2023
DOI: 10.1038/s43017-022-00387-5
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Environmental impact of direct lithium extraction from brines

Abstract: Evaporitic technology for lithium mining from brines has been questioned for its intensive water use, protracted duration and exclusive application to continental brines. In this Review, we analyse the environmental impacts of evaporitic and alternative technologies, collectively known as direct lithium extraction (DLE), for lithium mining, focusing on requirements for fresh water, chemicals, energy consumption and waste generation, including spent brines. DLE technologies aim to tackle the environmental and t… Show more

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Cited by 211 publications
(82 citation statements)
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“…Based on experiments with dilute binary cation solutions, selectivity enhancements in Li + /Mg 2+ separations with multilayered or polyelectrolyte ion-exchange membranes are well documented in the literature. ,,, As stressed in recent reviews on salt-lake lithium extraction, however, over 95% of prior work disregards the deleterious impacts from competing ions and the high feed salinity that is representative of salt-lake brines. ,, Our experiments reveal that when binary cation solutions are utilized in place of salt-lake brines, the apparent Li + /Mg 2+ selectivity may be overestimated by a factor of 2.5 and that the specific energy consumption may be underpredicted by a factor of 54.8. In lithium extraction applications, the feed solution is typically acid pretreated to a pH of 3 or lower, to mitigate carbonate and phosphate scaling risks; ,, a majority of the charged moieties in commercial IEMs are based on weak organic acids, and the repercussions of the acidic conditions on the IEM’s selectivity remain unanswered. , Further, in hypersaline conditions, the performance of electrodialysis is bounded by a steep trade-off between counterion selectivity and thermodynamic efficiency, which appears to be governed by the current density.…”
Section: Introductionmentioning
confidence: 66%
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“…Based on experiments with dilute binary cation solutions, selectivity enhancements in Li + /Mg 2+ separations with multilayered or polyelectrolyte ion-exchange membranes are well documented in the literature. ,,, As stressed in recent reviews on salt-lake lithium extraction, however, over 95% of prior work disregards the deleterious impacts from competing ions and the high feed salinity that is representative of salt-lake brines. ,, Our experiments reveal that when binary cation solutions are utilized in place of salt-lake brines, the apparent Li + /Mg 2+ selectivity may be overestimated by a factor of 2.5 and that the specific energy consumption may be underpredicted by a factor of 54.8. In lithium extraction applications, the feed solution is typically acid pretreated to a pH of 3 or lower, to mitigate carbonate and phosphate scaling risks; ,, a majority of the charged moieties in commercial IEMs are based on weak organic acids, and the repercussions of the acidic conditions on the IEM’s selectivity remain unanswered. , Further, in hypersaline conditions, the performance of electrodialysis is bounded by a steep trade-off between counterion selectivity and thermodynamic efficiency, which appears to be governed by the current density.…”
Section: Introductionmentioning
confidence: 66%
“…4,31,32,43−45 As stressed in recent reviews on salt-lake lithium extraction, however, over 95% of prior work disregards the deleterious impacts from competing ions and the high feed salinity that is representative of salt-lake brines. 1,4,19 Our experiments reveal that when binary cation solutions are utilized in place of salt-lake brines, the apparent Li + /Mg 2+ selectivity may be overestimated by a factor of 2.5 and that the specific energy consumption may be underpredicted by a factor of 54.8. In lithium extraction applications, the feed solution is typically acid pretreated to a pH of 3 or lower, to mitigate carbonate and phosphate scaling risks; 5,19,46 a majority of the charged moieties in commercial IEMs are based on weak organic acids, and the repercussions of the acidic conditions on the IEM's selectivity remain unanswered.…”
Section: Introductionmentioning
confidence: 83%
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