Performance of an Electrode Topology for Alkaline Water Electrolysis Under Specific Operating Conditions

DESIGN, CONSTRUCTION, MAINTENANCE Pub Date : 2022-05-07 DOI:10.37394/232022.2022.2.15

M. J. Lavorante, R. Bessone, Samanta Saiquita, R. M. Aiello, E. Martínez

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Abstract

Channels were machined over the active area of a 316L stainless steel electrode, in vertical electrode position, with a width of 5 mm that is reduced to 1 mm and then widened again. For its construction, electro discharge machining was selected since it also allows obtaining different degrees of roughness, which can favor the detachment of bubbles to a larger quantity. Analysis of its performance was carried out at an initial operating temperature of 30 ° C and at seven different distances between electrodes, namely: 9.45; 7.45; 6.35; 5.80; 4.30; 2.80 and 2.45 in millimeters, in order to determine the one with the lowest energy consumption to produce a fixed amount of hydrogen. Results obtained from the evaluated distances show that as the distance between electrodes becomes smaller, so do the electrical and transport resistances. The percentage increase in the current density for the distances of 9.45 and 2.45 mm, with respect to the applied potential difference, shows that at 2.2 V, it is above 80% (in current density) and maintained, with small fluctuations throughout the range of applied voltages. Therefore, using the same amount of energy, a greater volume of hydrogen is obtained.

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特定操作条件下碱水电解电极拓扑结构的性能

在316L不锈钢电极的活性区域上加工通道，在垂直电极位置，宽度为5毫米，减小到1毫米，然后再次加宽。对于其结构，选择电火花加工，因为它也允许获得不同程度的粗糙度，这有利于气泡的分离到更大的数量。在初始工作温度为30°C、电极间距为9.45时，对其性能进行了分析;7.45;6.35;5.80;4.30;2.80和2.45毫米，以确定一个以最低的能量消耗产生一定量的氢。从评估距离得到的结果表明，随着电极之间的距离变小，电阻值和传输电阻也变小。在9.45和2.45 mm的距离上，电流密度相对于施加的电位差增加的百分比表明，在2.2 V时，它在80%以上(电流密度)并保持不变，在整个施加电压范围内波动很小。因此，使用相同的能量，获得更大体积的氢。

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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