The reaction between Li2CO3 and Cl2 was investigated to verify its occurrence during a carbon-anode-based oxide reduction (OR) process. The reaction temperature was identified as a key factor that determines the reaction rate and maximum conversion ratio. It was found that the reaction should be conducted at or above 500℃ to convert more than 90% of the Li2CO3 to LiCl. Experiments conducted at various total flow rate (Q) / initial sample weight (W i) ratios revealed that the reaction rate was controlled by the Cl2 mass transfer under the experimental conditions adopted in this work. A linear increase in the progress of reaction with an increase in Cl2 partial pressure (pCl2) was observed in the pCl2 region of 2.03–10.1 kPa for a constant Q of 100 mL∙min−1 and W i of 1.00 g. The results of this study indicate that the reaction between Li2CO3 and Cl2 is fast at 650℃ and the reaction is feasible during the OR process.

1. Introduction
2. Experimental
3. Results and discussion
4. Conclusions
REFERENCES

• Min Ku Jeon(Korea Atomic Energy Research Institute/University of Science and Technology) Corresponding Author
• Sung-Wook Kim(Korea Atomic Energy Research Institute)
• Eun-Young Choi(Korea Atomic Energy Research Institute/University of Science and Technology)