Abstract:The degradation of oxime extractants is triggered once contacted with sulfuric acid solution in copper solvent extraction practices. The degradation of LIX984N and its impacts on the phase disengagement in copper solvent extraction were investigated. The results show that the molecular structures of both oximes in LIX984N are broken due to degradation. The 5-nonyl salicyaldehyde oxime and 2-hydroxy-5-nonyl acetophenone oxime degrade to 2-hydroxy-5- nonyl benzaldehyde and 2-hydroxy-5-nonyl acetophenone, respectively. The surface tension of the raffinate decreases from 56.4 mN/m to 38.1 mN/m, and the phase disengagement speed drops down obviously when the organic phase is mixed with the strong sulfuric acid solution for more than 30 h. Meanwhile, the levels of the entrainment and dissolution of organic chemicals in the raffinate increase largely. As a result, the more organic chemicals loses during the course of solvent extraction. It is found that entraining is the main way for the losses of organic chemicals in the raffinate. The amount of organic chemicals loses by entrainment accounted for 61% for the total losses in 50 h.

Key words: copper solvent extraction; oxime extractant; degradation; disengagement; entrainment