集流器形状和结构对电化学系统浆液电极电荷渗透和电导率的影响

A. Heidarian, S. Cheung, R. Ojha, G. Rosengarten
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引用次数: 7

摘要

在可流动浆液电极中,电荷转移与粒子/粒子和粒子/集流器的相互作用一致,实验研究这些效应具有挑战性。本文提出了一种新的CFD-DEM方法,通过引入电荷转移效率系数来模拟浆料电极中的电荷转移过程。我们首次研究了接触电阻和电解质电阻以及集流器形状和配置对浆液电极的渗透阈值和电导率的影响。研究结果表明,接触电阻和电解质电阻对浆液电极的效率起着至关重要的作用。我们发现,在垂直集流器配置下,浆液电极的电导率随着速度增加近3个数量级而翻倍,而在传统的平行配置下,在相同的速度范围内,电导率下降了约50%。此外,我们证明了与电导率快速增加相关的电荷渗透网络在垂直集热器的12 vol%和并联配置的20 vol%后形成。浆料中使用HTAB表面活性剂(5 mM),以避免碳颗粒在通道中团聚和沉积。它使浆料电极的电导率降低了大约10%,同时使粘度降低了30%。
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Effects of Current Collector Shape and Configuration on Charge Percolation and Electric Conductivity of Slurry Electrodes for Electrochemical Systems
Abstract In flowable slurry electrodes, charge transfer coincides with particle/particle and particle/current collector interactions, and it is challenging to investigate these effects experimentally. We present a novel CFD-DEM approach by introducing the charge transfer efficiency coefficient to model the charge transfer process in slurry electrodes. For the first time, we investigate the effects of contact and electrolyte resistances, and current collector shapes and configurations on percolation threshold and electric conductivity of slurry electrodes. Our results show that contact and electrolyte resistances play a vital role on efficiency of slurry electrodes. We show that, with a perpendicular current collector configuration the conductivity of slurry electrodes doubles as the velocity increases almost 3 orders of magnitude, while with a traditional parallel configuration it decreases by approximately 50% over the same velocity range. Additionally, we demonstrate that the charge percolation network associated with rapid increases in conductivity forms after 12 vol% with a perpendicular current collector and after 20 vol% with a parallel configuration. HTAB surfactant (5 mM) is used in the slurries to avoid agglomeration and sedimentation of the carbon particles in the channel. It decreased the conductivity of slurry electrodes by roughly 10% while reducing the viscosity by 30%.
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