期刊
JOURNAL OF COLLOID AND INTERFACE SCIENCE
卷 297, 期 2, 页码 443-454出版社
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jcis.2005.11.030
关键词
ferrous iron; sorption; surface complexation; metal oxide titanium dioxide; aluminum oxide; anoxic environments
Ferrous iron is critical to a number of biogeochemical processes that occur in heterogenous aquatic environments, including the abiotic reductive transformation of subsurface contaminants. The sorption of Fe(II) to ubiquitous soil minerals, particularly iron-free mineral phases, is not well understood. Colloidal TiO2, gamma-AlOOH, and gamma-Al2O3 were used as model hydrous oxides to investigate Fe(II) sorption to iron-free mineral surfaces. Rapid Fe(II) sorption during the first few hours is followed by a much slower uptake process that continues for extended periods (at least 30 days). For equivalent solution conditions, the extent of Fe(II) sorption decreases, in the order TiO2 > gamma-Al2O3 >> gamma-AlOOH. Short-term equilibrium sorption data measured over a wide range of conditions (pH. ionic strength, Fe(II)-to-sorbent ratio) are well described by the diffuse double layer model. Fe(II) sorption to TiO2 is best described by a single-site model that considers formation of two surface complexes. equivalent to SOFe+ and equivalent to SOFeOH0. For gamma-AlOOH and gamma-Al2O3, sorption data are best described by a two-site model that considers formation of equivalent to SOFe+ complexes at weak- and strong-binding surface sites. Accurate description of sorption data for higher Fe(II) concentrations at alkaline pH conditions requires the inclusion of a Fe(II) surface precipitation reaction in the model formulation. The presence of common groundwater constituents (calcium, sulfate, bicarbonate, or fulvic acid) had no significant effect on Fe(II) sorption. These results demonstrate that iron-free soil minerals can exert a significant influence on Fe(II) sorption and speciation in heterogenous aquatic systems. (c) 2005 Published by Elsevier Inc.
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