Four brown macro-algae, Ascophyllum

Four brown macro-algae, Ascophyllum nodosum, Fucus spiralis, Laminaria hyperborea and Pelvetia canaliculata,
were investigated as natural cation exchangers for the removal of transition metals from a petrochemical
wastewater. The wastewater presents a high conductivity due to chloride, sulfate, sodium,
calcium and residual concentrations of copper, zinc and nickel species. According to all-inorganic species
evaluated, the molar fraction of Zn2+, Cu2+ and Ni2+ is near 92% and the remaining species are ZnCl+,
ZnSO4, CuSO4, NiCl+ and NiSO4. A Langmuir multicomponent model was able to predict the ionexchange
equilibrium data for Cu, Ni, Zn and Ca species present in the petrochemical wastewater.
L. hyperborea showed a higher uptake capacity than the other brown algae tested. The equilibrium affinity
constants for the functional groups decreased in the following order: Cu > Zn > Ni  Ca, except for
L. hyperborea, which presents a lesser affinity for Ca. Ion-exchange breakthrough curves obtained from
a fixed-bed column packed with raw L. hyperborea, led to an operating capacity of 0.22, 0.10 and
0.05 mEq/g for Cu, Zn and Ni, corresponding to 1558, 515, 528 BV (7.2 BV/h), respectively. The treatment
strategy consisted in the operation of two consecutive columns, the first one for copper ions removal
(operating capacity of 1558 BV – 7.2 BV/h) and the second one for zinc and nickel removal (operating
capacity of 163 BV–7.3 BV/h). The elution of Cu, Zn and Ni from the natural resin was achieved with
10 and 6 BV of HCl (0.4 M, 1.2%) (150 and 90 g HCl/L of resin), using a flow rate of 3.6 BV/h, respectively
for the first and second columns.