Chemical Forums
Specialty Chemistry Forums => Materials and Nanochemistry forum => Topic started by: timg49 on February 16, 2021, 08:26:31 AM
-
Hello Everyone, I am new to this forum but I thought I'd throw out a topic and see if anyone has any experience or ideas. i have been looking at a number of projects off and on the past year and was looking to see if anyone knows of any technologies that can extract Lithium out of brine water, the concentration levels of lithium would be on the low side.
I have been reading about companies looking at Ion Exchange, would this be an easier way to remove the lithium out of the brine water mixture?
Any ideas around this would be appreciated, i'd be very interested in talking to anyone who has any expertise in this.
Thanks in advance.
-
Search google patents.
-
Thanks for the suggestion. I will check.
I might not have posted this in the right spot, but I was curious if maybe there is an ion exchange process that could work as well.
-
This may be of interest
from
https://link.springer.com/chapter/10.1007/978-94-010-9488-7_11 (https://link.springer.com/chapter/10.1007/978-94-010-9488-7_11)
Marine Geochemistry pp 346-421| Cite as
Trace elements in the oceans
Authors
Roy Chester
Na+ 0.468 mol /kg
Li+ 25 μmol/ kg
I think I retyped it correctly
-
Lithium is a minor constituent, but its usual source is indeed salt, from the Dead Sea, Bolivian salars, and so on. Some rivers contain a better proportion of lithium.
Out of memory, brine is reacted with CO2 under pressure because essentially lithium precipitates then as carbonate. I guess lithium carbonate is then roasted to the oxide.
You can try ion exchange, but the carbonate process looks cheap. Or use ion exchange later, on the already concentrated lithium ions?
-
Lithium is a minor constituent, but its usual source is indeed salt, from the Dead Sea, Bolivian salars, and so on. Some rivers contain a better proportion of lithium.
Out of memory, brine is reacted with CO2 under pressure because essentially lithium precipitates then as carbonate. I guess lithium carbonate is then roasted to the oxide.
You can try ion exchange, but the carbonate process looks cheap. Or use ion exchange later, on the already concentrated lithium ions?
Yes, carbonate process is well understood. The resin Lewatit TP 260 has some selectivity for Li.