The biosorption of Cu, Zn, Cd and Fe from multicomponent mixtures was studi
ed in a flow-through column packed with Sargassum algal biosorbent in the C
a-form. The effects of competitive ion exchange such as the elution order o
f toxic metals from the column, and the concentration overshoots in column
effluent were investigated both experimentally and by means of an ion excha
nge equilibrium column model (ECM). The ECM predicted, and the experiments
confirmed, that from the feed containing Cu2+, Zn2+ and Cd2+, zinc broke th
rough the column first, followed by cadmium and copper. When the binary mix
tures containing 30 mg/l of Cu2+ and 4 mg/l of either Cd2+ or Zn2+ were pas
sed through the column, the concentrations of Zn and Cd ions in the column
effluent overshot the 4 mg/l feed concentration. The time interval between
the overshoot of Zn and the breakthrough point of Cu was Significantly long
er than that between the overshoot of Cd and the breakthrough point of Cu.
However, Zn did not overshoot when the feed contained 50 mg/l of Cd and 4 m
g/l of Zn. The ECM successfully predicted both the occurrence and the magni
tude of the overshoots. The service time of a column treating multimetal mi
xtures was successfully predicted by combining the ECM with a mass transfer
column model (MTCM). (C) 2000 Elsevier Science Ltd. All rights reserved.