Film-pore diffusion control for the batch sorption of cadmium ions from effluent onto bone char

The sorption equilibrium and kinetics of cadmium ions from aqueous solution onto bone char have been studied. Equilibrium isotherms for the sorption s ystem were correlated by Langmuir and bi-langmuir equations. The applicatio n of the bi-langmuir equation was developed because the mechanistic analysi s in this research indicated that cadmium removal occurs ion exchange and p hysical adsorption onto different surface sites. The bi-langmuir equation p rovides a better fit to the experimental data. In addition, the removal rat es of cadmium ions based on the Langmuir models have been investigated. The effective diffusivity was calculated using the effects of initial metal io n concentration and bone char mass. Two mass-transport models based on film -pore diffusion control have been applied to analyze the concentration deca y curves, The film and pore diffusion coefficients using an analytical equa tion are equal to 1.26 x 10(-3) cm/s and 5.06 x 10(-7) cm(2)/s, respectivel y. The pore diffusion coefficient obtained from the numerical method is 4.8 9 x 10(-7) cm(2)/s. A sensitivity analysis showed that the film-pore diffus ion model and constant effective diffusivity could be used to describe the mass-transport mechanism of the sorption system with a high degree of corre lation. (C) 2001 Academic Press.