Abstract:A 2D model of electrolyte-chlorine gas-liquid two-phase flow in lithium electrolysis cell was established. The standard “ ” two-equation model used with the Euler-Euler model was used to solve the electrolyte velocity and volume fraction in different inter-electrode channels. Considering the influence of uniform and non-uniform distribution of current density on volume fraction and liquid flow rate, it is obtained that the volume fraction and liquid flow rate of uniform model are greater than that of non-uniform model.The study of various cell components and operating parameters showed that a reduced electrode distance could reduce the volume fraction and increase the electrolyte velocity in the side channel. This would contrastingly reduce the velocity in the middle channel. Furthermore, it was found that increasing the anode radius would decrease the volume fraction and liquid velocity. Also, increasing the electrolyte height yielded no noticeable effects but increasing the current intensity increased both the volume fractionand liquid velocity.

Key words: lithium electrolysis cell; electrode channel; gas-liquid two-phase flow; numerical simulation