New treatment method for boron in aqueous solutions using Mg-Al layered double hydroxide: Kinetics and equilibrium studies

Mg-Al layered double hydroxides (LDHs) intercalated with NO3- (NO3 center dot Mg-Al LDHs) and with Cl- (Cl center dot Mg-Al LDHs) were found to take up boron from aqueous solutions. Boron was removed by anion exchange of B(OH)(4)(-) in solution with NO3- and Cl- intercalated in the interlayer of the LDH. Using three times the stoichiometric quantity of NO3 center dot Mg-Al LDH, the residual concentration of B decreased from 100 to 1.9 mg L-1 in 120 min. Using five times the stoichiometric quantity of Cl center dot Mg-Al LDH, the residual concentration of B decreased from 100 to 5.6 mg L-1 in 120 min. It must be emphasized that, in both cases, the residual concentration of B was less than the effluent standards in Japan (10 mg L-1). The rate-determining step of B removal by the NO3 center dot Mg-Al and Cl center dot Mg-Al LDHs was found to be chemical adsorption involving anion exchange of B(OH)(4)(-) with intercalated NO3- and Cl-. The removal of B was well described by a pseudo second-order kinetic equation. The adsorption of B by NO3 center dot Mg-Al LDH and Cl center dot Mg-Al LDH followed a Langmuir-type adsorption. The values of the maximum adsorption and the equilibrium adsorption constant were 3.6 mmol g(-1) and 1.7, respectively, for NO3 center dot Mg-Al LDH, and 3.8 mmol g(-1) and 0.7, respectively, for Cl center dot Mg-Al LDH. The B(OH)(4)(-) in B(OH)(4)center dot Mg-Al LDH produced by removal of B was found to undergo anion exchange with NO3- and Cl- in solution. The NO3 center dot Mg-Al and Cl center dot Mg-Al LDHs obtained after this regeneration treatment were able to remove B from aqueous solutions, indicating the possibility of recycling NO3 center dot Mg-Al and Cl center dot Mg-Al LDHs for B removal. (C) 2015 Elsevier B.V. All rights reserved.