B. Verlinden, A. Wilden, K. Van Hecke, Richard J. M. Egberink, J. Huskens, W. Verboom, Michelle Hupert, P. Weßling, A. Geist, P. Panak, R. Hermans, M. Verwerft, G. Modolo, K. Binnemans, T. Cardinaels
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引用次数: 2
Abstract
ABSTRACT The diglycolamide 2,2’-oxybis(N,N-di-n-decylpropanamide) (mTDDGA) is being studied as an extractant for actinides and lanthanides in the European Grouped Actinide Extraction (EURO-GANEX) process. The aim is the development of a more simplified process using a single extractant instead of a mixture of extractants used in the current EURO-GANEX process. This work presents solvent optimization studies of mTDDGA, with regards to the extraction characteristics of the different diastereomers of mTDGA and of mixed diastereomer solutions. Also radiolysis behavior has been studied by irradiation of solvent extraction systems in a gamma irradiation facility using 60Co. The availability of irradiated organic solutions made it possible to gain valuable insights into the plutonium loading capacity after gamma-irradiation of the solvent up to 445 kGy and to quantify degradation compounds. Solvent extraction characteristic of the major degradation compounds themselves were determined. Like other methylated diglycolamides, we found a remarkable difference in extraction of up to two orders of magnitude between the two diastereomers. High plutonium loading (36 g L−1) is feasible using this single extractant, even after absorbing a dose of 445 kGy. This remarkable observation is possibly promoted by the presence of the main degradation compound which extracts plutonium verywell.
摘要在欧洲组分锕系元素萃取(EURO-GANEX)工艺中,研究了2,2'-氧基双(N,N-二正-癸基丙酰胺)二甘醇酰胺(mTDDGA)作为锕系和镧系元素的萃取剂。目的是开发一种更简单的工艺,使用单一的萃取剂,而不是目前EURO-GANEX工艺中使用的萃取剂混合物。本工作介绍了mTDGA的溶剂优化研究,涉及mTDGA不同非对映异构体和混合非对映体溶液的提取特性。此外,还通过在使用60Co的伽马辐照设备中对溶剂萃取系统进行辐照来研究辐解行为。辐照有机溶液的可用性使得有可能对高达445kGy的溶剂的伽马辐照后的钚负载能力获得有价值的见解,并量化降解化合物。测定了主要降解化合物本身的溶剂萃取特性。与其他甲基化二甘醇酰胺一样,我们发现两种非对映体在提取方面存在高达两个数量级的显著差异。钚装载量高(36 g L−1)使用这种单一提取剂是可行的,即使在吸收445kGy的剂量后也是如此。这种显著的观察结果可能是由于主要降解化合物的存在而促进的,该化合物能很好地提取钚。
期刊介绍:
Solvent Extraction and Ion Exchange is an international journal that publishes original research papers, reviews, and notes that address all aspects of solvent extraction, ion exchange, and closely related methods involving, for example, liquid membranes, extraction chromatography, supercritical fluids, ionic liquids, microfluidics, and adsorption. We welcome submissions that look at: The underlying principles in solvent extraction and ion exchange; Solvent extraction and ion exchange process development; New materials or reagents, their syntheses and properties; Computational methods of molecular design and simulation; Advances in equipment, fluid dynamics, and engineering; Interfacial phenomena, kinetics, and coalescence; Spectroscopic and diffraction analysis of structure and dynamics; Host-guest chemistry, ion receptors, and molecular recognition.