Chemical Treatment of Copper and Aluminum Derived from Waste Crystalline Silicon Solar Cell Modules by Mixed Acids of HNO Subscript3/Subscript and HCl

摘要

In this study, copper (Cu) and aluminum (Al) particles derived from waste crystalline silicon solar cell modules were etched with mixed acid containing HNO~(3)and HCl, and the optimal mixing conditions were examined for the purpose of recovering silicon with high yield. The crushed particles of waste silicon solar cells were used after sieving between 450 and 600 μm particle size. The Cu etching rate decreased with the increasing HCl concentration in the region of HNO~(3)/HCl ≧ 3.36, whereas it increased at HNO~(3)/HCl < 3.36. The Al etching rate increased when HCl was added, although it was almost independent of the amount of HNO~(3). 99.6% silicon purity was achieved at the treatment time of 30 min. The rate-determining step of Cu and Al etchings was represented by the volume reaction model instead of the surface reaction model. The CuCl coating was observed on the residuals of Cu. The increasing HCl blocked the Cu etching, but the excess Cl_(−)promoted the dissolution of CuCl due to complex formation, corresponding to the regions of HNO~(3)/HCl ≧ 3.36 and HNO~(3)/HCl < 3.36, respectively. In the region of HNO~(3)/HCl < 3.36, the spontaneous complete etching time of Cu and Al was achieved with higher HNO~(3)concentration of 8.5–10 mol/L.