利用铝土矿残渣制备聚合硫酸铁用于高效去除模拟废水中的Cr(VI)

Fabrication of Polyaluminium Ferric Sulfate from Bauxite Residue for Efficient Removal of Cr(VI) from Simulated Wastewater.

作者信息

Lan Zhiqiang, Wan Si, Chen Runhua, Wang Yangyang, Yuan Cuiyu, Fan Ke, Xu Xikai

机构信息

College of Environmental Science and Engineering, Central South University of Forestry and Technology, 410007, Changsha, China.

Faculty of Environmental Science and Engineering, Kunming University of Science and Technology, 650500, Kunming, China.

出版信息

Bull Environ Contam Toxicol. 2022 Jul;109(1):142-148. doi: 10.1007/s00128-022-03494-7. Epub 2022 Mar 19.

DOI:10.1007/s00128-022-03494-7

PMID:35305129

Abstract

Bauxite residue is generated from alumina production in the alumina refining industry by the Bayer process, which requires a large amount of land resource and causes serious environmental problems. In this paper, a novel recycling strategy is proposed to rehabilitate the land and produce the polyaluminium ferric sulfate (PAFS) and siliceous gypsum byproducts from the bauxite residue. The batch experiments reveal that the maximum Cr(VI) removal efficiency of as-prepared PAFS can reach 95.80% with an initial concentration of 10.41 mg/L. In addition, the non-toxic siliceous gypsum should be an ideal raw material for cement plants. Various characterizations (e.g., SEM, FTIR, and XRD) are employed to reveal the mechanism of synthesis PAFS and their Cr(VI) removal performance. Consequently, this paper provides a deep insight into the utilization of bauxite residue as a resource and gives a new strategy for preparing PAFS and gypsum from bauxite residue.

摘要

铝土矿残渣是在氧化铝精炼行业通过拜耳法生产氧化铝过程中产生的，这需要大量土地资源并导致严重的环境问题。本文提出了一种新颖的回收策略，用于修复土地并从铝土矿残渣中生产聚合硫酸铁铝（PAFS）和硅质石膏副产品。批次实验表明，制备的PAFS对初始浓度为10.41 mg/L的Cr(VI)的最大去除效率可达95.80%。此外，无毒的硅质石膏应该是水泥厂的理想原料。采用各种表征方法（如扫描电子显微镜、傅里叶变换红外光谱和X射线衍射）来揭示合成PAFS的机理及其对Cr(VI)的去除性能。因此，本文深入探讨了铝土矿残渣作为一种资源的利用，并给出了从铝土矿残渣制备PAFS和石膏的新策略。

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利用铝土矿残渣制备聚合硫酸铁用于高效去除模拟废水中的Cr(VI)

Fabrication of Polyaluminium Ferric Sulfate from Bauxite Residue for Efficient Removal of Cr(VI) from Simulated Wastewater.

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