Journal article
Silica-assisted pyro-hydrolysis of CaCl2 waste for the recovery of hydrochloric acid (HCl): Reaction pathways with the evolution of Ca(OH)Cl intermediate by experimental investigation and DFT modelling
C Liu, J Gu, S Zhou, B Qian, B Etschmann, JZ Liu, D Yu, L Zhang
Journal of Hazardous Materials | Published : 2022
Abstract
The chlorine evolution mechanism remains unclear during the thermal treatment of CaCl2/Ca(OH)Cl-containing solid waste. In this paper, we have conducted both experimental investigation and density functional theory (DFT) calculation to elucidate the mechanism of pyro-hydrolysis of CaCl2 with and without SiO2 in the temperature ranges of 400–900 °C. It was determined that pyro-hydrolysis of CaCl2 alone generated a maximum of 12% HCl by decomposition into Ca(OH)Cl, which is a stable intermediate that can be reverted to CaCl2 at 800 °C. Upon the addition of SiO2 at an equimolar ratio to CaCl2, the HCl release extent was accelerated to 50% at 900 °C. Both experiments and DFT calculations prove t..
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Awarded by Australian Research Council
Funding Acknowledgements
The authors are grateful to the Australian Research Council (ARC) Research Hub (IR170100009) as well as the Foundation of State Key Laboratory of Coal Combustion (No. FSKLCCA2105). Computational resources support from Monash Advanced Research Computing Hybrid (MonARCH) and Prof. Changchun Zhou's group in China University of Mining and Technology are acknowledged. The first author is also grateful to the China Scholarship Council - Monash University scholarship for the Ph.D. living allowance scholarship.