Wuping Kong scite author profile

The removal of organic pollutants from synthetic wash wastewater by a combined multi-phase electrocatalytic oxidation method was evaluated using porous graphite as anode and cathode, and CuO-Co 2 O 3 -PO 4 3− modified kaolin as catalyst. The synergic effect on COD removal was studied when integrating the electro-chemical reactor with the effective modified kaolin in a single undivided cell; the results showed that higher COD removal efficiency was obtained than those obtained using the individual processes. Under optimal conditions of pH 3, 30 mA cm −2 current density, very effective reduction of organic pollutants was achieved with this combined electrochemical method. High removal efficiency (90%) of the chemical oxygen demand (COD) was obtained in 60 min in the treatment of simulated wash wastewater (anionic surfactant, sodium dodecyl benzene sulfonate [DBS]). This method was also applied to treat wastewater form paper-making and resulted in a COD reduction of 84%. Based on the investigation, a possible mechanism of this combined electro-chemical process was proposed. The pollutants in wastewater could be decreased by the high reactive OH ž that were produced via the decomposition of electro-generated H 2 O 2 activated by the synergic effect of electro-field and catalyst. The results indicate that the multi-phase catalytic electro-chemical oxidation process is a promising technique for wastewater treatment.

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Wuping Kong

Electrochemical treatment of paper mill wastewater using three-dimensional electrodes with Ti/Co/SnO2-Sb2O5 anode

Electrochemical treatment of anionic surfactants in synthetic wastewater with three-dimensional electrodes

Catalytic oxidation of anionic surfactants by electrochemical oxidation with CuO–Co2O3–PO43− modified kaolin

Multi‐phase electro‐chemical catalytic oxidation of wastewater

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