Adsorption of cadmium and sulfate in a mixed Fe(OH)(3)/SiO2 system was
studied using the triple-layer model. The uptake of H4SiO4 dissolved
from the SiO2 particles was considered in modeling the cation and anio
n adsorption. The mixed oxides were formed with a range of Fe(OH)(3):S
iO2 ratios by controling the precipitation of ferric hydroxide in a su
spension of fumed silica (Cab-O-Sil). Observation of the micromorpholo
gy of the mixed oxides by transmission electron microscopy showed that
Fe(OH)(3) formed separately from the SiO2 particles, therefore, an in
dependent oxide model was used to simulate cation and anion adsorption
. In this model Cd adsorption occurred on separate Fe(OH)(3) and SiO2
surfaces, When the pH was lower than 8, Fe(OH)(3) dominated Cd adsorpt
ion in the mixed system. Sulfate adsorption on the independent Fe(OH)(
3) surface was modeled for the mixed oxide system because no sulfate w
as adsorbed by the SiO2 surface at pH > 4. The uptake of H4SiO4 reduce
d sulfate adsorption, but it had a negligible effect on cadmium absorp
tion due to a combination of sorbate competition and electrostatic int
eractions. Copyright (C) 1996 Elsevier Science Ltd