Abstract:The recovery of aluminum resource from fine black dross, which is a waste by-product in secondary aluminum production, was investigated by high-voltage corona electrostatic separation combined with jet airflow dispersion. The modern image processing and scanning electron microscope were used to analyze the separation status between aluminum and salt components after jet airflow dispersion. A locked cycle test was designed and used to complete single step and continuous electrostatic separation. The aluminum content of separated products was measured by X-ray Fluorescence (XRF) and X-ray diffraction (XRD). The dispersion results indicate that, most of sample particles are distributed individually after dispersion. The aluminum is separated effectively from salt components. The separation results indicate that, the larger size fraction of sample contains more aluminum and can be separated by electrostatic separation. When the third separation step is completed, the aluminum content of separated products reaches saturation. Al₂O₃ mass fraction increases from 50.74% to 64.93%, and the metallic aluminum content increases from 8% to 31%.

Key words: electrostatic separation; airflow dispersion; aluminum recovery; black dross