Title of article :
Speciation and distribution of vanadium in drinking water iron pipe corrosion by-products Original Research Article
Author/Authors :
Tammie L. Gerke، نويسنده , , Kirk G. Scheckel، نويسنده , , J. Barry Maynard، نويسنده ,
Issue Information :
دوهفته نامه با شماره پیاپی سال 2010
Abstract :
Vanadium (V) when ingested from drinking water in high concentrations (> 15 μg L− 1) is a potential health risk and is on track to becoming a regulated contaminant. High concentrations of V have been documented in lead corrosion by-products as Pb5(V5+O4)3Cl (vanadinite) which, in natural deposits is associated with iron oxides/oxyhydroxides, phases common in iron pipe corrosion by-products. The extent of potential reservoirs of V in iron corrosion by-products, its speciation, and mechanism of inclusion however are unknown. The aim of this study is to assess these parameters in iron corrosion by-products, implementing synchrotron-based μ-XRF mapping and μ-XANES along with traditional physiochemical characterization. The morphologies, mineralogies, and chemistry of the samples studied are superficially similar to typical iron corrosion by-products. However, we found V present as discrete grains of Pb5(V5+O4)3Cl likely embedded in the surface regions of the iron corrosion by-products. Concentrations of V observed in bulk XRF analysis ranged from 35 to 899 mg kg− 1. We calculate that even in pipes with iron corrosion by-products with low V concentration, 100 mg kg− 1, as little as 0.0027% of a 0.1-cm thick X 100-cm long section of that corrosion by-product needs to be disturbed to increase V concentrations in the drinking water at the tap to levels well above the 15 μg L− 1 notification level set by the State of California and could adversely impact human health. In addition, it is likely that large reservoirs of V are associated with iron corrosion by-products in unlined cast iron mains and service branches in numerous drinking water distribution systems.
Keywords :
Iron , Pb L3-edge , ?-XRF , ?-XANES spectroscopy , Corrosion , V K-eddge
Journal title :
Science of the Total Environment
Journal title :
Science of the Total Environment