کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
5117370 | 1485228 | 2017 | 8 صفحه PDF | دانلود رایگان |
- Magnetic biochar was prepared from invasive water hyacinth biomass.
- Phosphate removal efficiency by this magnetic biochar kept stable over pH 3-10.
- This magnetic biochar displayed a high co-adsorption capability towards arsenate.
- Efficient phosphorus removal from Lake Dianchi water was achieved by this sorbent.
- P adsorption occurred mainly by electrostatic attraction and surface complexation.
In this study, the efficiency and mechanism of aqueous phosphate removal by magnetic biochar derived from water hyacinth (MW) were investigated. The MW pyrolyzed at 450 °C (MW450) exhibited the most prominent phosphate sorption capacity, which was estimated to be 5.07 mg gâ1 based on LangmuirâFreundlich model. At an initial phosphorus (P) concentration of 1 mg lâ1, >90% P removal was achieved over pH 3-9, but the efficiency decreased sharply at pH > 10. The presence of arsenate and carbonate could remarkably decrease P sorption, while the inhibition effects of antimonate, nitrate and sulfate were less significant. In further application of MW450 to reclaim P from eutrophic lake waters (0.71-0.94 mg lâ1 total P), â¼96% P removals were attained in the batch studies and the effluent P concentrations in the column tests were reduced to <0.05 mg lâ1 within 509-1019 empty bed volumes. As indicated by XRD, MW450 surface was dominated by Fe3O4 and Fe2O3, resulting in a good ferromagnetic property of this composite (saturation magnetization 45.8 emu gâ1). Based on XPS, P sorption onto MW450 occurred mainly by surface complexation with the hydroxyl via ligand exchange. These results highlighted that MW derived from highly damaging water hyacinth could provide a promising alternative for P removal from most eutrophic waters.
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Journal: Journal of Environmental Management - Volume 187, 1 February 2017, Pages 212-219