Studies on the Development of Natural Cation Exchanger for Heavy Metals Removal

Abstract

Two types of novel bioadsorbents such as charred xanthated sugarcane bagasse (CXSB) and charred aminated sugarcane bagasse (CASB)are investigated. This research work elucidates the uptake performance of biosorbent for the sequestration of heavy metal ions such as Cd ,Pb 2+ , Cu 2+ , Ni 2+ and Zn 2+ , respectively. Xanthated and aminated biosorbent prepared from sugarcane bagasse under specific experimental conditions were characterized with FT-IR,TGA/DTA, SEM, Zeta potential and Elemental analysis. Batch adsorption experiments were performed at eight different initial metal ionconcentrations (25, 50,100, 200, 400, 600, 800, 1000 mg/L), at 293 K temperature, while pH of the solutions was varied from 1 to 7. The results indicated that the uptake performance of CXSB and CASB biosorbent significantly changed with pH, concentration of metal ions and temperature. The selectivity order in the removal of heavy metals at pH around 4 follows theorder Pb> Cu > Ni > Cd >Zn for CXSB whereas the order Pb> Cd > Zn > Ni >Cu for CASB. Moreover Irwing-Williams Series support the bindings’mechanism for Cu ,Zn 2+ and Ni 2+ ions ontoboth the modified biopolymers. Adsorption of heavy metal ions onto both CXSB and CASB biosobents followed pseudo-second order kinetics with faster adsorption within 15 minutes to 40 minutes.All the obtaineddatawell followed the Langmuiradsorption isotherm.The positive value of enthalpy change (H) and negative of free energy change (G) shows the adsorption process is endothermic and spontaneous. Moreover, the obtained positive entropy changes (S) shows that an increase in randomness, is associated with the adsorption of metal ions onto the CXSB and CASB biosorbents. As in the case of plastic materials like commercial synthetic cation exchanger, the CXSB and CASB based on sugarcane bagasse developed in our laboratory revealed to be an efficientcation exchanger for removing cadmium, lead, copper, nickel and zinc ions from the aqueoussolution. Keywords:Adsorption, xanthation, amination, heavy metals, sugarcane bassage.