It’d be cool if they could combine this with extraction of Uranium 235 for a more sustainable source of nuclear fuel.
EDIT: For more context, nuclear power could be a great tool in reducing carbon emissions. I read somewhere that mining Uranium 235 from seawater at scale would cost roughy 2x to 3x what it costs to get the fuel from the ground at today's prices. I was trying to say that if we're going through all of the trouble to extract Lithium from seawater, it'd be cool if extracting Uranium at the same time made both processes more economical.
"Seawater contains about 3.3 parts per billion of uranium by weight, approximately (3.3 µg/kg) or, 3.3 micrograms per liter of seawater.[6] The extraction of uranium from seawater has been considered as a means of obtaining the element.", from https://en.wikipedia.org/wiki/Uranium_in_the_environment#Nat...
(Mining uranium is as environmentally unfriendly as other mining operations, just do a web search for "uranium mining".)
The trick here is to use a ceramic filter that have holes that are so small that only Lithium can pass through.
Actually the only "molecules" smaller than Lithium are Hydrogen and Helium. Helium is not a problem because it's too easy to pull apart and Hydrogen (H+ and H2) are not problem because H2 is another of the products.
(Actually^2 H+ is not isolated, it's combined with water in H3O+, but I guess the holes need some room for the water around the Li+ ions. The technical details are probably more complicated, but "small holes only allow H, He and Li to pass" is a good approximation.)
But Uranium atoms are huge. They are bigger than most atoms, and I'm not sure if the common form in seawater is a combination of Uranium and Oxygen. A hole that big will allow most mineral to pass, so you will just get brine. Using it in the other direction with holes just smaller than Uranium is also not very useful, because you will get Uranium mixed with a lot of crap, many of the contamination are not isolated atoms (that are mostly smaller) but molecules that combine a few atoms are are bigger.
Of course, there's precious metals and rare-earth elements in there too, but are they economically-viable to process?
Yes, I know all about the externalities of uranium mining as a portion of my extended family who lived in a particular house around the Four Corners/Durango area all died within a matter of years from horrible cancers due to contaminated drinking water.
EDIT: For more context, nuclear power could be a great tool in reducing carbon emissions. I read somewhere that mining Uranium 235 from seawater at scale would cost roughy 2x to 3x what it costs to get the fuel from the ground at today's prices. I was trying to say that if we're going through all of the trouble to extract Lithium from seawater, it'd be cool if extracting Uranium at the same time made both processes more economical.