介观环元件生长和变形诱导微流道中生物膜射流的演变。

Mesoscopic ring element growth and deformation induced biofilm streamer evolution in microfluidic channels.

机构信息

School of Mechanical Engineering, University of Science and Technology Beijing, Beijing 100083, China.

School of Mechanical Engineering, University of Science and Technology Beijing, Beijing 100083, China; School of Engineering and Applied Sciences, Harvard University, Cambridge, MA 02138, USA E-mail:

出版信息

Water Sci Technol. 2024 Jun;89(11):2867-2879. doi: 10.2166/wst.2024.168. Epub 2024 May 24.

DOI:10.2166/wst.2024.168

PMID:38877618

Abstract

In a fluid environment, biofilms usually form and grow into streamers attached to solid surfaces. Existing research on single streamers studied their formation and failure modes. In the experiment on biofilm growth in a microfluidic channel, we found that rings composed of bacteria and an extracellular matrix are important elements on a mesoscopic scale. In the fluid environment, the failure of these ring elements causes damage to streamers. We simulated the growth and deformation of the ring structure in the micro-channel using multi-agent simulation and fluid-structure coupling of a porous elastic body. Based on this, we simulated the biofilm evolution involving multi-ring deformation, which provides a new length scale to study the biofilm streamer dynamics in fluid environments.

摘要

在流动环境中，生物膜通常会形成并生长成附着在固体表面的流丝。现有关于单个流丝的研究主要关注其形成和失效模式。在微流道中生物膜生长的实验中，我们发现由细菌和细胞外基质组成的环是介观尺度上的重要组成部分。在流动环境中，这些环结构的失效会导致流丝的损坏。我们使用多体模拟和多孔弹性体的流固耦合来模拟微通道中环结构的生长和变形。在此基础上，我们模拟了涉及多环变形的生物膜演化，这为研究流体环境中的生物膜流丝动力学提供了一个新的长度尺度。

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Biomicrofluidics. 2018 Aug 20;12(4):044116. doi: 10.1063/1.5025359. eCollection 2018 Jul.

Ideal wet two-dimensional foams and emulsions with finite contact angle.具有有限接触角的理想湿二维泡沫和乳液。

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Near wall void growth leads to disintegration of colloidal bacterial streamer.近壁空穴生长导致胶态细菌流的解体。

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介观环元件生长和变形诱导微流道中生物膜射流的演变。

Mesoscopic ring element growth and deformation induced biofilm streamer evolution in microfluidic channels.

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