJ.J14.008

H. Ubara, Eiji Yuki, K. Tsukiyama, Masato Kamizawa, Koichi Senoh, K. Ohta, F. Shimamoto, Nariyuki Ohta

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引用次数: 1

Abstract

A variety of technologies are applied to the decontamination of radiocesium from water using inorganic adsorbents such as zeolites, Prussian blue (PB) and its analogues. However, these adsorbents are di‹cult to apply. Although zeolites work as good adsorbents for cesium (Cs) in freshwater, their adsorption ability is extremely low in seawater and ‰y ash extracts with a high salt concentration. In contrast, PB and its analogues maintain their selective adsorption ability for Cs even in water containing salts, but a high level of cyan remains in the treated water. In this study, we introduce a new technology that utilizes complexes between PB and hydroxides of transition metals (PBX) for the decontamination of Cs from water and report results of demonstration tests on simulated seawater and ‰y ash extract. Furthermore, the excellent results of the PBX method applied to the extracts from ‰y ash contaminated with radiocesium (more than 8000 Bq/kg) are also shown. It has been proved that radiocesium activities are not only below the detection limit (<10 Bq/kg) and the content of cyan can be controlled under the regulation value of tap water in the water treated with PBX.

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新型普鲁士蓝与二价过渡金属氢氧化物配合物处理放射性铯污染水

利用沸石、普鲁士蓝(PB)及其类似物等无机吸附剂去除水中放射性铯的技术有多种。然而，这些吸附剂并不适用。沸石在淡水中对铯具有良好的吸附剂作用，但在海水和高盐浓度的灰分萃取物中吸附能力极低。相比之下，PB及其类似物即使在含盐水中也能保持对Cs的选择性吸附能力，但处理后的水中仍有大量的青色。本研究介绍了一种利用PB与过渡金属氢氧化物(PBX)之间的配合物去除水中铯的新技术，并报告了模拟海水和‰灰提取物的示范试验结果。此外，PBX法应用于放射性污染(超过8000 Bq/kg)的‰灰提取物也显示出优异的结果。实验证明，PB处理后的水中，放射性元素的活度不仅低于检测限(<10 Bq/kg)，而且青色的含量可以控制在自来水调节值以下X。

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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Insights Concerning the Fukushima Daiichi Nuclear Accident Vol. 4

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