Continuous treatment of boron and fluoride in aqueous solutions using a column loaded with granulated Mg-Al layered double hydroxides intercalated with nitrates

Mg-Al layered double hydroxides intercalated with NO₃^- (NO₃·Mg-Al LDHs) were mixed with various amounts of epoxy resin to obtain granulated NO₃·Mg-Al LDH samples. The granulated NO₃·Mg-Al LDH samples were shown to be capable of adsorbing B from aqueous solutions and the experimental adsorption isotherm data fit well to the Langmuir model. In order to evaluate the continuous treatment of B and F^- in aqueous solutions, a chromatographic column was loaded with granulated NO₃·Mg-Al LDH with an LDH/epoxy resin ratio of 1:0.5 and H₃BO₃ and NaF solutions were passed through the columns under various conditions. The concentrations of B and F^- in the elutions were found to increase with time. In addition, the concentrations of B and F^- in the elutions also increased with increase in the flow rates and initial concentrations of H₃BO₃ and NaF, respectively, which were attributed to the flow of large amounts of B and F^- into the column in a short duration. The experimental data from the column experiments were fit to the Thomas model. The relatively high R² values under all the conditions suggest that the Thomas model adequately represents the results of the adsorption experiments. For the adsorption of both B and F^-, the calculated q_T from the Thomas model showed good agreement with the experimental q_E values, confirming the validity of the Thomas model for the column experiments.