Applied Sciences (Sep 2020)

Hydrometallurgical Extraction of Li and Co from LiCoO<sub>2</sub> Particles–Experimental and Modeling

  • Maria del Mar Cerrillo-Gonzalez,
  • Maria Villen-Guzman,
  • Luis Fernando Acedo-Bueno,
  • Jose Miguel Rodriguez-Maroto,
  • Juan Manuel Paz-Garcia

DOI
https://doi.org/10.3390/app10186375
Journal volume & issue
Vol. 10, no. 18
p. 6375

Abstract

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The use of lithium-ion batteries as energy storage in portable electronics and electric vehicles is increasing rapidly, which involves the consequent increase of battery waste. Hence, the development of reusing and recycling techniques is important to minimize the environmental impact of these residues and favor the circular economy goal. This paper presents experimental and modeling results for the hydrometallurgical treatment for recycling LiCoO2 cathodes from lithium-ion batteries. Previous experimental results for hydrometallurgical extraction showed that acidic leaching of LiCoO2 particles produced a non-stoichiometric extraction of lithium and cobalt. Furthermore, the maximum lithium extraction obtained experimentally seemed to be limited, reaching values of approximately 65–70%. In this paper, a physicochemical model is presented aiming to increase the understanding of the leaching process and the aforementioned limitations. The model describes the heterogeneous solid–liquid extraction mechanism and kinetics of LiCoO2 particles under a weakly reducing environment. The model presented here sets the basis for a more general theoretical framework that would describe the process under different acidic and reducing conditions. The model is validated with two sets of experiments at different conditions of acid concentration (0.1 and 2.5 M HCl) and solid to liquid ratio (5 and 50 g L−1). The COMSOL Multiphysics program was used to adjust the parameters in the kinetic model with the experimental results.

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