Journal ArticleDOI
Arsenate and Chromate Retention Mechanisms on Goethite. 1. Surface Structure
TLDR
In this paper, the authors used Extended X-ray absorption fine structure (EXAFS) spectroscopy to deduce the local coordination environment of two environmental contaminants, arsenate and chromate, on the mineral goethite (α-FeOOH).Abstract:
The molecular structure of ions retained on mineral surfaces is needed to accurately model their sorption process and to determine their stability. Extended X-ray absorption fine structure (EXAFS) spectroscopy was used in this study to deduce the local coordination environment of two environmental contaminants, arsenate and chromate, on the mineral goethite (α-FeOOH). Based on the oxyanion−Fe distances, it was concluded that three different surface complexes exist on goethite for both oxyanions: a monodentate complex, a bidentate-binuclear complex, and a bidentate-mononuclear complex. At low surface coverages, the monodentate complex was favored while at higher coverages the bidentate complexes were more prevalentthe bidentate-binuclear complex appears to be in the greatest proportion at these highest surface coverages. Therefore, modeling efforts for chromate or arsenate retention on goethite need to consider a monodentate complex at very low coverages, both the monodentate and bidentate complexes at in...read more
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Journal ArticleDOI
Recovery of Arsenic Trioxide from a Sludge-Like Waste by Alkaline Leaching and Acid Precipitation
TL;DR: In this article, a process that combines alkaline leaching and acid precipitation was investigated with a view to extracting and recovering arsenic from the sludge-like waste generated during phosphoric acid production, as well as reducing the quantity of the waste to be disposed.
Journal ArticleDOI
Equilibrium Modeling of Arsenic Adsorption in a Ternary Arsenic–Iron Oxide–Natural Organic Matter System
Final Technical Report Demonstration Project for Arsenic Removal from Drinking Water at Keystone, South Dakota
Abstract: Submitted to South Dakota Department of Environment and Natural Resources Joe Foss Building 523 East Capitol Avenue Pierre, South Dakota 57501-3181 Submitted by Jan Puszynski Department of Chemistry and Chemical Engineering Arden Davis Department of Geology and Geological Engineering David Dixon Department of Chemistry and Chemical Engineering South Dakota School of Mines and Technology 501 East Saint Joseph Street Rapid City, South Dakota 57701 Commercial Partner: HydroTech Engineering, LLC 3115 Stockade Drive Rapid City, South Dakota, 57702
Journal ArticleDOI
Reactions of nitrite with goethite and surface Fe(II)-goethite complexes.
Prakash Dhakal,Mark S. Coyne,David H. McNear,Ole Wendroth,M. M. Vandiviere,Elisa D’Angelo,Christopher J. Matocha +6 more
TL;DR: In this paper, stirredbatch kinetic experiments were conducted under anoxic conditions (to mimic iron(III)-reducing conditions) from pH 5.5-8 to investigate NO2− reactivity with goethite (FeOOH(s)) and Fe(II)-treated goethites using wet chemical and attenuated total reflectance-Fourier transform infrared (ATR-FTIR) spectroscopy.
Journal Article
Adsorption of Arsenic on Goethite
TL;DR: In this paper, the point of zero charge (PZC) of the laboratory-synthesized goethite was measured to be 7.6, which value seems to be relatively higher, compared to those of other iron (oxyhydr)oxides.
References
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Book
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Udo Schwertmann,R. M. Cornell +1 more
TL;DR: In this paper, the main aim of the second edition is to present reliable, well-tested, up-to-date methods of synthesizing pure iron oxides, including monodispersed particles, presently of great interest to industry.
Journal ArticleDOI
Theoretical X-ray Absorption Fine Structure Standards
John J. Rehr,John J. Rehr,J. Mustre de Leon,S. I. Zabinsky,S. I. Zabinsky,R. C. Albers,R. C. Albers +6 more
Journal ArticleDOI
Surface chemistry of ferrihydrite: Part 1. EXAFS studies of the geometry of coprecipitated and adsorbed arsenate
TL;DR: In this article, the As and Fe K-edges were collected from samples of two-line ferrihydrite with adsorbed (ADS) and coprecipitated (CPT) arsenate prepared over a range of conditions and arsenate surface coverages.