Properties of Hagen-Poiseuille flows in channel networks

arXiv - QuanBio - Cell Behavior Pub Date : 2024-02-29 DOI:arxiv-2402.19185
A. F. Valente, R. Almeida, R. Dilão
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Abstract

We derive the main properties of adaptive Hagen-Poiseuille flows in elastic microchannel networks akin to biological veins in organisms. We show that adaptive Hagen-Poiseuille flows successfully simulate key features of \textit{Physarum polycephalum} networks, replicating physiological out-of-equilibrium phenomena like peristalsis and shuttle streaming, associated with the mechanism of nutrient transport in \textit{Physarum}. A new topological steady state has been identified for asynchronous adaptation, supporting out-of-equilibrium laminar fluxes. Adaptive Hagen-Poiseuille flows show saturation effects on the fluxes in contractile veins, as observed in animal and artificial contractile veins.
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渠道网络中哈根-普瓦耶流的特性
我们推导了弹性微通道网络(类似于生物体内的生物静脉)中自适应哈根-普瓦耶流的主要特性。我们的研究表明,自适应哈根-普绪耶流成功地模拟了textit{Physarum polycephalum}网络的主要特征,复制了与textit{Physarum}营养物质运输机制相关的生理失衡现象,如蠕动和穿梭流。为异步适应确定了一种新的表观稳态,支持失衡层流。正如在动物和人工收缩静脉中观察到的那样,适应性哈根-普瓦斯维尔流对收缩静脉中的通量显示出饱和效应。
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arXiv - QuanBio - Cell Behavior
arXiv - QuanBio - Cell Behavior
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