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Membrane crystallization for recovery of lithium carbonate crystals: Study on process parameters and salts effect for Li2CO3-NaCl-KCl-LiCl solutions

Mohammad Mahdi A. Shirazi, Aamer Ali, Cejna Anna Quist-Jensen

2023Desalination18 citationsDOIOpen Access PDF

Abstract

In this work, membrane crystallization (MCr) process was employed for recovery of lithium carbonate (Li 2 CO 3 ) crystals from synthetic brine solutions. First, the effect of the main operating conditions in MCr, including feed temperature (40, 50, and 60 °C) and flowrate (0.81, 1, and 1.3 L/min) was investigated on the crystallization of Li 2 CO 3 in a binary solution. Next, the effect of main inorganic salts in the brine solutions (i.e., NaCl, KCl, and LiCl) and the mixture of them on the MCr performance and crystallization of Li 2 CO 3 were investigated. In-line microscope, light microscope, scanning electron microscope, and X-ray diffraction test were used to observe the crystallization and characterize the obtained crystals. The obtained results revealed that feed temperature is the main parameter to dominate the nucleation and crystal formation and growth. Thus, the higher the feed temperature, the faster the crystal formation and the larger the crystals. The average crystal size increased from 9.59 to 30.51 μm, when the feed temperature increased from 40 to 60 °C, respectively. However, smaller crystals were observed with adding NaCl and KCl to the solution. Moreover, none of the operating parameters nor the salts additives did affect the crystals shape and the obtained Li 2 CO 3 crystals possess needle-like shape. • Li 2 CO 3 crystals were recovered by membrane crystallization. • Feed temperature dominates the Li2CO3 crystal formation. • NaCl and KCl delay the formation of crystals.

Topics & Concepts

CrystallizationLithium carbonateLithium (medication)ChemistryMembraneCarbonateChemical engineeringInorganic chemistryMaterials scienceIonOrganic chemistryEndocrinologyBiochemistryIonic bondingEngineeringMedicineExtraction and Separation ProcessesMembrane-based Ion Separation TechniquesAdvancements in Battery Materials
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