Abstract
Electrochemical dechlorination with Pd-loaded electrodes offers an effective method for detoxification of wastewater. Electro-reductive dechlorination of 3-chlorophenol (3-CP) with Pd loaded on carbon felt (Pd/CF) was investigated. Pd was loaded on carbon felt by electrolytic method. The prepared electrodes were characterized by XRD, SEM, EDS, S-TEM and CV. The sizes of the Pd particles loaded on CF were found in the range of 100–400 nm. The preparing conditions including loading amount of Pd and loading currents were investigated. Moreover, the reduction conditions including electrolytes, reductive currents and recycle times were also studied. The Pd/CF cathodes with Pd loading of 0.5 mg/cm2, preparing current of 5 mA, electrolyte concentration of 30 mmol/L NaCl and 30 mmol/L CH3COONa were used to reduce 3-CP for dechlorination. When CH3COONa was used as the electrolyte, the current was 5 mA, the initial pH was 7.5, the initial 3-CP concentration was 1 mmol/L and the degradation rate of 3-CP could reach 95.81% after reduction of 150 min under an argon atmosphere. The electrochemical reduction of 3-CP was confirmed to follow the first-order rate law. 3-CP was qualitatively dechlorinated to phenol on electrodes with Pd. The fact that active hydrogen formed on palladium during preliminary electrolysis could be proved by the dechlorinated 3-CP in non-electroreduction after preliminary electrolysis. A possible reduction pathway was proposed based on the results.
Highlights
Over the last several decades, wastewaters containing persistent organic pollutants (POPs) have been causing a lot of environmental problems [1]
Various techniques have been developed for the degradation of CPs, including biological, thermal, reduction and advanced oxidation processes (AOPs) [2,3,4]; for example, complete mineralization of 4-chlorophenol (4-CP) by UV/porous TiO2 layers and porous multiwalled carbon nanotube TiO2 composite layers were reported by Zouzelka and Rathousky [5,6]
The fine scattering nano probable seemed (Pd) particles might lead to good electro-dechlorination of 3-CP
Summary
Over the last several decades, wastewaters containing persistent organic pollutants (POPs) have been causing a lot of environmental problems [1]. Various techniques have been developed for the degradation of CPs, including biological, thermal, reduction and advanced oxidation processes (AOPs) [2,3,4]; for example, complete mineralization of 4-chlorophenol (4-CP) by UV/porous TiO2 layers and porous multiwalled carbon nanotube TiO2 composite layers were reported by Zouzelka and Rathousky [5,6] Among these methods, electro-reductive dechlorination is one of the most promising [7], due to the following significant advantages: (i) effective dechlorination is possible at ambient temperatures, (ii) no highly active chemicals are required, (iii) selective removal of chlorine occurs while the organic skeleton remains to be digested by another cheap (e.g., bacterial) route, and (iv) no toxic by-products (i.e., chlorinated dioxins) are formed [6]. In this paper, we report the electro-dechlorination of 3-CP on Pd-loaded carbon felt (Pd/CF) electrodes, focusing on the cathode preparing conditions, affect factors, reaction kinetics, and dechlorination mechanism
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