Activated carbons (ACs) with different textural and surface chemistry properties obtained by HNO(3) oxidation, N(2)-thermal treatment, and aqueous non-thermal plasma treatment were studied to analyze their behaviors in degradation of toxic organic pollutant parachlorophenol (4-CP) by the pulsed discharge plasma process in aqueous solution. N(2)-heated AC in the 50-110 mu m diameter range with a dosage of 0.5 g l(-1) under any solution pH had a remarkable promoting effect on 4-CP degradation, as well as an obvious enhancement in energy efficiency for 4-CP removal. Chemical and physical actions induced by pulsed discharge non-thermal plasma (PDP) pose little negative impact on catalytic ability of plasma-treated AC. From mathematical modeling on synergic degradation of 4-CP on AC surface, N(2)-heated AC had a strong adsorption ability of 4-CP, including high catalytic activities for H(2)O(2) and O(3) decompositions on AC surface, resulting in more amounts of highly reactive species formed, especially OH radical. This would enhance degradation rate and PDP energy efficiency for 4-CP removal, and simultaneously, the AC as catalyst in PDP process was regenerated.

• 出版日期2009-1
• 单位江南大学; 浙江大学