使用偏高岭土基土工聚合物去除水溶液中的铯和锶离子

D. V. Tarnovsky, O. S. Fedoryshyn, O. A. Vyshnevskyi, I. V. Romanova
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引用次数: 0

摘要

这项工作的目的是合成基于偏高岭土的土工聚合物,并确定它们在从水溶液中去除铯和锶离子过程中的吸附能力。研究人员提出了新的方法,以获得技术上合适的两种土工聚合物样品。通过 X 射线荧光分析(XRF)、低温氮吸附/解吸和扫描电子显微镜研究(SEM)对材料的形态进行了研究。从 X 射线荧光分析数据中可以看出,二氧化硅和氧化铝是所有研究样品的主要成分(约 54-84 重量百分比)。扫描电镜研究表明,土工聚合物由纳米颗粒、无定形土工聚合物粘合剂和未反应的高岭土组成。研究发现,所有样品都含有半径约为 1-40 纳米的中孔。用布鲁诺-艾美特-泰勒(BET)法计算出的最大比表面积是球形棒状样品(SBET = 88 m2/g),比合成时使用的初始高岭土大 10 倍左右。在从水溶液中去除 Cu2+、Cs+ 和 Sr2+ 的过程中,对材料的离子交换能力进行了测定。数据显示,土工聚合物比初始高岭土更有效地去除所需的离子。以金字塔形式获得的样品对铯离子的吸附能力最大,达到 1.75 mmol/g。实验数据与 Langmuir 模型相匹配,并计算出主要的 Langmuir 常数。在分析研究数据并与文献数据进行比较后发现,所获得的土工聚合物作为技术上合适的吸附剂,可用于吸附技术,以净化水中的放射性核素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Removal of cesium and strontium ions from aqueous solutions using metakaolin based geopolymers
The aim of presented work was to synthesize geopolymers based on the metakaolin and to determine their adsorption capability in the process of cesium and strontium ions removal from the aqueous solutions. New approaches were proposed for obtaining the two samples of geopolymers in techologically suitable forms. Morphology of materials was investigated by means of X-ray fluorescence analysis (XRF), low-temperature nitrogen adsorption/desorption and scanning electron microscopic studies (SEM). As it follow from the data of XRF analysis, SiO2 and Al2O3 oxides found to be the major components in all samples investigated (~ 54–84 wt. %). As was determined by SEM studies, geopolymers consisted from nanosized particles, amorphous geopolymers binder and unreacted kaolin. It has been found that all samples involve the mesopores with approx. 1–40 nm radii. The greatest specific surface area calculated by the Brunauer-Emmet-Teller (BET) method had the sample obtained in the forms of spherical rods (SBET = 88 m2/g) that about 10 times greater than for initial kaolin taken for synthesis. The ion exchange capacities of materials in the process of Cu2+, Cs+ and Sr2+ removal from water solution were determined and it was found that these properties depends on the method of materials obtaining. Data showed that the geopolymers were more effective for removal the desired ions than initial kaolin. The greatest adsorption capacity towards cesium ions was received on the samples obtained in forms of pyramids and was reached 1.75 mmol/g. Experimental data were fitted into the Langmuir models and the main Langmuir constants were calculated. When analysing the data of investigation with comparing the literature data it was noted that geopolymers obtained can be used in adsorption technology for purification of water from radionuclides as technologically suitable sorbents.
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