低 C/N 海水养殖废水处理中微藻生物膜形成减轻膜污垢的机制:EPS 特性、组成和界面相互作用能

IF 7.4 2区 工程技术 Q1 ENGINEERING, CHEMICAL
Yanbo Liu , Jing Zhu , Weirun Li , Binghan Xie , Guoyu Zhang , Yi Ding , Feng Liu , Haili Tan , Yuhong Jia , Hong You , Zhipeng Li
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引用次数: 0

摘要

膜污垢被认为是膜生物反应器(MBR)在废水处理应用(包括低 C/N 水产养殖废水)中的主要限制之一。尽管许多研究都集中在膜生物反应器与细菌生物膜的结合上,但对微藻生物膜缓解膜堵塞机制的探索还很有限。本研究比较了微藻生物膜形成前后的胞外高分子物质(EPS),得出结论:微藻生物膜的形成可降低 EPS 的膜堵塞潜力,从而减轻膜堵塞。EPS 含量和荧光成分分析表明,微藻生物膜的形成能有效降低三种 EPS(可溶性 EPS(S-EPS)、松散结合型 EPS(LB-EPS)和紧密结合型 EPS(TB-EPS))的蛋白质与多糖比率(PN/PS),从而降低与蛋白质物质,尤其是类色氨酸蛋白质相关的膜污染潜势。此外,对分子量(MW)的分析表明,微藻生物膜能显著降低 S-EPS 和 LB-EPS 的分子量,从而减轻高分子量物质对膜堵塞的影响。同时,EPS 的精确成分显示,疏水性烷烃和难溶性芳烃的含量有所减少,而这些物质往往会导致膜堵塞。此外,扩展的 Derjaguin-Landau-Verwey-Overbeek (XDLVO)理论进一步强调,微藻生物膜削弱了三种 EPS 与膜之间的界面相互作用能,从而减轻了膜污垢。因此,本研究全面阐明了微藻生物膜的形成如何减轻膜堵塞,为利用微藻生物膜 MBR 处理低 C/N 海产养殖废水提供了理论支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mechanism of membrane fouling mitigation by microalgae biofilm formation for low C/N mariculture wastewater treatment: EPS characteristics, composition and interfacial interaction energy

Membrane fouling is considered one of the main limitations of membrane bioreactor (MBR) in wastewater treatment applications, including low C/N aquaculture wastewater. Although much research has focused on the integration of MBR with bacterial biofilm, there has been limited exploration into the mitigation mechanism of membrane fouling by microalgae biofilm. In this study, extracellular polymeric substances (EPS) before and after the formation of microalgae biofilm were compared, leading to the conclusion that the microalgae biofilm formation could reduce membrane fouling potential of EPS, thereby mitigating membrane fouling. EPS content and fluorescence components analysis indicated that microalgae biofilm formation could effectively reduce protein to polysaccharide ratios (PN/PS) of three types of EPS (soluble EPS (S-EPS), loosely bound EPS (LB-EPS), and tightly bound EPS (TB-EPS)), lowering the membrane fouling potential associated with protein substances, especially tryptophan-like protein. Moreover, the analysis of molecular weight (MW) suggested that microalgae biofilm could considerably decrease the MW of both S-EPS and LB-EPS, thus mitigating the influence of high MW substances on membrane fouling. Meanwhile, the precise composition of EPS revealed a reduction in hydrophobic alkanes and recalcitrant aromatics, which often lead to membrane fouling. Furthermore, the extended Derjaguin-Landau-Verwey-Overbeek (XDLVO) theory further highlighted that microalgae biofilm weakened the interfacial interaction energy between the three EPS and membrane to mitigate membrane fouling. Therefore, this study provides a comprehensive elucidation of how microalgae biofilm formation mitigates membrane fouling, offering theoretical support for utilizing microalgae biofilm MBR in treating low C/N mariculture wastewater.

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来源期刊
Journal of Environmental Chemical Engineering
Journal of Environmental Chemical Engineering Environmental Science-Pollution
CiteScore
11.40
自引率
6.50%
发文量
2017
审稿时长
27 days
期刊介绍: The Journal of Environmental Chemical Engineering (JECE) serves as a platform for the dissemination of original and innovative research focusing on the advancement of environmentally-friendly, sustainable technologies. JECE emphasizes the transition towards a carbon-neutral circular economy and a self-sufficient bio-based economy. Topics covered include soil, water, wastewater, and air decontamination; pollution monitoring, prevention, and control; advanced analytics, sensors, impact and risk assessment methodologies in environmental chemical engineering; resource recovery (water, nutrients, materials, energy); industrial ecology; valorization of waste streams; waste management (including e-waste); climate-water-energy-food nexus; novel materials for environmental, chemical, and energy applications; sustainability and environmental safety; water digitalization, water data science, and machine learning; process integration and intensification; recent developments in green chemistry for synthesis, catalysis, and energy; and original research on contaminants of emerging concern, persistent chemicals, and priority substances, including microplastics, nanoplastics, nanomaterials, micropollutants, antimicrobial resistance genes, and emerging pathogens (viruses, bacteria, parasites) of environmental significance.
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