Removal of wood dyes from aqueous solutions by sorption on untreated pine (Pinus radiata) sawdust

In this work, the possibility of using un-treated pine (Pinus radiata) sawdust as biosorbent for the removal of three wood dyes (blue, red and black) from aqueous solutions was investigated. The BET surface area of the material was 1.55 +/- 0.81 m(2) g(-1) using N-2 at - 196 degrees C and 17.83 +/- 0.032 m(2) g(-1) using CO2 at 0 degrees C. The point of zero charge was 4.8. In addition, the material was characterized before and after adsorption by surface analytical techniques. Assays were performed to analize the stability of wood dyes with time and pH and also to estimate the pKa values. Batch adsorption experiments were performed and the influence of experimental parameters such as contact time (up to equilibrium), stirring rate (100 and 210 rpm), adsorbent dose (2-10 g L-1), pH (2-9) and initial dye concentration (5 and 300 mg L-1) were studied. The optimum conditions were pH 2 and adsorbent dose of 6 g L-1 and the highest adsorption percentages achieved at 5 mg L-1 were: 100.0% for the blue, 99.7% for the black and 92.4% for the red. For 300 mg L-1 adsorption efficiency decreased to 85.6, 57.0 and 63.8% for the blue, black and red ones, respectively. Kinetic data were best fitted to the pseudo-second order model, suggesting a chemisorption process. Freundlich and Dubidin-Radushkevich were the best isotherm models. Regeneration study showed that un-treated pine sawdust could be reused efficiently for red dye removal at least in up to four repeated adsorption-desorption cycles using NaOH as desorption agent.

Automated summary

The possibility of using un-treated pine sawdust as a biosorbent for removing wood dyes from aqueous solutions was investigated. The material had a BET surface area of 1.55 +/- 0.81 m(2) g(-1) using N-2 at - 196 degrees C and 17.83 +/- 0.032 m(2) g(-1) using CO2 at 0 degrees C. The optimum conditions for adsorption were pH 2 and an adsorbent dose of 6 g L-1.