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Techniques for Hierarchical Bio-Inspired Vascular Networks: Electrohydrodynamic Viscous Fingering and Electrical Treeing

机译：分层生物启发血管网络的技术：电流动力学粘性指法和电气曲线

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Vascular networks provicde a method to distributc fluid throughout a system. Artificial vascular malerials with enhanced properties are being developed that could ultimately be integrated into systems reliant upon fluid transport while retaining their structural properties. An uninterrupted and controllable supply of liquid is optimal for many applications such as continual self-healing materials, in-situ delivery of optically index matched fluids, termal management (sweating) and drug delivery systems could benefit from a bio-inspired vascular approach that combines complex network geometries with minimal processing parameters. Two such approaches to induce vascular networks whilst mimicking nature's design are electrohydrodynamic viscous fingering (EHVF) and electrjcal treeing (ET).

机译：血管网络概述在整个系统中分配流体的方法。正在开发具有增强性能的人工血管亚耳醛，其最终可能最终集成到依赖于流体运输时的系统，同时保持其结构性能。对于诸如持续的自愈材料等许多应用，诸如持续的自我愈合材料的许多应用，光学指标匹配的流体的原位递送，间接管理（出汗）和药物递送系统可能受益于结合的生物启发血管方法复杂的网络几何，具有最小处理参数。诱导血管网络的两种方法，同时模仿大自然的设计是电流动力粘性指法（EHVF）和Electriccal树（ET）。

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《AIChE Annual Meeting》|2011年||共2页
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作者
Kristopher D. Behler; Zachary R.Melrose; Andrew Schott; Eric D. Wetzel;
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中图分类 TB3-532;
关键词
Vascular; provicde; fluid throughout;

机译：血管;provicde;流体整个;

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1. Transition From Viscous Fingering to Capillary Fingering: Application of GPU-Based Fully Implicit Dynamic Pore Network Modeling [J] . An Senyou, Erfani Hamidreza, Godinez-Brizuela Omar E., Water resources research . 2020,第12期

机译：从粘性指法转变为毛细管指法：基于GPU的完全隐含动态孔网络建模的应用
2. The influence of fluid properties on electrohydrodynamic heat transfer enhancement in liquids under viscous and electrically dominated flow conditions [J] . Paschkewitz JS., Pratt DM. Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics . 2000,第4期

机译：在粘性和电主导流动条件下，流体特性对液体中电动流体动力传热增强的影响
3. Experimental Study of Crossover from Capillary to Viscous Fingering for Supercritical CO_2-Water Displacement in a Homogeneous Pore Network [J] . Ying Wang, Changyong Zhang, Ning Wei, Environmental Science & Technology . 2013,第1期

机译：均相孔网中超临界CO_2-水置换的毛细管指状到粘性指状交叉的实验研究
4. Techniques for Hierarchical Bio-Inspired Vascular Networks: Electrohydrodynamic Viscous Fingering and Electrical Treeing [C] . Kristopher D. Behler, Zachary R.Melrose, Andrew Schott, AIChE Annual Meeting . 2011

机译：分层生物启发血管网络的技术：电流动力学粘性指法和电气曲线
5. Hierarchical forest classification with thermal and multispectral imagery using modified regression tree techniques. [D] . Aicher, Russell P., Jr. 2008

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6. Hierarchical SnO2 Nanospheres: Bio-inspired Mineralization Vulcanization Oxidation Techniques and the Application for NO Sensors [O] . Lei Wang, Yuejiao Chen, Jianmin Ma, -1

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7. Simulation of Hierarchical Viscous Fingering Pattern in Lifting Hele-Shaw Cell [O] . Dutta, T, Kabiraj, S, Tarafdar, S 2002

机译：提升系统中层次粘性指纹模式的仿真 Hele-shaw Cell
8. Electrical Analysis of B-52/FB-111 AMAC and Release Circuitry Utilizing Sneak Circuit Analysis Techniques. Volume 2. B-52 Network Trees [R] . Schmidt, P. P. 1975

机译：利用潜行电路分析技术对B-52 / FB-111 amaC和释放电路进行电气分析。第2卷.B-52网络树

Techniques for Hierarchical Bio-Inspired Vascular Networks: Electrohydrodynamic Viscous Fingering and Electrical Treeing

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