RES³T - Rossendorf Expert System for Surface and Sorption Thermodynamics

Experiments were conducted to investigate the fundamentals of silica sorption onto preformed ferric hydroxide at pH 5.0−9.5 and silica concentrations of 0−200 mg/L as SiO₂. At all pHs studied, sorption densities exceeding monolayer sorption were observed at silica levels typical of natural waters. Under some circumstances, sorption equaled or exceeded a monolayer while the particle zeta potential remained positive, a phenomenon that is completely inconsistent with available surface complexation models. To address this deficiency, an extended surface complexation model was formulated in which soluble dimeric silica (i.e., Si₂O₂(OH)₅⁻) sorbs directly to iron surface sites. This new model fit sorption density data up to 0.40 mol SiO₂/mol Fe and accurately predicted trends in zeta potential and observed H⁺ release during silica sorption to ferric hydroxide.