表面铜含量对氯和机械应力控制生物膜的影响。

Influence of surface copper content on biofilm control using chlorine and mechanical stress.

机构信息

LEPABE, Department of Chemical Engineering, Faculty of Engineering, University of Porto, Porto, Portugal.

CEB-Centre of Biological Engineering, University of Minho, Braga, Portugal.

出版信息

Biofouling. 2020 Jan;36(1):1-13. doi: 10.1080/08927014.2019.1708334. Epub 2020 Jan 30.

DOI:10.1080/08927014.2019.1708334

PMID:31997661

Abstract

This work aimed to evaluate the action of materials with different copper content (0, 57, 96 and 100%) on biofilm formation and control by chlorination and mechanical stress. isolated from drinking water was used as a model microorganism and biofilms were developed in a rotating cylinder reactor using realism-based shear stress conditions. Biofilms were characterized phenotypically and exposed to three control strategies: 10 mg l of free chlorine for 10 min, an increased shear stress (a fluid velocity of 1.5 m s for 30s), and a combination of both treatments. These shock treatments were not effective in biofilm control. The benefits from the use of copper surfaces was found essentially in reducing the numbers of non-damaged cells. Copper materials demonstrated better performance in biofilm prevention than chlorine. In general, copper alloys may have a positive public health impact by reducing the number of non-damaged cells in the water delivered after chlorine exposure.

摘要

这项工作旨在评估不同铜含量（0、57、96 和 100%）的材料对生物膜形成和氯消毒及机械力控制的作用。以饮用水中分离出的作为模式微生物，在旋转圆柱反应器中采用基于实际的剪切应力条件来开发生物膜。对生物膜进行表型特征分析，并采用三种控制策略进行暴露处理：10mg/L 游离氯消毒 10min、增加剪切应力（1.5m/s 的流速持续 30s）以及联合处理。这些冲击处理对于生物膜控制无效。使用铜表面的益处主要在于减少未受损细胞的数量。铜材料在生物膜预防方面的表现优于氯。总的来说，铜合金通过减少暴露于氯后输送水中未受损细胞的数量，可能对公共健康产生积极影响。

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表面铜含量对氯和机械应力控制生物膜的影响。

Influence of surface copper content on biofilm control using chlorine and mechanical stress.

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