以光催化降解为重点的水中微塑料去除研究进展

N. Sacco, F. M. Zoppas, Alejandra Devard, María del Pilar González Muñoz, Gonzalo García, F. A. Marchesini
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引用次数: 0

摘要

微塑料污染已成为一个全球性的环境问题,对生态系统和人类健康产生有害影响。从水源中有效去除微塑料对于减轻其影响至关重要。高级氧化工艺(AOPs)已成为降解和消除微塑料的有前途的策略。本文综述了AOPs在去除水中微塑料中的应用。各种AOPs,如光催化、臭氧化和芬顿样过程,已经显示出微塑料降解的巨大潜力。这些过程会产生高活性物质,如羟基自由基,它们可以将微塑料分解成更小的碎片,甚至将其矿化成无害的副产品。光催化氧化的效率取决于几个因素,包括光催化剂的选择、反应条件和微塑料的物理化学性质。此外,本文还讨论了与光催化氧化相关的挑战,如需要优化操作参数和潜在的有害副产物的形成。总的来说,光催化氧化为从水中去除微塑料提供了一条很有前途的途径,有助于保护水生生态系统和保障人类健康。然而,需要进一步的研究来解决这一过程的局限性并优化其实施,以实现有效和可持续的微塑料修复。
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Recent Advances in Microplastics Removal from Water with Special Attention Given to Photocatalytic Degradation: Review of Scientific Research
Microplastic pollution has become a global environmental concern with detrimental effects on ecosystems and human health. Effective removal of microplastics from water sources is crucial to mitigate their impacts. Advanced oxidative processes (AOPs) have emerged as promising strategies for the degradation and elimination of microplastics. This review provides a comprehensive overview of the application of AOPs in the removal of microplastics from water. Various AOPs, such as photocatalysis, ozonation, and Fenton-like processes, have shown significant potential for microplastic degradation. These processes generate highly reactive species, such as hydroxyl radicals, which can break down microplastics into smaller fragments or even mineralize them into harmless byproducts. The efficiency of photocatalytic oxidation depends on several factors, including the choice of photocatalysts, reaction conditions, and the physicochemical properties of microplastics. Furthermore, this review discusses the challenges associated with photocatalytic oxidation, such as the need for optimization of operating parameters and the potential formation of harmful byproducts. Overall, photocatalytic oxidation offers a promising avenue for the removal of microplastics from water, contributing to the preservation of aquatic ecosystems and safeguarding human health. However, further research is needed to address the limitations and optimize the implementation of this process for effective and sustainable microplastic remediation.
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