Cathode flow velocity and pressure gradient oscillations in impedance spectroscopy of PEM fuel cells

IF 5.4 Q2 CHEMISTRY, PHYSICAL

Journal of Power Sources Advances Pub Date : 2025-02-07 DOI:10.1016/j.powera.2025.100170

Andrei Kulikovsky

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Abstract

In electrochemical impedance spectroscopy experiments with PEM fuel cells, the applied AC current induces oscillations of the mass flow across the gas diffusion layer/cathode channel interface. These oscillations perturb the air flow velocity and pressure in the cathode channel. By analogy with Berman’s approach, the transient Navier–Stokes equations for air flow in a channel with a permeable wall are reduced to a single equation for the transverse profile of the streamwise flow velocity (SFV). Linearization and Fourier-transformation of this equation leads to an ODE for the SFV perturbation amplitude. The numerical solution shows that harmonic perturbation of the cell current density generates oscillations of the pressure gradient and SFV. As the frequency increases, the transverse shape of the SFV oscillations amplitude flattens in the main body of the flow, while the peaks form at the channel walls. Averaged across the channel amplitudes of pressure gradient and SFV oscillations linearly increase along the channel. Analytical formulas for incorporation of these effects into impedance models for PEM fuel/electrolysis cell are derived.

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PEM燃料电池阻抗谱中的阴极流速和压力梯度振荡

在PEM燃料电池的电化学阻抗谱实验中，施加的交流电引起了气体扩散层/阴极通道界面上质量流的振荡。这些振荡扰动了阴极通道内的气流速度和压力。通过与Berman方法的类比，将具有透水壁面的通道中空气流动的瞬态Navier-Stokes方程简化为一个单一的顺流速度（SFV）横向剖面方程。对该方程进行线性化和傅里叶变换，得到SFV扰动幅度的ODE。数值解表明，电池电流密度的谐波扰动会产生压力梯度和SFV的振荡。随着频率的增加，流动主体内SFV振荡振幅的横向形状趋于平缓，而通道壁面处则形成峰值。平均压力梯度振幅和SFV振荡沿通道线性增加。导出了将这些效应纳入PEM燃料/电解电池阻抗模型的解析公式。

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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