通过预涂铝基絮凝物提高重力驱动膜系统的性能:机理和节能分析。

IF 8 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Yazhou Sun, Zedong Lu, Xing Li, Shaozhu Wang, Jianyong Feng, Yanling Yang, Zhiwei Zhou, Jiawei Ren, Heng Liang
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引用次数: 0

摘要

重力驱动膜(GDM)系统是一种高能效、环境可持续的水净化工艺;然而,在长期运行后,其膜通量仍然相对较低,因此有必要采取有效策略来改善系统性能。本研究考察了静水压(60、100、200 毫巴)和铝基絮凝体(ABF)预涂覆对 GDM 通量和有机物去除率的影响,并通过形态结构、组成和微生物之间的相互作用探索了生物饼层的调节机制。结果表明,GDM-ABF 系统在 60 毫巴静水压力下的稳定通量与 100 毫巴静水压力下的稳定通量基本相当,在有机物去除方面优于更高的静水压力,从而形成了更多孔的生物饼层结构。60 毫巴下的 GDM-ABF 系统比 100 毫巴下的系统节能 38.51%。静水压力的增加导致生物污垢层更致密,EPS 浓度更高,而预涂层则降低了 EPS 浓度,使生物污垢层更松散。静水压力和预涂层通过调节微生物群落和关键代谢物来决定膜污垢。增加静水压力会降低精氨酸和脯氨酸代谢,加重膜污垢,而预涂 ABF 则会提高精氨酸和脯氨酸代谢,降低半乳糖代谢,减轻膜污垢。静水压力和预涂层改变了生物饼层中参与胞外聚合物物质(EPS)形成的关键物种的丰度。在低静水压条件下使用 ABF 进行预涂层,可以在 GDM 系统中实现稳定的通量和有效的水净化,与高静水压条件类似,同时还具有更加环保和低碳的优势。本研究提出了平衡 GDM 系统通量和能耗的策略,为 GDM 技术在膜法水处理工艺中的有效应用提供了理论和技术支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhancing performance in gravity-driven membrane systems through pre-coating with aluminum-based flocs: Mechanism and energy saving analysis.

The gravity-driven membrane (GDM) system is an energy-efficient and environmentally sustainable water purification process; however, after prolonged operation, its membrane flux remains relatively low, making it necessary to adopt effective strategies for improving system performance. In this study, the effects of hydrostatic pressure (60, 100, 200 mbar) and pre-coating with aluminum-based flocs (ABF) on GDM flux and organic matter removal were investigated, and the regulatory mechanisms of the bio-cake layer were explored through interactions between morphological structure, composition and microbes. The results showed that the stable flux of the GDM-ABF system at a hydrostatic pressure of 60 mbar was almost equal to that at 100 mbar, and it outperformed higher hydrostatic pressure in organic matter removal, resulting in a more porous bio-cake layer structure. GDM-ABF system at 60 mbar achieved 38.51% energy saving compared to that at 100 mbar. Increased hydrostatic pressure led to a denser biofouling layer and higher EPS concentrations, whereas pre-coating reduced the EPS concentration and resulted in a looser biofouling layer. Hydrostatic stress and pre-coating determined membrane fouling by regulating microbial communities and key metabolites. Increasing hydrostatic pressure down-regulated arginine and proline metabolism and aggravated membrane fouling, while pre-coating ABF up-regulated arginine and proline metabolism, down-regulated galactose metabolism, and alleviated the membrane fouling. Hydrostatic stress and pre-coating altered the abundance of keystone species involved in extracellular polymeric substances (EPS) formation within the bio-cake layer. Pre-coating with ABF at low hydrostatic pressure can achieve stable flux and effective water purification in GDM systems, similar to high hydrostatic pressure conditions, with the added benefits of being more environmentally friendly and low-carbon. This study proposes a strategy to balance flux and energy consumption in GDM systems, providing theoretical and technical support for the efficient application of GDM technology in membrane water treatment processes.

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来源期刊
Journal of Environmental Management
Journal of Environmental Management 环境科学-环境科学
CiteScore
13.70
自引率
5.70%
发文量
2477
审稿时长
84 days
期刊介绍: The Journal of Environmental Management is a journal for the publication of peer reviewed, original research for all aspects of management and the managed use of the environment, both natural and man-made.Critical review articles are also welcome; submission of these is strongly encouraged.
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