Enhanced Phosphate Removal from Water by Honeycomb-Like Microporous Lanthanum-Chitosan Magnetic Spheres

The removal of phosphate in water is crucial and effective for control of eutrophication, and adsorption is one of the most effective treatment processes. In this study, microporous lanthanum-chitosan magnetic spheres were successfully synthetized and used for the removal of phosphate in water. The...

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Bibliographic Details
Published in:Water (Basel) 2018-11, Vol.10 (11), p.1659
Main Authors: Cheng, Rong, Shen, Liang-Jie, Zhang, Ying-Ying, Dai, Dan-Yang, Zheng, Xiang, Liao, Long-Wen, Wang, Lei, Shi, Lei
Format: Article
Language:English
Subjects:
Adsorbents
Adsorption
Anions
Chemical precipitation
Chitosan
Ethylenediaminetetraacetic acid
Eutrophic environments
Eutrophic waters
Eutrophication
Experiments
Kinetic equations
Kinetics
Lanthanum
Lanthanum oxides
Magnetic properties
Membrane separation
Particle diffusion
Phosphate
Phosphates
Phosphorus removal
Reagents
Scanning electron microscopy
Spectrum analysis
Spheres
Structural hierarchy
Water quality
Water treatment
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Summary:The removal of phosphate in water is crucial and effective for control of eutrophication, and adsorption is one of the most effective treatment processes. In this study, microporous lanthanum-chitosan magnetic spheres were successfully synthetized and used for the removal of phosphate in water. The characterization results show that the dispersion of lanthanum oxide is improved because of the porous properties of the magnetic spheres. Moreover, the contact area and active sites between lanthanum oxide and phosphate were increased due to the presence of many honeycomb channels inside the magnetic spheres. In addition, the maximum adsorption capacity of the Langmuir model was 27.78 mg P·g−1; and the adsorption kinetics were in good agreement with the pseudo-second-order kinetic equation and intra-particle diffusion model. From the results of thermodynamic analysis, the phosphate adsorption process of lanthanum-chitosan magnetic spheres was spontaneous and exothermic in nature. In conditional tests, the optimal ratio of lanthanum/chitosan was 1.0 mmol/g. The adsorption capacity of as-prepared materials increased with the augmentation of the dosage of the adsorbent and the decline of pH value. The co-existing anions, Cl− and NO3− had little effect on adsorption capacity to phosphate, while CO32− exhibited an obviously negative influence on the adsorption capacity of this adsorbent. In general, owing to their unique hierarchical porous structures, high-adsorption capacity and low cost, lanthanum-chitosan magnetic spheres are potentially applicable in eutrophic water treatment.
ISSN:2073-4441
2073-4441
DOI:10.3390/w10111659