A highly efficient fluoride adsorbent Al2O3/CeO2 was synthesized in this work and used it to fluoride removal in the fixed‐bed adsorption through changing the different experimental conditions (influent F− concentration, flow velocity, and bed heights). The adsorption capacity was 9.72 mg/g. In addition, the Adams–Bohart and Thomas models were used to fit and evaluate the column breakthrough curve of fluoride removal process by Al2O3/CeO2, and the correlation coefficients (R2) of the Thomas model were close to 1 under all experimental conditions. The structure of Al2O3/CeO2 and the adsorption mechanism were confirmed by X‐ray diffraction (XRD), Fourier‐transform infrared spectroscopy (FT‐IR), N2 adsorption and desorption isotherm, scanning electron microscopy (SEM), transmission electron microscopy (TEM), and X‐ray photoelectron spectroscopy (XPS). Moreover, the adsorption of fluoride (F−) was mainly through metal binding (MF) and hydroxyl binding (AlOH⋯F) on the surface of the Al2O3/CeO2. Furthermore, the regeneration and coexisting anions studies of Al2O3/CeO2 were carried out, and the efficiency of adsorption was still above 70% after five cycles.
Practitioner Points
Removal of fluoride was studied by fixed‐bed experiment, and the adsorption capacity of composite Al2O3/CeO2 was 9.72 mg/g.
The metal complex played important role in fluoride removal and reusability makes a long‐term application for fluoride adsorption.
Fluoride wastewater is pumped to the fixed‐bed column, and fluoride ions are absorbed by Al2O3/CeO2 through fluoride metal complex and aluminum hydrofluoride.
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