NOVEL COMPOSITE ADSORBENT BASED ON ION EXCHANGE RESIN WITH FERROCYANIDE PHASE FOR SELECTIVE REMOVAL OF CESIUM RADIONUCLIDES

Bondar Yu, K. S., S. V.
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Abstract

and concentration of radionuclides is an actual problem. In this respect the development of modern fabrication approaches of efficient adsorbents become especially relevant nowadays. Composite adsorbents with a sorption-active inorganic phase are of particular interest for selective removal of radionuclides. Ion exchange resins are a promising solid support matrix for fabrication of composite adsorbents by formation of inorganic nanoparticles on the surface/inside polymer granules by one stage experiment in situ. This article presents the experimental results on the fabrication of novel composite adsorbent based on macroporous polystyrene resin with sulfonic acid groups by in situ formation of potassium-nickel ferrocyanide phase and its application for selective removal of cesium ions from the model solutions with high concentrations of competitive sodium ions. The obtained results of X–ray diffraction and scanning electron-microscopy studies con- firm the formation of a ferrocyanide phase on the surface of polymer granules in the form of dense uniform layer of nanoscaled aggregates of potas-sium-copper ferrocyanide. Sorption experiments showed that composite polymer granules with the ferrocyanide phase are characterized by high selectivity to cesium ions in the presence of a significant excess of competitive sodium ions. The performed studies allow concluding that the synthe-sized composite adsorbent based on macroporous polymer granules with the ferrocyanide phase is of interest for practical use in sorption purifica- tion of natural waters and technological solutions from cesium radionuclides.
新型离子交换树脂-亚铁氰化物相复合吸附剂用于选择性去除铯放射性核素
放射性核素的浓度是一个实际问题。在这方面,高效吸附剂的现代制造方法的发展在当今尤为重要。具有吸附活性无机相的复合吸附剂对放射性核素的选择性去除特别感兴趣。离子交换树脂是一种很有前途的固体载体基质,通过原位实验在聚合物颗粒表面/内部形成无机纳米颗粒来制备复合吸附剂。本文介绍了以大孔聚苯乙烯树脂为基材,通过原位生成亚铁氰化钾-镍相制备新型复合吸附剂的实验结果及其在高浓度竞争钠离子模型溶液中选择性去除铯离子的应用。所得的x射线衍射和扫描电镜研究结果证实,在聚合物颗粒表面形成了一层致密均匀的纳米级钾-铜亚铁氰化物聚集体。吸附实验表明,含亚铁氰化物相的复合聚合物颗粒在存在大量过量竞争钠离子的情况下对铯离子具有较高的选择性。所进行的研究表明,基于亚铁氰化物相的大孔聚合物颗粒的合成复合吸附剂在吸附净化天然水和铯放射性核素的技术解决方案中具有实际应用价值。
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