用于纺织业废水处理的厌氧/好氧(A/O)综合工艺的最新进展:综述

IF 5.4 Q2 ENGINEERING, ENVIRONMENTAL
Fekadu Mazengiaw Bogale , Belay Teffera , Tadele Assefa Aragaw
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引用次数: 0

摘要

纺织废水(WW)是染料、盐分、有机物和其他化学物质的复杂混合物,如果处理不当,会对环境造成负面影响。与传统的活性污泥(CAS)工艺相比,厌氧/好氧(A/O)综合废水处理方法在纺织印染废水处理方面取得的进展被认为是高效实用的。本研究旨在批判性地回顾厌氧/好氧一体化工艺处理纺织染化废水的有效性和可行性、染料降解的基本机制以及影响生物降解的不同因素。此外,还强调了卤代嗜碱性和嗜热微生物的潜力,因为它们是处理纺织废水的最佳候选微生物。厌氧/好氧处理系统在去除色度、化学需氧量和总氨氮方面的表现非常有效,分别达到了 100%、90% 和 80% 的降解率。厌氧菌在厌氧阶段分解复杂的有机物方面发挥着关键作用,随后在好氧反应器中被好氧菌转化为无毒的副产品,从而使该过程有效减轻了对环境的不利影响。最近,使用这种处理系统提高了生物处理工艺的性能和效率,使纺织业能够满足污水排放标准限值的要求。然而,进一步的研究和实际应用仍处于起步阶段;因此,必须进一步探索这些概念的实用性,包括可扩展性和可持续性,以及实施这些概念的政策建议。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Recent developments in integrated anaerobic/aerobic (A/O) process for textile industry wastewater treatment: A review

Recent developments in integrated anaerobic/aerobic (A/O) process for textile industry wastewater treatment: A review

Textile wastewater (WW) is a complex mixture of dyes, salts, organic matter, and other chemicals that can negatively affect the environment if not properly treated. The progress made in integrated anaerobic/aerobic (A/O) WW treatment method is believed to be efficient and practical for textile dyeing WW compared to the conventional activated sludge (CAS) process. This study aims to critically review the efficacy and feasibility of integrated A/O process for textile WW treatment, the underlying dye degradation mechanisms, and the different factors affecting biodegradation. Moreover, the potential of haloalkaliphilic and thermophilic microorganisms is highlighted as they are the best candidates for textile WW treatment. The performance of the A/O treatment system in removing color, COD, and TKN was demonstrated to be highly effective, achieving reductions of up to 100 %, greater than 90 %, and 80 %, respectively.Anaerobes play a crucial role in breaking down complex organic matter during the anaerobic phase, which is subsequently converted into non-toxic byproducts by aerobes in the aerobic reactor, making the process effective in mitigating adverse environmental impacts. Recently, the performance and efficiency of biological treatment processes have been improved using this treatment system, enabling the textile industry to meet the requirements for effluent discharge standard limits. Nevertheless, further research and practical applications are still in their infancy stage; hence, additional exploration of the practicality of these concepts, including scalability and sustainability, as well as policy recommendations for their implementation, is imperative.

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来源期刊
Journal of hazardous materials advances
Journal of hazardous materials advances Environmental Engineering
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