Abstract
The performance of a polymeric resin (Sepabeads SP207, from Resindion, Binasco, Italy) was compared with that of an activated carbon (GPP20, from Chemviron Carbon, Feluy, Belgium) in the adsorption of acetaminophen and ibuprofen from either ultrapure or waste water. Kinetic and equilibrium adsorption experiments were carried out under batch operation conditions, and fittings of the obtained results to different models were determined. The kinetic experimental results fitted the pseudo-first and -second order equations, and the corresponding kinetic rates evidenced that the pharmaceuticals adsorption was faster onto GPP20 than onto Sepabeads SP207, but was mostly unaffected by the aqueous matrix. The equilibrium results fitted the Langmuir-Freundlich isotherm model. The corresponding maximum adsorption capacity (Q(m), mg(-1)) was larger onto GPP20 (202 mg g(-1) ≤ Q(m) ≤ 273 mg g(-1)) than onto the polymeric resin (7 mg g(-1) ≤ Q(m) ≤ 18 mg g(-1)). With respect to the parameter K(LF) (mg g(-1) (mg L(-1))(-1/n)), which points to the adsorbent-adsorbate affinity, greater values were determined for the pharmaceuticals adsorption onto GPP20 than onto Sepabeads SP207. For both adsorbents and pharmaceuticals, neither Q(m) or K(LF) were affected by the aqueous matrix.