Removal and Inactivation of Waterborne Viruses Using Zerovalent Iron

摘要

A daunting challenge facing the water industry and regulators is how to simultaneously control microbial pathogens,residual disinfectant,and disinfection byproducts in drinking water,and to do so at an acceptable cost.Of the different pathogens,viruses are especially problematic due to their small size,high mobility,and resistance to chlorination and filtration.In the past decade,zerovalent iron has been used to treat a wide variety of organic and inorganic contaminants from groundwater.However,iron has not been tested against biological agents.This study examined the effectiveness of commercial zerovalent iron to remove two viruses,phiX174 and MS-2,from water.Removal of these viruses by iron granules in batch reactors was first-order,and the rate was likely controlled by external mass transfer.Most of the viruses removed from solution were either inactivated or irreversibly adsorbed to iron.In a flow-through column containing zerovalent iron(with 20 min of iron contact time),the removal efficiency for both viruses was 4-log in an initial pulse test,and over 5-log in the second pulse test after passage of 320 pore volumes of artificial groundwater.We assume that the improved efficiency was due to continuous formation of new iron(oxyhydr)oxides which served as virus adsorption sites.To our knowledge,this is the first demonstration of biological agent removal from water by zerovalent iron.Results of this study suggest zerovalent iron may be potentially useful for disinfecting drinking water and wastewater,thereby reducing our dependence on chlorine and reducing the formation of disinfection byproducts.