Abstract
It is of both fundamental and practical importance to develop effective adsorbents for removing phosphate from aqueous solutions continuously. In this study, magnetic amorphous lanthanum silicate alginate hydrogel beads (MALS-B) were prepared and used for phosphate removal. Mesoporous silica materials with highly ordered and hexagonal channel structures were synthesized from natural mineral rectorite (REC) at room temperature. On this basis, amorphous lanthanum silicate (ALS) was synthesized by theone-pot method using a silicon source from REC and a commercial lanthanum source. Further, MALS-B were synthesized from sodium alginate (SA) with ALS and Fe3O4 as the incorporated adsorbable and magnetic nanoparticles via a simple cross-linking method in CaCl2 solution. The synthesized hydrogel beads were characterized by various techniques. ALS and Fe3O4 existed relatively independently in MALS-B, where ALS provided adsorption sites and Fe3O4 provided magnetism. They played a synergistic role in phosphate removal. The saturation magnetization value of MALS-B was 17.38 emu/g, enabling theirfacile separation from aqueous solutions after phosphate adsorption. MALS-B exhibited a preferable adsorption capacity of 40.14 mg P/g for phosphorus compared to other hydrogel beads based on adsorption experiments. More significantly, MALS-B exhibited excellent selectivity for phosphate in aqueous solutions with various interfering ions and possessed a high affinity to phosphate in a wide pH range. MALS-B showed the treatment volume of 480 BV when effluent phosphate concentration was below 0.5 mg/L in fixed-bed column adsorption. The adsorption mechanism was also revealed. Our work demonstrates that MALS-B can serve as a promising adsorbent for continuous phosphate adsorption.
Highlights
Phosphorus is an essential element of organisms, which maintains the normal physiological activities and functions of organisms
amorphous lanthanum silicate (ALS)-B and magnetic amorphous lanthanum silicate alginate hydrogel beads (MALS-B) both exhibited a rugged surface, and many compound particles were found on their surface
Summary,aanovel novelspherical sphericaladsorbent adsorbentwas wasfabricated fabricatedfor forphosphate phosphate removal
Summary
Phosphorus is an essential element of organisms, which maintains the normal physiological activities and functions of organisms. It plays a vital role in RNA, DNA, and cell metabolism [1,2]. Phosphate fertilizers are widely added to the soil to increase food production. The plants cannot absorb all phosphate of phosphate fertilizers. It is inevitable that unutilized phosphate is usually leached out from the soil and accumulates in the water body. With the increasing frequency of human life and production activities, much industrial wastewater, agricultural wastewater, and domestic sewage containing phosphate are discharged into the water body [3]. Microorganisms, algae, and other aquatic plants in water bodies grow and reproduce rapidly
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