Journal
HYDROMETALLURGY
Volume 204, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.hydromet.2021.105729
Keywords
Strontium carbonate; Leaching kinetics; Celestite; Sodium bicarbonate; Sodium sulfate recovery
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Funding
- National Natural Science Foundation of China [21776279, 21978290]
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The study utilized two interconnected reactors to produce high-quality SrCO3 by leaching celestite in NaHCO3 solution at high temperature. The new method avoids undesirable polluting by-products generated in the widely used black ash process. By investigating the precipitation kinetics of celestite in NaHCO3 at various temperatures, it was found that high temperature significantly enhanced the leaching conversion.
Two interconnected reactors were used to produce high quality SrCO3 by leaching celestite in NaHCO3 solution at elevated temperature of 363.15 K. This new method avoids undesirable polluting by-products generated in the widely used black ash process. The precipitation kinetics of celestite (SrSO4) leaching in NaHCO3 at various temperatures was investigated with a view to industrial application. It was found that high temperature significantly enhanced the leaching conversion while initially concentrated Na2SO4 in leaching solution has limited influence on the leaching reaction. The new process overcomes the key disadvantage of high energy consumption during sodium sulfate recovery that is inherent in the soda ash process. Having studied the effects of NaHCO3 concentration and temperature on the leaching reaction, a shrinking core model was established with an apparent activation energy of E-a = 86.6 kJ/Mol. The rate-determining step was the diffusion of ions through the product layer. Saleable Na2SO4 products were successfully obtained via evaporative cooling crystallisation
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