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Spatiotemporal Mineral Phase Evolution and Arsenic Retention in Microfluidic Models of Zerovalent Iron-Based Water Treatment

Jonas Wielinski, Joaquín Jiménez‐Martínez, Jörg Göttlicher, Ralph Steininger, Stefan Mangold, Stephan J. Hug, Michael Berg, Andreas Voegelin

2022Environmental Science & Technology24 citationsDOIOpen Access PDF

Abstract

Arsenic (As) is a toxic element, and elevated levels of geogenic As in drinking water pose a threat to the health of several hundred million people worldwide. In this study, we used microfluidics in combination with optical microscopy and X-ray spectroscopy to investigate zerovalent iron (ZVI) corrosion, secondary iron (Fe) phase formation, and As retention processes at the pore scale in ZVI-based water treatment filters. Two 250 μm thick microchannels filled with single ZVI and quartz grain layers were operated intermittently (12 h flow/12 h no-flow) with synthetic groundwater (pH 7.5; 570 μg/L As(III)) over 13 and 49 days. Initially, lepidocrocite (Lp) and carbonate green rust (GRC) were the dominant secondary Fe-phases and underwent cyclic transformation. During no-flow, lepidocrocite partially transformed into GRC and small fractions of magnetite, kinetically limited by Fe(II) diffusion or by decreasing corrosion rates. When flow resumed, GRC rapidly and nearly completely transformed back into lepidocrocite. Longer filter operation combined with a prolonged no-flow period accelerated magnetite formation. Phosphate adsorption onto Fe-phases allowed for downstream calcium carbonate precipitation and, consequently, accelerated anoxic ZVI corrosion. Arsenic was retained on Fe-coated quartz grains and in zones of cyclic Lp-GRC transformation. Our results suggest that intermittent filter operation leads to denser secondary Fe-solids and thereby ensures prolonged filter performance.

Topics & Concepts

LepidocrociteZerovalent ironArsenicMagnetiteCorrosionCarbonateAdsorptionWater treatmentMetallurgyMaterials scienceChemistryChemical engineeringMineralogyEnvironmental engineeringGoethiteEnvironmental scienceOrganic chemistryEngineeringArsenic contamination and mitigationEnvironmental remediation with nanomaterialsGroundwater flow and contamination studies