Abstract
In this study, reduced graphene oxide was synthesized from tea solution (TPGO) and by hydrazine hydrate and was used for the treatment of fluoride containing waste water. The batch study indicated that bio-reduced graphene oxide (TPGO) showed fluoride removal capacity of 94.22% whereas in case of chemically reduced graphene oxide, the removal was 87.4% at optimized condition. In both cases, the equilibrium data were fitted well with Langmuir adsorption isotherm and the adsorption kinetic data followed the pseudo second order model. The performance of TPGO was further optimized with response surface methodology and artificial neural network (ANN) analysis. The two-level, three-factorial (23) Central Composite Design (CCD) expert software was employed to find the optimum combination of process parameters for maximum fluoride adsorption capacity of TPGO. The exhausted TPGO was also regenerated using 1% sodium hydroxide solution and reused for the removal of fluoride present in solution.
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