Preliminary Study of Cesium Immobilization in a Geopolymer Matrix

Erika Kocsis, Máté Fehérvári, Máté Novák, Edit Tóth-Bodrogi, Tibor Kovács
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Abstract

Geopolymers are modern synthetic materials that have many beneficial characteristics, e.g. excellent mechanical properties, fire- and heat-resistance, minimal shrinkage and can be molded into shape. Given their aforementioned characteristics, geopolymers could be applicable as conditioning materials, e.g. to handle hazardous waste and radioactive materials. However, their long-term applicability needs to be investigated.The aim of this study is to investigate the mobility of Cs-137 radionuclides in embedding materials. Different geopolymeric matrices - namely kaolinite, bentonite, zeolites and red mud - were tested. The leach test was performed according to the ASTM C1308-08(2017) standard and the activity concentration of Cs-137 isotopes was measured by gamma spectrometry using a high-purity germanium (HPGe) semiconductor detector. According to our preliminary results, the matrices that resulted in the most significant immobilization effect were those in which bentonite, cement, fly ash and 8M NaOH were used, releasing approximately 10% of the cesium.
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地聚合物基质中铯固定化的初步研究
地聚合物是一种现代合成材料,具有许多有益的特性,例如优异的机械性能、防火和耐热性、最小的收缩率和可模塑成型。鉴于上述特点,地聚合物可作为调理材料,例如处理危险废物和放射性物质。然而,它们的长期适用性需要研究。本研究的目的是研究铯-137核素在包埋材料中的迁移率。测试了不同的地聚合物基质,即高岭石、膨润土、沸石和赤泥。浸出试验按照ASTM C1308-08(2017)标准进行,采用高纯度锗(HPGe)半导体探测器采用伽马能谱法测量Cs-137同位素的活度浓度。根据我们的初步结果,固定效果最显著的基质是使用膨润土、水泥、粉煤灰和8M NaOH的基质,释放出约10%的铯。
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