pH-Dependent adsorption of sulfa drugs on high silica zeolite: Modeling and kinetic study

The adsorptive removal of five sulfa drugs (sulfathiazole, sulfamerazine, sulfamethizole, sulfadimidine and sulfamethoxazole) from an aqueous solution using a high-silica zeolite (HSZ-385) was investigated. pH greatly affected adsorption efficiency, and the amounts of all sulfa drugs adsorbed on HSZ-385 decreased at pH levels below and above their pK(a,1) and pK(a,2) values, respectively. We hypothesized that sulfa drugs in the neutral form would more readily adsorb onto HSZ-385 compared to those in the cationic and anionic forms, with adsorption predominately occurring via hydrophobic interactions. The Langmuir model was suitable for describing the adsorption of neutral sulfa drugs on HSZ-385, and a pH-dependent adsorption model was developed by considering the acid-base equilibria of the sulfa drugs. The calculated and experimental results corresponded well, strongly supporting our suggestion that the dominant adsorbed species was the neutral form and that the adsorption mechanism was based on hydrophobic interactions. Furthermore, the adsorption rate of the sulfa drugs on the zeolite was kinetically evaluated using a pseudo-second-order model, and a high adsorption rate was observed. The adsorption of sulfa drugs reached equilibrium within 15 min, indicating that HSZ-385 is a promising adsorbent for removing pharmaceuticals from aqueous media. (C) 2011 Elsevier B.V. All rights reserved.