Electrochemical reduction-oxidation process was used to degrade simulated paper wastewater using three-electrode diaphragm system with Pd-Fe/graphene gas-diffusion cathode. The degradation efficiency and toxicity variation assessment were analyzed during the 4-chlorophenol (4-CP) wastewater degradation process. The 4-CP wastewater was degraded effectively and the removal efficiency of chemical oxygen demand (COD) in simulated paper wastewater was 78.2% (anodic), 80.7% (cathodic 1) and 81% (cathodic 2). The toxicity inhibition effect of two cathodic and anodic almost reached 100%, 100%, and 81.0% at 120 min, respectively. The comparison showed concentration for 50% of maximal effect (EC50) of simulated paper wastewater increased with the raise of EC50 of 4-CP. The elimination of toxicity exhibited a hysteresis effect and a rise tendency within 60 min, which might be attributed to the formation of more toxic intermediates such as benzoquinone. A good kinetics model was used to predict degradation of 4-CP and two possible reaction pathways were proposed, featuring a series of steps including cleavage of C-Cl bond, hydrodechlorination, hydroxyl radical addition and oxidation. The Pd-Fe/graphene gas-diffusion cathode was promising to dechlorination and detoxication of simulated paper wastewater containing 4-CP.

• 出版日期2017-7
• 单位北京师范大学; 北京林业大学