期刊
HYDROMETALLURGY
卷 160, 期 -, 页码 106-114出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.hydromet.2015.12.008
关键词
Uyuni salar brine; Magnesium; Hydrated magnesium carbonate; Hydromagnesite; Precipitation
资金
- Brain Korea (BK) '21
Uyuni salar (Bolivia), the largest resource of lithium (Li) in the world not only contains a high level of Li but also similar to 13% w/w magnesium (Mg) in strong NaCl brines. The recovery of Mg is therefore essential as the resources represent high value of Mg by-products if recovered. High purity hydrated magnesium carbonate (HMC as dypingite or hydromagnesite) could be recovered from the Uyuni salar brines as an easy-saleable product, The precipitation process used for this recovery relies on the selective removal of Ca by adding excess oxalic acid at an oxalate/Ca molar ratio of 6.6:1. The excess oxalate has to be subsequently removed as Mg oxalate by adjusting the pH to pH 4-7. HMC products of 97.3-99.6% purity could be produced as a result (equivalent to 25.3-25.9% Mg in the product compared to a theoretical value of 25.99% Mg for hydromagnesite). Without removing Mg oxalate, products could only reach 23.3-243% Mg. The light HMC (hydromagnesite) product could be precipitated at ambient conditions as long as the drying was set at >65 degrees C Precipitation at >55 degrees C also yields more crystalline hydromagnesite compared to those obtained at lower temperatures. The light HMC product has a heat adsorbing capacity (endothermic) of 1123-1196 J/g dry product The product has a sheet-like structure and is easily filtered, compared to magnesium hydroxide. (C) 2015 Elsevier B.V. All rights reserved.
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