Zeynep Ciğeroğlu , Noureddine El Messaoudi , Youssef Miyah , Jordana Georgin , Dison S.P. Franco , Mohammed Benjelloun , Zeynep Mine Şenol , Emine Sena Kazan-Kaya , Başak Temur Ergan
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引用次数: 0
Abstract
The present review focuses on the very latest development with respect to Sunset Yellow FCF (SY) removal from wastewater and dwells mostly on some of the most novel and efficient methods developed in response to ever-increasing environmental and health concerns related to this widely used synthetic dye. In this work, adsorption techniques are criticized, considering that the high adsorption capacity of SY offers various environmental benefits. It lowers the concentration of wastewater, which means that fewer dyes are used in effluent processes. These advantages not only contribute to cleaner water bodies but also promote sustainable practices in the textile industry. This review considers in some detail the degradation of SY dye in advanced oxidation processes such as photocatalytic degradation, Fenton-like reactions, and ozonation with regard to general efficiency and cost pertinence. This review, along with biological treatments using isolated strains of bacteria and fungi capable of enzymatically degrading SY dye, offers an eco-friendly alternative against various available chemical methods. Hybrid systems in separation processes are often used for approaches consisting of multiple treatment processes, including biological, physical, and chemical, to completely treat water. For example, a particular treatment system may utilize both adsorption processes and incorporate some features of advanced oxidation treatment processes. This review aims to synthesize current literature and recent advancements to inform future research on SY removal, hence supporting sustainable wastewater treatment approaches and hybrid systems.
本综述侧重于从废水中去除日落黄 FCF(SY)的最新进展,主要介绍了针对这种广泛使用的合成染料所引发的日益严重的环境和健康问题而开发的一些最新颖、最有效的方法。在这项工作中,考虑到 SY 的高吸附能力具有各种环境效益,对吸附技术进行了批评。它能降低废水浓度,这意味着在污水处理过程中使用的染料更少。这些优势不仅有助于水体的清洁,还能促进纺织业的可持续发展。本综述从总体效率和成本相关性的角度,对 SY 染料在光催化降解、类芬顿反应和臭氧氧化等高级氧化过程中的降解进行了详细探讨。这篇综述以及利用分离出来的能够酶降解 SY 染料的细菌和真菌菌株进行的生物处理,为各种现有化学方法提供了一种生态友好型替代方法。分离过程中的混合系统通常用于由生物、物理和化学等多个处理过程组成的方法,以彻底处理水。例如,一个特定的处理系统可能同时使用吸附工艺和高级氧化处理工艺的某些功能。本综述旨在综合现有文献和最新进展,为今后有关去除 SY 的研究提供信息,从而为可持续废水处理方法和混合系统提供支持。
期刊介绍:
Sustainable Materials and Technologies (SM&T), an international, cross-disciplinary, fully open access journal published by Elsevier, focuses on original full-length research articles and reviews. It covers applied or fundamental science of nano-, micro-, meso-, and macro-scale aspects of materials and technologies for sustainable development. SM&T gives special attention to contributions that bridge the knowledge gap between materials and system designs.
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