Title page for ETD etd-07102000-22360009

Type of Document Master's Thesis
Author Davis, Christina Clarkson
Author's Email Address cclarkso@vt.edu
URN etd-07102000-22360009
Title Aqueous Silica in the Environment: Effects on Iron Hydroxide Surface Chemistry and Implications for Natural and Engineered Systems
Degree Master of Science
Department Environmental Engineering
Advisory Committee
Advisor Name Title
Edwards, Marc A. Committee Chair
Knocke, William R. Committee Member
Little, John C. Committee Member
  • Sorption
  • Colloid Mobilization
  • Arsenic
  • Iron Hydroxide
  • Silica
  • Humic Substances
Date of Defense 2000-05-09
Availability unrestricted
Aqueous silica is present in all natural waters and exhibits a high affinity for the surfaces of iron oxides. Therefore, it is expected to play an important role in environmental systems. Experiments were conducted to investigate the fundamentals of silica sorption onto pre-formed ferric hydroxide at pH 5.0-9.5 and silica concentrations of 0-200 mg/L as SiO2. Over the entire pH range studied, sorption densities exceeding monolayer sorption were observed at silica levels typical of natural waters. Under some circumstances, sorption exceeded a monolayer while the particle zeta potential remained positive, a phenomenon which is inconsistent with available models. To address this deficiency, an extended surface complexation model was formulated in which soluble dimeric silica sorbs directly to iron surface sites. This model fits sorption density data up to 0.40 mol SiO2/mol Fe, and it accurately predicts trends in zeta potential and the observed H+ release during silica sorption to ferric hydroxide at pH 5.0 and 6.0.

A second phase of research was aimed at identifying the practical implications of silica sorption to iron hydroxide in natural and engineered systems. Two types of surfaces were prepared by exposing pre-formed Fe(OH)3 to aqueous silica (0-200 mg/L as SiO2) for periods of 1.5 hours or 50 days. The concentration of pre-formed iron passing through a 0.45 micron pore size filter at pH 6.0-9.5 increased as the solids aged in the presence of silica. Consistent with formation of small, stable colloids, "soluble" iron concentrations exceeded 0.2 mg/L only at zeta potentials < -15 mV. When arsenate was added to iron hydroxide particles equilibrated with silica for 1.5 hours, percentage arsenate removals were high. In contrast, arsenate removals decreased markedly as pH and silica concentrations increased if silica was pre-equilibrated with the iron for 50 days. Trends in percentage removal of humic substances were similar. Competition for sorption sites was the main cause of hindered anionic contaminant removal. However, interference with hydrolysis and precipitation are expected to be important under some circumstances, particularly during water treatment.

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