A new technique has been developed by scientists to extract uranium more safely and efficiently, an advance that may lead to cleaner nuclear fuel and better waste treatment. Researchers at Oregon State University (OSU) in the US uses soap-like chemicals known as surfactants to extract uranium from an aqueous solution into a kerosene solution in the form of hollow clusters.
Aside from fuel preparation, it may also find value in legacy waste treatment and for the cleanup of environmental contamination. The research at OSU involves a unique form of uranium discovered in 2005, uranyl peroxide capsules, and how those negatively charged clusters form in alkaline conditions.
"This is a very different direction. A lot of the work done now is in acid and we are at the other end of the pHscale in base. It is a very different approach, overall usingless harmful, less toxic chemicals," said Harrison Neal from OSU. Throughout the nuclear fuel cycle, many separations arerequired - in mining, enrichment and fuel fabrication, and then after fuel use, for the recovery of usable spent isotopes and the encapsulation and storage of unusable radioactive components.
"When you use nuclear fuel, the radioactive decay products poison the fuel and make it less effective," said May Nyman, professor at OSU. "You have to take it, dissolve it, get the good stuff outand make new fuel," said Nyman. Nyman said the work represents significant fundamental research in the field of cluster chemistry because it allowsfor the study of uranyl clusters in the organic phase and canpave the way to improved understanding of ion association.
"With extracting these clusters into the organic phase,the clusters themselves are hollow, so when we get them intothe organic solution, they are still containing other atoms, molecules, other ions," said Neal. "We can study how these ions interact with these cages that they are in. The fundamental research is understandinghow the ions get inside and what they do once they are inside because they are stuck there," Neal added.
When the clusters form, each contains 20 to 60 uranium atoms, "so we can extract them in whole bunches instead of oneat a time. It is an atom-efficient approach," Nyman said. Existing separation techniques require two extraction molecules for every uranium ion, whereas the OSU techniquerequires less than one extraction molecule per ion. The study was published in the European Journal of Inorganic Chemistry.