B. Puginier et al., ADSORPTIVE BEHAVIOR OF NICKEL WITH GOETHITE IN THE PRESENCE OF EDTA -KINETICS AND REVERSIBILITY, Environmental technology, 19(8), 1998, pp. 829-835
The influence of EDTA on the adsorption of nickel by goethite has been
studied in batch experiments. The nickel adsorption reaches equilibri
um in about 3 hours for free (hydrated) Ni and NI-EDTA, whereas up to
24 hours may be necessary to attain desorptive equilibrium for adsorbe
d Ni in the presence of EDTA. Nickel behavior is strongly influenced b
y the presence of EDTA. Nickel solid/solution partitioning depends on
the solution pH, the EDTA/Ni ratio and the sequence of introduction of
the adsorbates (Ni and EMA). Compared to the behavior of free Ni at t
he solid-solution interface, the occurrence of NI-EDTA complexes incre
ases Ni adsorption at low pH values and decreases adsorption at high p
H. The observed data are explained by the formation of a surface-ligan
d-metal ternary surface complex. Ni uptake depends on the sequence of
introduction of the reactants in the goethite suspension (i.e., whethe
r Ni is added with or prior to the EDTA). When EDTA is added to the su
spension after Ni had time to equilibrate with the goethite surface, t
he behavior of Ni at the water-goethite interface is controlled by rea
ction kinetics. EDTA adsorbs faster than it can complex the dissolved
Ni at low pH, and the adsorbed Ni is only slowly desorbed by the EDTA
remaining dissolved at high pH.