Abstract
Adsorbents of LaAl hydroxide (oxygen) species have been widely used for removal of phosphate (P) from water, but fewer studies were conducted on the removal of low P concentration. This study firstly fabricated a new composite material of LaAl modified Fe3O4 by co-precipitation method applied for removal of low P concentration in water. Results showed that the optimal adsorbent performance was at a La/Al molar ratio of 2:1 and an optimum dosage of 0.1 g/L. P removal was >99 % with a low initial P concentration (2 mg/L), and the residual P was only 0.02 mg/L. La2-Al@Fe3O4 adsorbent was an irregular magnetic particle with a large specific surface area of 101.35 m2/g. Adsorption process primarily involved chemisorption and formation of multiple adsorption layers. The maximum adsorption capacity was 71.75 mg/g when the initial P concentration was 50 mg/L. Meanwhile, it showed good adsorption performance at pH 4.0–9.0, exhibited notable selectivity for P despite competing ions such as Cl−, HCO3−, SO42−, and NO3−, and was influenced by coexisting citric acid and humic acid. Also, La2-Al@Fe3O4 showed good reproducibility and maintained 85.6 % of the original adsorption capacity after five adsorption and desorption cycles. Additionally, P concentration could be reduced to below 0.02 mg/L in actual water, and La2-Al@Fe3O4 was friendly to the water environment based on the toxicity analysis of Chlorella vulgaris. The adsorption mechanism of P by La2-Al@Fe3O4 mainly involved electrostatic adsorption and ligand exchange. This novel adsorbent shows great potential for application in low P concentration water treatment.
Published Version
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