Lithium Recovery from Water Resources by Membrane and Adsorption Methods

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Scopus Abdullayev - IJETT-V70I9P231

7. Conclusion
Lithium is one of the most demanded, rare elements
with sufficient content in raw materials. It does not occur
in nature in a free state and is found in more than 150
minerals. The demand for Lithium is growing every year
and is explained by the increase in demand for electric
vehicles.
Currently, more than 60% of Lithium is mined from
water sources, which include brines, seawater, and
geothermal waters and contain 70-80% of the total world
lithium reserves.
Therefore, searching for ways to obtain Lithium from
water sources suitable for producing lithium compounds is
a serious and very urgent task.
Many methods have been developed to extract lithium
compounds from water resources, including precipitation,
solvent extraction, selective membrane separation, liquid
extraction, ion exchange adsorption, electrodialysis, etc.
The most promising of them is the adsorption of ion
sieves since it allows the extraction of Lithium from low-
concentration lithium solutions and high concentrations of
other elements. The method is energy-saving and
environmentally friendly. Lithium-ion sieves are selective
adsorbents with high ion screening functionality.
However, ion sieves have a relatively low ion
exchange capacity, poor stability, and loss of sorbent.
To solve this problem, a lot of scientific work is being
done to improve the stability of sorbents, increase the
absorption capacity and selectivity, and accelerate the
sorption time. Many methods are used for this, including
organo-chemical, synergistic, binding, and composites. But
none of them allows industrialization of the lithium
adsorption method. Therefore, the search for ways to
improve the lithium adsorption method remains a difficult
task.

Bakhodir Abdullayev

et al. / IJETT, 70(9), 319-329, 2022

325
Lithium adsorption recovery may be an alternative to
meet future demand, energy sustainability, environmental
protection, and circular economy.

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