Deep removal of phosphate from electroplating wastewater using novel Fe-MOF loaded chitosan hydrogel beads

Since the electroplating industry is springing up, effective control of phosphate has attracted global concerns. In this study, a novel biosorbent (MIL-88@CS-HDG) was synthesized by loading a kind of Fe-based metal organic framework called MIL-88 into chitosan hydrogel beads and applied in deep treatment of phosphate removal in electroplating wastewater. The adsorption capacities of H2PO4− on MIL-88@CS-HDG could reach 1.1 mmol/g (corresponding to 34.1 mg P/g and 106.7 mg H2PO4−/g), which was 2.65% higher than that on single MOF powders and chitosan hydrogel beads. The H2PO4− adsorption was well described by the Freundlich isotherm model. Over 90% H2PO4− could be adsorbed at contact time of 3 h. It could keep high adsorption capacity in the pH range from 2 to 7, which had a wider pH range of application compared with pure MIL-88. Only NO3− and SO42− limited the adsorption with the reduction rate of 11.42% and 23.23%, proving it tolerated most common co-existing ions. More than 92% of phosphorus could be recovered using NaOH and NaNO3. Electrostatic attraction between Fe core and phosphorus in MIL-88@CS-HDG and ion exchange played the dominant role. The recovered MIL-88@CS-HDG remained stable and applicable in the treatment process of real electroplating wastewater even after six adsorption-regeneration cycles. Based on the removal properties and superb regenerability, MIL-88@CS-HDG is potentially applicable to practical production. [Display omitted] •A novel MIL-88@CS-HDG adsorbent with Fe-based MOF and chitosan beads was synthesized.•The adsorption capacity of MIL-88@CS-HDG was 1.1 mmol/g, which was 2.65% higher than pure MIL-88.•It was proved stable and applicable in the treatment process after six cycles.•After adsorption, the concentration of H2PO4− was lower than the limitation of Environmental Quality Standards for Surface Water in China (Class Ⅲ).