纺织废水植物修复中的污染物去除机制研究。

IF 2.7 3区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH Journal of Higher Education Policy and Management Pub Date : 2023-12-01 Epub Date: 2022-06-16 DOI:10.1007/s11356-022-21307-6
Durgadevi Selvaraj, Navamani Kartic Dhayabaran, Arivazhagan Mahizhnan
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引用次数: 0

摘要

纺织工业排放的染料和重金属等污染物对地表水和地下水资源造成了不利影响,并对生态系统中的生物构成了严重威胁。与传统的处理方法相比,植物修复废水的方法具有巨大的可用性、成本低廉、生态友好,以及去除不良物质效率高等诸多优点,目前已成为一种新兴趋势。藻类细胞表面的各种功能基团通过生物吸附、生物累积或替代生物降解途径等机制,对营养物质和有毒化合物具有良好的结合亲和力。以藻类为基础的处理方法可以产生作为污泥的生物能源原料,减缓二氧化碳的排放,合成高附加值产品,并排放含氧污水。藻类在转化为活性炭后,由于其较高的结合效率和表面积,也显示出对付污染物的良好潜力。本综述广泛分析了利用藻类这一绿色技术去除纺织废水中不良和有害物质的不同机制。结果表明,生物吸附和生物降解机制都能去除染料、有机物和无机污染物。但对于重金属的去除,生物吸附的去除效率更高。总之,植物修复技术是一种既能大量节约能源、减少温室气体排放,又能去除污染物的便捷技术。
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An insight on pollutant removal mechanisms in phycoremediation of textile wastewater.

Pollutants, including dyes and heavy metals from textile industrial discharge, adversely affect the surface and groundwater resources, and pose a severe risk to the living organisms in the ecosystem. Phycoremediation of wastewater is now an emerging trend, as it is colossally available, inexpensive, eco-friendly, and has many other benefits, with high removal efficiency for undesirable substances, when compared to conventional treatment methods. Algae have a good binding affinity toward nutrients and toxic compounds because of various functional groups on its cell surface by following the mechanisms such as biosorption, bioaccumulation, or alternate biodegradation pathway. Algae-based treatments generate bioenergy feedstock as sludge, mitigate CO2, synthesize high-value-added products, and release oxygenated effluent. Algae when converted into activated carbon also show good potential against contaminants, because of its higher binding efficiency and surface area. This review provides an extensive analysis of different mechanisms involved in removal of undesirable and hazardous substances from textile wastewater using algae as green technology. It could be founded that both biosorption and biodegradation mechanisms were responsible for the removal of dye, organic, and inorganic pollutants. But for the heavy metals removal, biosorption results in higher removal efficiency. Overall, phycoremediation is a convenient technique for substantial conserving of energy demand, reducing greenhouse gas emissions, and removing pollutants.

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来源期刊
Journal of Higher Education Policy and Management
Journal of Higher Education Policy and Management EDUCATION & EDUCATIONAL RESEARCH-
CiteScore
5.30
自引率
7.70%
发文量
52
期刊介绍: The Journal of Higher Education Policy and Management is an international journal of professional experience and ideas in post-secondary education. It is a must read for those seeking to influence educational policy making. The journal also aims to be of use to managers and senior academic staff who seek to place their work and interests in a broad context and influence educational policy and practice.
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