EDTA, oxalate, and phosphate ions enhanced reactive oxygen species generation and sulfamethazine removal by zero-valent iron

The activation rate of oxygen by zero-valent iron (Fe degrees) was very low. In this study, ethylenediaminetetraacetic acid (EDTA), oxalate (Ox), and phosphate ions (Na2HPO4) were used to enhance the oxygen activation by Fe degrees for sulfamethazine (SMT) removal. The addition of these ligands could significantly enhance the SMT degradation. SMT removal was improved from 10.5 % in the Fe degrees system (360 min) to 70.3 %, 85.2 % and 77.8 % in the Fe degrees/EDTA (60 min), Fe degrees/Ox (180 min) and Fe degrees/phosphate (360 min) systems, respectively. Scanning electron microscopy with energy dispersive X-ray (SEM-EDX), Fourier transform infrared reflection (FTIR), contact angle and X-ray photoelectron spectra (XPS) of Fe degrees in different systems were recorded. The presence of chelating agents hydroxylated Fe degrees, inhibited the iron oxide formation on the Fe degrees surface and promoted iron ion release from the solid. Moreover, the agents improved the recovery of surface Fe2+ which could subsequently enhance the activation of O-2 to produce more H2O2 and reactive oxygen radicals for SMT removal. (OH)-O-center dot radical produced mainly through H2O2 decomposition was primarily responsible for removing SMT in all three systems. The Fe degrees system added with chelating agents is a new and promising approach for treating wastewaters containing ligands.