以废治废:活性矾土残渣(ABR)作为一种潜在的废水处理方法

IF 3.7 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Fei Cheng, Jingya Pang, Scott Berggren, Himanshu Tanvar, Brajendra Mishra and Maricor J. Arlos*, 
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引用次数: 0

摘要

铝土矿残渣(或赤泥)是一种在提取氧化铝过程中产生的高碱性废物。由于铝矾土残渣在尾矿设施中的大量积累,人们越来越有兴趣探索将这种材料重新用于其他用途的潜力。本研究的主要目的是评估活性铝矾土残渣(ABR)在油砂加工影响水(OSPW)补救中的用途,并通过台架规模的概念验证研究将其作为城市污水处理的补充。ABR 是通过还原焙烧工艺生产的,该工艺改变了铝矾土残渣的物理化学特性,从而产生了潜在的有效吸附介质。此外,还通过化学和生物活性去除(细胞毒性、雌激素性和诱变性)对处理性能进行了评估。对于 OSPW,ABR 处理可有效去除难降解的酸性可提取有机物(AEO),其动力学遵循假二阶,吸附能力与其他废物材料(如石油焦)相当。ABR 还能有效降低 OSPW 的雌激素毒性和诱变性,尽管在较高剂量下细胞毒性会增加,这可能是由于材料中的某些成分(如金属)被沥滤出所致。对于城市污水,ABR 处理可降低粪大肠菌群浓度(99%)、总磷(高达 98%)、总氨氮(63%)、雌激素(检测不到)和诱变性(检测不到),特别是在一级出水中。ABR 的最终用途是回收有价金属(尤其是铁)和用作建筑材料,但还需要开展更多的工作来优化用量(目前在克/升范围内),并在其后续用途之前最大限度地利用 ABR 作为吸附剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Treating Waste with Waste: Activated Bauxite Residue (ABR) as a Potential Wastewater Treatment

Bauxite residue (or red mud) is a highly alkaline waste generated during the extraction of alumina. As a result of the substantial accumulation of bauxite residue in tailings facilities, there is a growing interest in exploring the potential for reusing this material for other purposes. The main objective of this study is to evaluate the use of activated bauxite residue (ABR) for remediating oil sands process-affected water (OSPW) and as a supplement to municipal wastewater treatment through bench-scale, proof-of-concept studies. The ABR is produced through a reduction roasting process that alters the physicochemical properties of bauxite residue, resulting in the generation of potentially effective adsorbent media. The treatment performance via chemical and biological activity removals (cytotoxicity, estrogenicity, and mutagenicity) was also assessed. For OSPW, ABR treatment resulted in the effective removal of recalcitrant acid-extractable organics (AEOs), with kinetics following the pseudo-second-order and comparable adsorption capacity to other waste materials (e.g., petroleum coke). ABR also effectively reduced the estrogenicity and mutagenicity of OSPW, albeit cytotoxicity increased at higher dosages, possibly due to some components leaching out of the material (e.g., metals). For municipal wastewater, ABR treatment reduced fecal coliform concentrations (>99%), total phosphorus (up to 98%), total ammonia-nitrogen (63%), estrogenicity (nondetectable), and mutagenicity (nondetectable), especially in the primary effluent. The ultimate end use of ABR is for the recovery of valuable metals (especially iron) and as a construction material, but additional work is needed to optimize the dosage (currently in the g/L range) and maximize the use of ABR as an adsorbent prior to its subsequent uses.

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来源期刊
ACS Omega
ACS Omega Chemical Engineering-General Chemical Engineering
CiteScore
6.60
自引率
4.90%
发文量
3945
审稿时长
2.4 months
期刊介绍: ACS Omega is an open-access global publication for scientific articles that describe new findings in chemistry and interfacing areas of science, without any perceived evaluation of immediate impact.
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