基于微藻的生物反应器废水处理技术在消除新兴污染物方面的最新进展:机理综述

Sukhendu Dey , Palas Samanta , Apurba Ratan Ghosh , Siddharthasankar Banerjee , Kamalesh Sen
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引用次数: 0

摘要

这篇综述文章探讨了利用基于微藻的生物反应器对废水进行解毒的最新进展,重点是去除各种环境污染物 (VEC)。这些污染物(包括营养物质、重金属、有机化合物、微塑料、多环芳香烃 (PAH) 和新兴污染物)具有持久性和生物累积能力,对环境和人类健康构成严重威胁。由于传统的废水处理程序往往无法有效消除 VECs,因此需要创新的解决方案。本综述仔细研究了微藻分解和去除废水中 VEC 的能力。它阐明了微藻帮助消除污染物的众多过程,包括生物吸附、生物累积和生物转化。污染物可被微藻摄入,然后微藻可将其代谢为毒性较低的化合物或将其融入生物质中。本研究探讨了在传统处理方法中添加微藻如何提高整体处理效果和运行稳定性。研究深入探讨了操作方面的挑战,如保持微藻的最佳生长条件、生物反应器系统的可扩展性以及持续监测和控制的必要性。分析强调了未来研究的几种途径,如通过基因改造微藻菌株来提高污染物降解能力、创造更有效的生物反应器设计以及采用最先进的监测系统。分析表明,尽管基于微藻的生物反应器在去除 VEC 方面具有巨大潜力,但要在大规模废水处理应用中充分发挥这一潜力,还需要进一步的调查和技术开发。研究人员、环境工程师和政治家可以从这篇综述中获益匪浅,因为它提供了对基于微藻的生物反应器技术在废水处理中的当前和未来潜在应用的全面把握。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
State-of-the-art microalgae-based bioreactor wastewater treatment for the elimination of emerging contaminants: A mechanistic review

The review article explores the state-of-the-art advancements in using bioreactors based on microalgae to detoxify wastewater, with an emphasis on the removal of various environmental contaminants (VECs). Because of their persistence and capacity for bioaccumulation, these pollutants—which include nutrients, heavy metals, organic compounds, microplastics, Polycyclic Aromatic Hydrocarbons (PAHs), and emerging contaminants—pose serious threats to the environment and human health. Innovative solutions are required since traditional wastewater treatment procedures frequently fail to efficiently eradicate VECs. The review carefully looks at how well microalgae can break down and remove VECs from wastewater. It clarifies the numerous processes, including as biosorption, bioaccumulation, and biotransformation, by which microalgae aid in the elimination of pollutants. Contaminants can be ingested by microalgae, which can then metabolise them into less toxic compounds or incorporate them into biomass. This study examines how adding microalgae to traditional treatment methods can improve both overall treatment effectiveness and operational stability. Operational challenges such as maintaining optimal growth conditions for microalgae, scalability of bioreactor systems, and the need for continuous monitoring and control are thoroughly discussed. The analysis highlights several avenues for future research, such as genetically modifying microalgae strains to enhance pollutant degradation, creating more effective bioreactor designs, and incorporating cutting-edge monitoring systems. The analysis indicates that although microalgae-based bioreactors have great potential to remove VECs, further investigation and developments in technology are needed to fully realise this potential in large-scale wastewater treatment applications. Researchers, environmental engineers, and politicians can benefit greatly from this review, which offers a thorough grasp of the present and potential future applications of microalgae-based bioreactor technology for wastewater treatment.

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