Preliminary investigation into lithium extraction by phosphoric acid leaching of spodumene

•Leaching of lithium from β-spodumene was investigated.•At low temperature (≤100 °C) and atmospheric pressure over 40 % Li was extracted.•Low levels of Al and Si extraction imply selectivity. Lithium demand has risen significantly with the dominance of lithium-ion batteries in renewable energy techn...

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Published inMinerals engineering Vol. 209; p. 108613
Main Authors Paris, Justin, Mohammadi-Jam, Shiva, Li, Ronghao, Liang, Jingyi, Oh, Hak Jun, Kökkılıç, Ozan, Omelon, Sidney, Waters, Kristian E.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.04.2024
Subjects
Acid leaching
Critical materials
Lithium extraction
Phosphoric acid
Spodumene
Lithium extraction
Phosphoric acid
Acid leaching
Critical materials
Spodumene
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Abstract •Leaching of lithium from β-spodumene was investigated.•At low temperature (≤100 °C) and atmospheric pressure over 40 % Li was extracted.•Low levels of Al and Si extraction imply selectivity. Lithium demand has risen significantly with the dominance of lithium-ion batteries in renewable energy technology. Spodumene is a primary lithium-bearing mineral of lithium extraction interest, due to its comparatively high grade and simple composition. However, lithium extraction processes from spodumene remain complex. In this study, phosphoric acid was investigated as a lithium leaching agent. Preliminary leach experiments were performed on 1 g of pure β-spodumene, with varying phosphoric acid concentration, temperature, residence time, and liquid-to-solid ratio. Chemical composition of the leach filtrates and residues by inductively coupled plasma optical emission spectroscopy (ICP-OES) revealed that > 40 % lithium leaching efficiency was achieved at an 8 M acid concentration, 100 °C, an 8 h residence time, and a liquid-to-solid ratio of 10 mL/g. With further optimization and understanding of the leaching mechanism, phosphoric acid could prove to be a suitable alternative for selective lithium extraction from spodumene.
AbstractList •Leaching of lithium from β-spodumene was investigated.•At low temperature (≤100 °C) and atmospheric pressure over 40 % Li was extracted.•Low levels of Al and Si extraction imply selectivity. Lithium demand has risen significantly with the dominance of lithium-ion batteries in renewable energy technology. Spodumene is a primary lithium-bearing mineral of lithium extraction interest, due to its comparatively high grade and simple composition. However, lithium extraction processes from spodumene remain complex. In this study, phosphoric acid was investigated as a lithium leaching agent. Preliminary leach experiments were performed on 1 g of pure β-spodumene, with varying phosphoric acid concentration, temperature, residence time, and liquid-to-solid ratio. Chemical composition of the leach filtrates and residues by inductively coupled plasma optical emission spectroscopy (ICP-OES) revealed that > 40 % lithium leaching efficiency was achieved at an 8 M acid concentration, 100 °C, an 8 h residence time, and a liquid-to-solid ratio of 10 mL/g. With further optimization and understanding of the leaching mechanism, phosphoric acid could prove to be a suitable alternative for selective lithium extraction from spodumene.
ArticleNumber 108613
Author Mohammadi-Jam, Shiva
Kökkılıç, Ozan
Oh, Hak Jun
Liang, Jingyi
Li, Ronghao
Omelon, Sidney
Waters, Kristian E.
Paris, Justin
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Keywords Lithium extraction
Phosphoric acid
Acid leaching
Critical materials
Spodumene
Language English
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Snippet •Leaching of lithium from β-spodumene was investigated.•At low temperature (≤100 °C) and atmospheric pressure over 40 % Li was extracted.•Low levels of Al and...
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StartPage 108613
SubjectTerms Acid leaching
Critical materials
Lithium extraction
Phosphoric acid
Spodumene
Title Preliminary investigation into lithium extraction by phosphoric acid leaching of spodumene
URI https://dx.doi.org/10.1016/j.mineng.2024.108613
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