RESEARCH INTO THE EFFECT OF ETCHING PROCESS OF POROUS TITANIUM CURRENT COLLECTORS IN HYDROCHLORIC ACID ON THE PERFORMANCE OF WATER ELECTROLYZERS WITH A PROTON EXCHANGE MEMBRANE

G.R. Kiselev, V. Fateev, I. Baranov
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Abstract

Based on the modern methods of SEM, voltammetry, and gravimetric analysis, samples of current collectors used in electrolyzers with a solid polymer electrolyte, made of porous titanium with various degrees of etching in concentrated hydrochloric acid, were studied. A gravimetric study of the etching process of samples of various sizes from porous titanium showed that throughout the process there is a loss of mass of the sample, with the exception of two short intervals, presumably due to the formation of hydrides (60-80 sec) and oxides (4-5 min), and the samples of smaller volumes were more sensitive to weight loss and weight growth. The use of the SEM method made it possible to reveal that etching over different time intervals changes the structure of porous titanium, reducing the average particle size and increasing their porosity .In this case, the surface inhomogeneity increases due to the formation of cavities in titanium and deterioration of the contact of the current collector surface with the catalytic layer. The consequence of this is the difference in the current-voltage characteristics of electrolysis cells with different duration of etching of the current collectors: there is a decrease in the productivity of electrolysis with an increase in the duration of etching of the current collectors by ~8% for etching more than 1 minute and ~18% for etching more than 4 minutes as compared to the simultaneous immersion of the sample in acid to clean the surface.
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研究了多孔钛集流器在盐酸中蚀刻工艺对质子交换膜水电解槽性能的影响
采用扫描电子显微镜(SEM)、伏安法(volammetry)和重量法(重量法)等现代分析方法,对多孔钛制成的固体聚合物电解质在浓盐酸中不同程度蚀刻的集流器样品进行了研究。对不同尺寸多孔钛样品的刻蚀过程进行的重量研究表明,在整个刻蚀过程中,除了两个短间隔外,样品的质量都有损失,这可能是由于氢化物(60-80秒)和氧化物(4-5分钟)的形成,体积较小的样品对重量损失和重量增长更敏感。利用扫描电镜方法可以发现,不同时间间隔的蚀刻改变了多孔钛的结构,降低了平均粒径,增加了孔隙率,在这种情况下,由于钛中形成空腔和集电极表面与催化层的接触恶化,表面不均匀性增加。这样做的结果是,随着集流器蚀刻时间的不同,电解电池的电流电压特性也不同:与同时将样品浸泡在酸中清洁表面相比,当集流器蚀刻时间超过1分钟时,电解电池的生产率会下降~8%,而当集流器蚀刻时间超过4分钟时,电解电池的生产率会下降~18%。
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