Quorum Quenching Cell Entrapping Bead by Polyvinyl Alcohol Method for Biofouling Mitigation in Lab-scale MBR

NUST Journal of Engineering Sciences Pub Date : 2020-06-01 DOI:10.24949/NJES.V13I1.601

Z. Islam, J. Rose, Sadia Ahmed, Shinho Chung

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引用次数: 2

Abstract

Quorum Quenching (QQ) bacteria such as Rhodococcus sp. BH4 and Pseudomonas putida have excellent anti-biofouling potential as they disrupt Quorum Sensing (QS) system and inhibit biofilm formation on membranes. Cell Entrapping Beads (CEBs) in which the QQ bacteria are immobilized is one of the most effective methods to mitigate membrane biofouling in MBR. The CEBs are very crucial as they mainly protect QQ bacteria from harsh environment of the sludge for better QQ effect and help in physical cleaning of membranes in a submerged MBR. Previously simple sodium alginate (SA) beads were used but it was found that their durability was very low in real wastewater. Polyvinyl Alcohol (PVA) is a better alternative due to its higher durability, chemical stability and low cost. Several brands of PVAs with different polymerization degrees were used here and small amount of SA was added to avoid agglomeration of PVA beads. Concentrations of SA/PVA were varied and different temperature of cross-linking solution also was examined. Then quality of the beads was evaluated on physical and biological aspect. It was found that a PVA of 2,270 polymerization degree with 8% mixed in 1% SA makes the most stable CEBs. A certain brand of SA didn’t prevent agglomeration of CEBs while a specific brand of SA did even at lower concentrations. Temperature of cross-linking solution also was found to have significant effect on internal structure of beads. The quality of CEBs made by the best method found in this research was confirmed through series of tests, i.e. freeze drying, scanning electron microscopy, activity test after immobilization of QQ bacteria in the beads.

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聚乙烯醇法群体淬灭细胞包埋头在实验室MBR中的生物污染缓解研究

群体猝灭菌(QQ)如红球菌(Rhodococcus sp. BH4)和恶臭假单胞菌(Pseudomonas putida)破坏群体感应(Quorum Sensing, QS)系统，抑制膜上生物膜的形成，具有良好的抗生物污染潜力。用细胞包埋珠(Cell Entrapping Beads, ceb)固定QQ菌是MBR中缓解膜生物污染最有效的方法之一。ceb是非常重要的，它主要保护QQ细菌免受污泥恶劣环境的影响，以获得更好的QQ效果，并有助于浸没式MBR中膜的物理清洁。以前使用的是简单的海藻酸钠(SA)微珠，但在实际废水中发现其耐久性很低。聚乙烯醇(PVA)是更好的替代品，因为它具有更高的耐久性、化学稳定性和低成本。本文采用不同聚合度牌号的聚乙烯醇，并加入少量SA以避免聚乙烯醇珠的团聚。研究了不同交联液温度下SA/PVA浓度的变化。然后从物理和生物两个方面评价了珠粒的质量。结果表明，聚合度为2270的聚乙烯醇(PVA)以8%的浓度与1%的SA混合，可制得最稳定的ceb。特定牌子的SA不能阻止ceb的团聚，而特定牌子的SA即使在低浓度下也能阻止ceb的团聚。交联液的温度对微球的内部结构也有显著的影响。通过冷冻干燥、扫描电镜、QQ菌固定化后活性测试等一系列试验，证实了本研究最佳制备方法制备的ceb的质量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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NUST Journal of Engineering Sciences

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