Researchers at Pacific Northwest National Laboratory, working with engineers from LCW Supercritical Technologies, have extracted enough uranium to make five grams of yellowcake, a powdered form of uranium used to make fuel for nuclear power plants, using acrylic fibers to extract it from seawater.A search at PNNL shows the work was divided by specialties and involved several of the national labs. The piece goes on to say that uranium is present in seawater at the part per billion levels, about 3 PPB, then goes on to drop this bomb (pardon the pun):
“This is a significant milestone,” says Gary Gill, a PNNL researcher. “It indicates this approach can eventually provide commercially attractive nuclear fuel derived from the oceans, the largest source of uranium on Earth.”
The engineers at LCW developed the acrylic fiber which attracts and holds on to dissolved uranium naturally present in ocean water. It was made from an inexpensive yarn that was chemically modified into an adsorbent and selective for uranium, and efficient, and reusable. The yarn’s adsorbent properties are reversible, and captured uranium is easily released for processing into yellowcake. An analysis of the technology suggests that it could be competitive with the cost of uranium produced through land-based mining.
... it's estimated that there is at least four billion tons of uranium in seawater; this is about 500 times the amount of uranium known to exist in land-based ores, which must be mined.As we all have seen, mining on land is not without its ecological drawbacks; removing uranium from seawater would have to make greenies happy; except that they hate nuclear power. Mining underground brings issues that just aren't there with extracting it from seawater. More importantly, they estimate the known uranium deposits on land will last 100 years and prices will certainly go up this century as those sources are extracted. "Mining the oceans" will make much more uranium available. They then go on to say the yarn can be modified to collect other metals and could be useful for all sorts of environmental clean up work. Another metal they mention in particular as a target for the technique is vanadium, an expensive metal used in large-scale batteries.
The test vessel, in which a kilogram of the yarn was exposed to circulating seawater and produced 5 grams of yellowcake. PNNL photo.
Before you ask, I don't know if this technique could be used to extract gold from seawater, however the Wikipedia says the current estimates of the amount of gold in seawater are many times smaller than the 3 PPB of uranium: not even 1 part per trillion. The number for the amount of gold in seawater seems different everywhere I look.
Obviously, access to seawater now must be closely regulated.
ReplyDeleteNext up, the 3D printed "special physics package."
The article may be missing details because they are considered proprietary or sensitive. With respect to the latter, I worked in aerospaceand know that some subjects while not overtly classified were considered sensitive and could not be published. Who would want a bad actor state to have this technology?
ReplyDeleteOh, I was sure that's what it was. They're not going to tell you the proprietary treatment they use on the yarn, but it' still interesting.
DeleteThis has the potential for several uses, not just extracting uranium from sea water. This could be a low cost method to recycle so-called "spent fuel" which typically contains 30 to 50% of the original uranium with the advantage that it is already enriched. May be useful for cleaning up tailing from uranium mines. Also it might enable extracting uranium from ore mined for other minerals, but still containing uranium, just not in high enough concentration to be worth recovering.
ReplyDeleteI suspect it took a lot of work to get that 5 grams, which still has to be refined before it is useful....
ReplyDeleteMy guess on why you hear different numbers for the concentration of gold in seawater (or any other element) is that the concentration varies depending on where the water is from that is being examined. Seawater is not uniform even in it's salinity, so I'm sure it varies in elemental content elsewhere also.