There is currently a steadily growing concern on a global scale for the creation of alternative water reuse technologies, primarily geared toward industry and agriculture. Due to their high chemical stability and/or poor biodegradability, advanced oxidation processes (AOPs) are viewed in this context as a highly competitive water treatment method for the removal of these organic pollutants. AOPs have an immense amount of potential for treating a variety of these contaminants and enhancing wastewater biodegradability. They still have some significant drawbacks, such as high costs of operation, energy intensive and use of additional chemicals. Combining AOPs with other technique enhances the separation efficiency as compared to individual AOP. AOP is an emerging technology trying to find its place in competition with other large scale industrial processes for wastewater treatment and to counter a major drawback of AOP i.e. cost considerations Integration of AOP with conventional treatment techniques have been studied qualitatively and quantitatively along with their advantages and disadvantages. Quantitative parameters like EEO and performance of each process is discussed in detail with critical comments on each process along with future prospective is discussed in conclusion. This paper reviews recent research advancement in the field of conventional AOP and integrated AOPs such as integrated AOP-biological treatment, integrated AOP-membrane processes, AOP in microreactors, microwave enhanced AOP, and Catalytic wet air oxidation.

中文翻译：

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水和废水处理综合高级氧化工艺综述

目前，全球范围内人们越来越关注创建主要针对工业和农业的替代性水回用技术。由于其化学稳定性高和/或生物降解性差，高级氧化工艺（AOP）在这种情况下被视为去除这些有机污染物的极具竞争力的水处理方法。 AOP 在处理各种污染物和提高废水可生物降解性方面具有巨大的潜力。它们仍然存在一些明显的缺点，例如运营成本高、能源密集以及使用额外的化学品。与单独的 AOP 相比，将 AOP 与其他技术相结合可提高分离效率。 AOP 是一项新兴技术，试图在与其他大规模废水处理工业流程的竞争中找到自己的位置，并克服 AOP 的主要缺点，即成本考虑。已经对 AOP 与传统处理技术的集成及其优点和优势进行了定性和定量研究。缺点。详细讨论了 EEO 等定量参数和每个流程的性能，并对每个流程进行了批判性评论，并在结论中讨论了未来的前景。本文综述了传统AOP和集成AOP领域的最新研究进展，例如集成AOP-生物处理、集成AOP-膜工艺、微反应器中的AOP、微波增强AOP和催化湿式空气氧化。