LAUSR

The generation of sludge is the main issue in iron-based electrochemical techniques. Interestingly, in this study, the effluent was totally limpid and iron sludge did not generate when dissolved silicate (Na2SiO3) was used as the electrolyte in an electrolysis catalyzed ozone (ECO-Na2SiO3) system. More importantly, the pseudo-first-order rate constants (0.112 min-1) for DMAC degradation in ECO-Na2SiO3 process was much higher than those of ECO systems using other electrolytes. An inhibition film formed on the iron electrode surface was identified to inhibit excess corrosion of iron electrodes and efficiently catalyze decomposition of ozone simultaneously. It was confirmed that hydroxyl radical (•OH) played a dominant role for the degradation of DMAC, and O2•- and H2O2 were also contained in ECO-Na2SiO3 system. The contributions of contained oxidative reactions in ECO-Na2SiO3 system were quantitatively evaluated. Finally, the degradation pathway of DMAC was proposed. This work provides an effective way for protecting electrode from corrosion in electrochemical process.