Abstract

The presence of the synthetic chelating agent ethylenediaminetetraacetic acid (EDTA) in municipal wastewater has a significant impact on the efficacy of wastewater treatment plants because pollutant metal–EDTA complexes are difficult to remove. To understand the potential of FeCl 3 addition during primary treatment to improve metal removal, laboratory experiments and a full-scale study were conducted. Results of laboratory experiments designed to simulate primary and secondary wastewater treatment indicate that a portion of pollutant metal–EDTA species can be converted into FeEDTA − by addition of FeCl 3 during simulated primary treatment. Addition of FeCl 3 also resulted in improved metal removal by adsorption. The combination of these two processes improved removal of Cu and Zn by 20% during simulated primary treatment. During full-scale treatment, a slight increase in the concentration of FeEDTA − in secondary effluent was observed when FeCl 3 was added during primary treatment. However, FeCl 3 addition had no observable effect on metal concentrations in the wastewater effluent. The most noticeable change in EDTA speciation at full scale occurred during primary treatment, where most of the pollutant metal–EDTA complexes were converted into FeEDTA −, irrespective of whether or not FeCl 3 was added. The formation of FeEDTA − during primary treatment plays a potentially important role in metal removal and should be considered in future evaluations of wastewater treatment plant performance.

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