利用剪切流变学、相场模型和OCT预测生物膜的变形和脱离

Biofilms Pub Date : 2020-07-01 DOI:10.5194/biofilms9-106

Mengfei Li, K. Matous, R. Nerenberg

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引用次数: 0

摘要

在许多环境系统中，如膜过滤系统，生物膜控制是必不可少的，但成本高昂，需要苛刻的化学品。使用“材料科学”方法可以获得更有效的生物膜控制。生物膜可以表征为粘弹性材料，而生物膜“破坏者”可以表征为其对生物膜机械强度的削弱作用。通过使用一种新的数学模型，该模型结合了生物膜的机械性能、流体流动以及破坏者的扩散和反应，可以设计出更好的清洁策略。

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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Prediction of biofilm deformation and detachment using shear rheometry, phase-field modeling, and OCT

In many environmental systems, such as membrane filtration systems, biofilm control is essential, but costly and requiring harsh chemicals. More effective biofilm control may be obtained using a “materials science” approach. Biofilms can be characterized as viscoelastic materials, and biofilm “disruptors” can be characterized for their weakening effect on biofilm mechanical strength. By using a novel mathematical model that incorporates biofilm mechanical properties, fluid flow, and diffusion and reaction of disruptors, better cleaning strategies can be devised.

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Biofilms

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