利用镁热改性生物方解石从水溶液中高效去除磷

An efficient phosphorus scavenging from aqueous solution using magnesiothermally modified bio-calcite.

作者信息

Ahmad Munir, Ahmad Mahtab, Usman Adel R A, Al-Faraj Abdullah S, Ok Yong Sik, Hussain Qaiser, Abduljabbar Adel S, Al-Wabel Mohammad I

机构信息

a Soil Sciences Department , College of Food & Agricultural Sciences, King Saud University , Riyadh , Kingdom of Saudi Arabia.

b Department of Soils and Water, Faculty of Agriculture , Assiut University , Assiut , Egypt.

出版信息

Environ Technol. 2018 Jul;39(13):1638-1649. doi: 10.1080/09593330.2017.1335349. Epub 2017 Jun 9.

DOI:10.1080/09593330.2017.1335349

PMID:28545323

Abstract

Bio-calcite (BC) derived from waste hen eggshell was subjected to thermal treatments (calcined bio-calcite (CBC)). The BC and CBC were further modified via magnesiothermal treatments to produce modified bio-calcite (MBC) and modified calcined bio-calcite (MCBC), respectively, and evaluated as a novel green sorbent for P removal from aqueous solutions in the batch experiments. Modified BC exhibited improved structural and chemical properties, such as porosity, surface area, thermal stability, mineralogy and functional groups, than pristine material. Langmuir and Freundlich models well described the P sorption onto both thermally and magnesiothermally sorbents, respectively, suggesting mono- and multi-layer sorption. Langmuir predicted highest P sorption capacities were in the order of: MCBC (43.33 mg g) > MBC (35.63 mg g-) > CBC (34.38 mg g) > BC (30.68 mg g). The MBC and MCBC removed 100% P up to 50 mg P L, which reduced to 35.43 and 39.96%, respectively, when P concentration was increased up to 1000 mg L. Dynamics of P sorption was well explained by the pseudo-second-order rate equation, with the highest sorption rate of 4.32 mg g min for the MCBC. Hydroxylapatite [Ca(PO)(OH)] and brushite [CaH(PO)·2HO] were detected after P sorption onto the modified sorbents by X-ray diffraction analysis, suggesting chemisorption as the operating sorption mechanism.

摘要

将源自废弃鸡蛋壳的生物方解石（BC）进行热处理（煅烧生物方解石（CBC））。BC和CBC进一步通过镁热处理进行改性，分别制备出改性生物方解石（MBC）和改性煅烧生物方解石（MCBC），并在批次实验中作为从水溶液中去除磷的新型绿色吸附剂进行评估。与原始材料相比，改性BC表现出改善的结构和化学性质，如孔隙率、表面积、热稳定性、矿物学和官能团。Langmuir模型和Freundlich模型分别很好地描述了磷在热吸附剂和镁热吸附剂上的吸附情况，表明存在单层和多层吸附。Langmuir模型预测的最高磷吸附容量顺序为：MCBC（43.33 mg g⁻¹）＞MBC（35.63 mg g⁻¹）＞CBC（34.38 mg g⁻¹）＞BC（30.68 mg g⁻¹）。MBC和MCBC在磷浓度高达50 mg P L⁻¹时可去除100%的磷，当磷浓度增加到1000 mg L⁻¹时，去除率分别降至35.43%和39.96%。磷吸附动力学可用准二级速率方程很好地解释，MCBC的最高吸附速率为4.32 mg g⁻¹ min⁻¹。通过X射线衍射分析在改性吸附剂吸附磷后检测到了羟基磷灰石[Ca₅(PO₄)₃(OH)]和透钙磷石[CaHPO₄·2H₂O]，表明化学吸附是主要的吸附机制。

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利用镁热改性生物方解石从水溶液中高效去除磷

An efficient phosphorus scavenging from aqueous solution using magnesiothermally modified bio-calcite.

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