Activating persulfate by Fe0 coupling with weak magnetic field: Performance and mechanism

Abstract

Weak magnetic field (WMF) and Fe0 were proposed to activate PS synergistically (WMF-Fe0/PS) to degrade dyes and aromatic contaminants. The removal rates of orange G (OG) by WMF-Fe0/PS generally decreased with increasing initial pH (3.0–10.0) and increased with increasing Fe0 (0.5–3.0 mM) or PS dosages (0.5–3.0 mM). Compared to its counterpart without WMF, the WMF-Fe0/PS process could induce a 5.4–28.2 fold enhancement in the removal rate of OG under different conditions. Moreover, the application of WMF significantly enhanced the decolorization rate and the mineralization of OG. The degradation rates of caffeine, 4-nitrophenol, benzotriazole and diuron by Fe0/PS were improved by 2.1–11.1 fold due to the superimposed WMF. Compared to many other sulfate radical-based advanced oxidation technologies under similar reaction conditions, WMF-Fe0/PS technology could degrade selected organic contaminants with much greater rates. Sulfate radical was identified to be the primary radical species responsible for the OG degradation at pH 7.0 in WMF-Fe0/PS process. This study unraveled that the presence of WMF accelerated the corrosion rate of Fe0 and thus promoted the release of Fe2+, which induced the increased production of sulfate radicals from PS and promoted the degradation of organic contaminants. Employing WMF to enhance oxidation capacity of Fe0/PS is a novel, efficient, promising and environmental-friendly method since it does not need extra energy and costly reagents.