Heterogeneous electro-Fenton using natural pyrite as solid catalyst for oxidative degradation of vanillic acid

Abstract

Heterogeneous electro-Fenton process using a natural pyrite as solid catalyst was used to degrade vanillic acid (VA), one of the major phenolic components of olive mill wastewaters. This heterogeneous process has advantages over classical electro-Fenton process such as large working pH range, recovering and recycling of the catalyst and thus cost reduction. Experiments were performed in an undivided electrochemical cell equipped with a Pt anode and a carbon felt cathode. The effect of operating parameters such as pyrite dosage, applied current and initial pH on VA degradation has been investigated. The VA decay kinetics and the mineralization of the aqueous solutions were monitored by HPLC analysis and TOC measurements, respectively. Results showed that VA was completely removed by the reaction with hydroxyl radicals generated from electrochemically assisted Fenton's reaction. The decay kinetics of VA oxidation was found to follow pseudo-first order reaction and the rate constant for oxidation of VA was determined to be (5.27±0.03)×109mol−1Ls−1. A mineralization rate of 89.2% was reached with a pyrite dosage of 1gL−1. HPLC and GC–MS analyses permitted to identify a large number of aromatic/cyclic and aliphatic reaction intermediate products. Based on these intermediates products as well as the release of inorganic ions and TOC removal determination a detailed reaction pathway was proposed for the mineralization of VA by OH generated during heterogeneous electro-Fenton process.