Biosorption of Cr(III) from aqueous solution by freeze-dried activated sludge: Equilibrium,kinetic and thermodynamic studies

Batch biosorption experiments were conducted to remove Cr(III) from aqueous solutions using activated sludge from a sewage treatment plant. An investigation was conducted on the effects of the initial pH, contact time, temperature, and initial Cr(III) concentration in the biosorption process. The results revealed that the activated sludge exhibited the highest Cr(III) uptake capacity (120?mg·g^?1) at 45°C, initial pH of 4, and initial Cr(III) concentration of 100?mg·L^?1. The biosorption results obtained at various temperatures showed that the biosorption pattern accurately followed the Langmuir model. The calculated thermodynamic parameters, ΔG^o (?0.8– ?4.58?kJ·mol^?1), ΔH^o (15.6–44.4?kJ·mol^?1), and ΔS^o (0.06–0.15?kJ·mol^?1·K^?1) clearly indicated that the biosorption process was feasible, spontaneous, endothermic, and physical. The pseudo first-order and second-order kinetic models were adopted to describe the experimental data, which revealed that the Cr(III) biosorption process conformed to the second-order rate expression and the biosorption rate constants decreased with increasing Cr(III) concentration. The analysis of the values of biosorption activation energy (E_a = ?7?kJ·mol^?1) and the intra-particle diffusion model demonstrated that Cr(III) biosorption was film-diffusion-controlled.