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壳聚糖和硫化亚铁改性磁性铁基水厂污泥对水中六价铬的吸附与还原作用

Magnetic iron-based waterworks sludge modified by chitosan and FeS for aqueous Cr(vi) adsorption and reduction.

作者信息

Tie Jingxi, Li Weipeng, Duan Xiaohan, Wang Huawen, Liu Shuli, Zhao Weigao

机构信息

School of Environmental and Municipal Engineering, North China University of Water Resources and Electric Power Zhengzhou 450046 PR China.

Henan Vocational College of Water Conservancy and Environment Zhengzhou 450008 PR China.

出版信息

RSC Adv. 2024 Sep 11;14(39):28915-28926. doi: 10.1039/d4ra02852j. eCollection 2024 Sep 4.

DOI:10.1039/d4ra02852j
PMID:39263432
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11388724/
Abstract

Heavy metals have been considered an evolving environmental concern due to their harmful and long-lasting impacts. We synthesized a composite of FeS/CS@MIBWS for aqueous Cr(vi) adsorption and reduction utilizing the iron-based waterworks sludge modified by chitosan and FeS. After determining the optimal conditions for the FeS/CS@MIBWS preparation, its Cr(vi) removal capability was evaluated using material characterisation and static Cr(vi) adsorption assays. Cr(vi) elimination by the composite was a pH-dependent process, with pH 2 being the optimum in the range of 2-10. The adsorption process was befitted a pseudo-second-order model, and the equilibrium results agreed well with the Langmuir model. The thermodynamics investigation showed that Cr(vi) removal by the composite has both spontaneous and endothermic nature. Considering the ionic effects, Cl, SO and PO decreased Cr(vi) elimination in the sequence of Cl < SO < PO . The key mechanisms for Cr(vi) elimination were physical and chemical adsorption, chelation, and Cr(vi) reduction into Cr(iii). Furthermore, FeS/CS@MIBWS demonstrated steady reusability (removal effectiveness of 70% after 5 cycles). FeS/CS@MIBWS's rapid, high-performance, reusable, and easily separable adsorption properties make it a promising choice for heavy metal environmental cleaning.

摘要

由于重金属具有有害且持久的影响,它们一直被视为一个不断演变的环境问题。我们利用壳聚糖和硫化亚铁改性的铁基自来水厂污泥,合成了用于水溶液中六价铬吸附和还原的FeS/CS@MIBWS复合材料。在确定了FeS/CS@MIBWS制备的最佳条件后,通过材料表征和静态六价铬吸附试验评估了其对六价铬的去除能力。该复合材料对六价铬的去除是一个依赖于pH值的过程,在2-10的范围内,pH值为2时最佳。吸附过程符合准二级模型,平衡结果与朗缪尔模型吻合良好。热力学研究表明,该复合材料对六价铬的去除具有自发和吸热的性质。考虑到离子效应,Cl⁻、SO₄²⁻和PO₄³⁻对六价铬去除的影响顺序为Cl⁻ < SO₄²⁻ < PO₄³⁻。六价铬去除的关键机制是物理和化学吸附、螯合以及六价铬还原为三价铬。此外,FeS/CS@MIBWS表现出稳定的可重复使用性(5次循环后去除效率为70%)。FeS/CS@MIBWS快速、高效、可重复使用且易于分离的吸附特性使其成为重金属环境净化的一个有前景的选择。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc95/11388724/764a53c7f334/d4ra02852j-f1.jpg

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