Phosphorus removal and recovery from water with macroporous bead adsorbent constituted of alginate-Zr4+ and PNIPAM-interpenetrated networks

Currently, there is a growing trend in employing natural biomaterials (e.g., alginate) to prepare a novel bead adsorbent for phosphorus (P) elimination. However, the utilization of alginate beads to remove and recover P from effluents possesses limitations associated with its physical characteristic...

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Bibliographic Details
Published in:International journal of biological macromolecules 2019-04, Vol.126, p.1133-1144
Main Authors: Luo, Huayong, Zeng, Xueyang, Liao, Peng, Rong, Hongwei, Zhang, Tian C., Jason Zhang, Z., Meng, Xiangchao
Format: Article
Language:English
Subjects:
Adsorption
Alginate beads
Phosphorus
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Summary:Currently, there is a growing trend in employing natural biomaterials (e.g., alginate) to prepare a novel bead adsorbent for phosphorus (P) elimination. However, the utilization of alginate beads to remove and recover P from effluents possesses limitations associated with its physical characteristics such as a dense gel layer, poor mechanical strength and low stability. To overcome the limitations and improve the adsorption performances, we synthesized a novel alginate-derived bead constituted of PNIPAM network interpenetrated in alginate-Zr4+ network (PNIPAM/SA-Zr) decorated with polyethylene glycol as a pore-forming agent, and then investigated its ability to remove and recover P from effluents. The morphology, functional groups, surface area, and mechanical strength of the beads were evaluated by SEM, FTIR, BET, and swelling analysis. The adsorption of P was investigated by varying various factors. The adsorption kinetics, isotherms, and thermodynamics were studied. Particularly, the P-loaded beads exhibited a faster desorption rate under thermal stimulus, and remained good desorption efficiency and reusability within five consecutive cycles. Zeta-potential and XPS results revealed that the adsorption mechanisms were related to electrostatic interactions, ligand exchange, and the formation of inner-sphere complexes. The beads possessed favorable fixed-bed column operation performances for P removal and recovery from real wastewater. [Display omitted] •Macroporous thermosensitive alginate-Zr4+ bead adsorbent was prepared.•The mechanisms of phosphorus adsorption onto the beads were explored.•The introduced Zr4+ and macroporous structure enhanced phosphorus removal.•The beads showed a faster desorption rate by thermal stimuli and good reusability.•The beads possessed good fixed-bed column operation performances.
ISSN:0141-8130
1879-0003
DOI:10.1016/j.ijbiomac.2018.12.269