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posted by martyb on Tuesday February 21 2017, @11:17AM   Printer-friendly
from the wave-of-interest dept.

Stanford researchers have improved a technique for drawing out uranium from seawater:

Trace amounts of uranium exist in seawater, but efforts to extract that critical ingredient for nuclear power have produced insufficient quantities to make it a viable source for those countries that lack uranium mines. A practical method for extracting that uranium, which produces higher quantities in less time, could help make nuclear power a viable part of the quest for a carbon-free energy future. "Concentrations are tiny, on the order of a single grain of salt dissolved in a liter of water," said Yi Cui, a materials scientist and co-author of a paper in Nature Energy. "But the oceans are so vast that if we can extract these trace amounts cost effectively, the supply would be endless."

[...] Scientists have long known that uranium dissolved in seawater combines chemically with oxygen to form uranyl ions with a positive charge. Extracting these uranyl ions involves dipping plastic fibers containing a compound called amidoxime into seawater. The uranyl ions essentially stick to the amidoxime. When the strands become saturated, the plastic is chemically treated to free the uranyl, which then has to be refined for use in reactors just like ore from a mine.

How practical this approach is depends on three main variables: how much uranyl sticks to the fibers; how quickly ions can be captured; and how many times the fibers can be reused. In the recent work, the Stanford researchers improved on all three variables: capacity, rate and reuse. Their key advance was to create a conductive hybrid fiber incorporating carbon and amidoxime. By sending pulses of electricity down the fiber, they altered the properties of the hybrid fiber so that more uranyl ions could be collected.

A half-wave rectified alternating current electrochemical method for uranium extraction from seawater (DOI: 10.1038/nenergy.2017.7) (DX)


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  • (Score: 0) by Anonymous Coward on Wednesday February 22 2017, @03:35PM

    by Anonymous Coward on Wednesday February 22 2017, @03:35PM (#470224)

    If we start doing this large scale, what happens to the first step in all aquatic food chains?