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Experimental and computational insights into sustainable lithium recovery and freshwater production via CO2 hydrate-based desalination

Sol Geo Lim, Donghyun Moon, Chang Yeop Oh, Hye Rim Choi, Chiho Sung, Sun Ha Kim, Kongtae Ra, Minjun Cha, Ji‐Ho Yoon

2025Chemical Engineering Journal9 citationsDOIOpen Access PDF

Abstract

The growing demand for lithium, a critical resource for the renewable energy and electric vehicle industries, necessitates the development of innovative recovery technologies to ensure a sustainable supply of diverse lithium resources. In this study, we propose a CO 2 hydrate-based desalination (HBD) process as a sustainable solution for lithium recovery and freshwater production from lithium-containing brines. Thermodynamic stability of CO 2 hydrates under varying concentrations of LiCl and Li 2 SO 4 was experimentally investigated to provide essential insight into optimizing the CO 2 HBD process. Utilizing a combination of synchrotron X-ray diffraction, Raman, and solid-state nuclear magnetic resonance spectroscopy, we confirmed the formation of a structure I hydrate capturing CO 2 and the exclusion of Li + ions from the hydrate cages, thus providing dual benefits of HBD: lithium recovery and freshwater production. Kinetic experiments involving CO 2 hydrate in the presence of lithium salts revealed the strong influence of the sub-cooling temperature and the lithium salt concentration on the formation kinetics. Molecular dynamics simulation analyses allowed us to gain molecular-level insights into how the hydrate formation can be inhibited by Li + ions, causing their exclusion from the hydrate cages. This study highlights the potential of the HBD process to offer a sustainable and scalable pathway to meet the global demand for lithium recovery and to address the issue of freshwater scarcity.

Topics & Concepts

HydrateDesalinationProduction (economics)Environmental scienceLithium (medication)Process engineeringEnvironmental engineeringChemistryEngineeringMembraneOrganic chemistryMedicineInternal medicineEconomicsBiochemistryMacroeconomicsExtraction and Separation ProcessesMembrane-based Ion Separation TechniquesMethane Hydrates and Related Phenomena
Experimental and computational insights into sustainable lithium recovery and freshwater production via CO2 hydrate-based desalination | Litcius