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61.
由于低成本、高强度、易于加工成薄板及其耐蚀性,不锈钢被认为是用做质子交换膜燃料电池(PEMFC)双极板的理想材料。用电化学方法研究了一种奥氏体不锈钢在H2SO4和2mg/LF-水溶液中的腐蚀行为,测量了钝化膜与碳纸间的界面接触电阻。结果表明,这种奥氏体不锈钢在H2SO4和2mg/LF-水溶液中呈现明显的活化-钝化转变,随着H2SO4浓度降低,耐蚀性提高,界面接触电阻增大。 相似文献
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常规能源短缺的今天,开发利用新型清洁、绿色能源已成为各国科学家共同追求的目标。质子膜燃料电池(PEMFC)以其高功率密度,启动迅速,无污染等优点成为21世纪首选清洁能源系统。但其原理涉及热力学、电化学、流体力学、传质学等理论,形成一个非线性复杂系统,难以建立数学模型。因此,采用一种动态白适应网络即最近邻聚类径向基函数神经网络,它能够动态调节网络的规模和参数,具有较强的逼近能力以及自学习能力。并利用测试数据作为训练样本,在氢气流速给定的条件下,以空气(或氧气)压力和冷却水流速作为模型的输入量,电池的电压为输出量,建立了在工作温度为60℃和80℃时的PEMFC电特性模型。表明该方法具有简单、可行、精度高等优点。并为PEMFC控制系统的设计和电池性能的优化提供了基本依据。 相似文献
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在已开发的分体式质子交换膜燃料电池电堆基础上,对膜(Nafion115)加湿器子系统进行了详细的研究,揭示了质子交换膜燃料电池膜加湿方法的特性.初步分析了膜加湿的原理,并在不同操作条件下,定量地对膜透过水量与反应气体的润湿程度进行了测量,得到了Nafion115膜加湿器对电堆的润湿性能.发现操作温度在50~70℃之间,加湿速率最强;随着反应气体流量的增大,加湿速率呈非线性增加,但润湿程度反而降低;增加质子交换膜面积会增大反应气体的相对湿度,而加湿速率将下降;较高反应气体压力下不利于加湿.在适当的膜加湿器工况下,当电流密度为2.1A8226;cm-2时,电堆最大功率密度可超过1.2W8226;cm-2. 相似文献
67.
A free vibration analysis of a polymer electrolyte membrane fuel cell (PEMFC) is performed by modelling the PEMFC as a 20 cm × 20 cm composite plate structure. The membrane, gas diffusion electrodes, and bi-polar plates are modelled as composite material plies. Energy equations are derived based on Mindlin's plate theory, and natural frequencies and mode shapes of the PEMFC are calculated using finite element modelling. A parametric study is conducted to investigate how the natural frequency varies as a function of thickness, Young's modulus, and density for each component layer. It is observed that increasing the thickness of the bi-polar plates has the most significant effect on the lowest natural frequency, with a 25% increase in thickness resulting in a 17% increase in the natural frequency. The mode shapes of the PEMFC provide insight into the maximum displacement exhibited as well as the stresses experienced by the single cell under vibration conditions that should be considered for transportation and stationary applications. This work provides insight into how the natural frequencies of the PEMFC should be tuned to avoid high amplitude oscillations by modifying the material and geometric properties of individual components. 相似文献
68.
为了改善质子交换膜燃料电池(PEMFC)内部的水热平衡,从而进一步改善PEMFC的输出性能,文章建立了PEMFC的三维模型,通过改变PEMFC的外界供给参数(进气速度、加湿率以及冷却水流速),应用COMSOL模拟仿真得到了PEMFC的极化曲线和功率曲线、流道和气体扩散层(GDL)的水浓度分布情况,以及冷却水流速对PEMFC温度的影响。研究结果表明:随着进气速度和加湿率的逐渐增加,PEMFC的输出性能均逐渐提升,但是,过高的加湿率可能导致电极水淹;随着冷却水流速的增加,PEMFC温度加速下降,膜内温度分布变得更均匀。 相似文献
69.
Proton exchange membrane fuel cells (PEMFCs) most likely will use reformed fuel as the primary source for the anode feed which always contains carbon dioxide (CO) and hydrogen sulfide (H2S). Trace amount of CO and H2S can cause considerable cell performance losses. A comparison between the effect of CO and that of H2S on PEMFC performance was made in this paper. Under the same conditions, the H2S poisoning rate is much higher than CO because of different adsorption intensity. When the fuel stream contains the gas mixture (25 ppm CO and 25 ppm H2S), the fuel cell performance deteriorates more quickly than 50 ppm CO but slowly than 50 ppm H2S and can be only partially recovered by reintroducing neat H2. The resulting effects of the mixtures can be divided into two parts roughly: during the inception phase, the cell voltage drops quickly and the actual values of anode overvoltage are bigger than the corresponding calculated values; then the deterioration rate of the cell performance decreases gradually. 相似文献
70.
A simple and effective method for reactivation of H2S poisoned Pt-anodes is described and the feasibility of the method was examined by single cell tests and 1 kW stack tests. The performance of the H2S poisoned Pt-anode can be basically recovered by applying a high voltage pulse (1.5 V for 20 s) followed by a low voltage pulse (0.2 V for 20 s) in a single cell. During the 10 poisoning–recovery cycles, the ohmic resistance and electrochemical surface area did not change significantly. The 1 kW stack tests show that the stack performance decayed severely and the maximum power decreased to 0.366 kW (32% of the original value) after exposure to 18 ppm H2S/H2 for 2 h at 600 mA cm−2. The stack performance can be significantly recovered by applying a high voltage pulse (1.5 V for 2 min) followed by a low voltage pulse (0.2 V for 2 min) to each cell. The maximum power recovered to 1.095 kW (97.5% of the original value). 相似文献