Enhanced arsenic removal by in situ formed Fe–Mn binary oxide in the aeration-direct filtration process

Abstract

Field studies were conducted to evaluate the feasibility of an in situ formed Fe–Mn binary oxide (in situ FMBO) for improving arsenic (As) removal in the aeration-direct filtration process. The transformation and transportation of As, Fe, and Mn in the filter bed were also investigated. The in situ FMBO increased the As removal efficiency by 20–50% to keep the residual As below 10μg/L. The optimum FMBO dosage was determined to be 0.55mg/L with the Fe/Mn ratio as 10:1. The removal of Fe, Mn, turbidity, and particles was also improved to a large extent. The in situ FMBO favored the transformation of soluble As, Fe, and Mn into the solid phases, benefiting the removal of these pollutants by the subsequent filtration. Moreover, the deposited precipitates onto the filter media were characterized, as indicated by the analyses of SEM/EDS and particle size distribution. The long-term experiments exhibited decreased head loss growth and prolonged run length, suggesting an enhanced pollutant catching capacity of the filter media. The full-scale field study with a flow of 10,000m3/d confirmed positive effects of in situ FMBO on As removal, with the average effluent As concentration reduced from 20μg/L to 6μg/L (reagent cost=0.006¥/m3).