电极
电解质
限制电流
极化(电化学)
电化学
大规模运输
材料科学
浓差极化
导电体
电压降
边界层
电压
化学工程
光电子学
分析化学(期刊)
化学
机械
复合材料
电气工程
工程物理
色谱法
膜
生物化学
物理化学
工程类
物理
作者
Jonas Lölsberg,Ottokar Starck,Serafin Stiefel,Jonas Hereijgers,Tom Breugelmans,Matthias Weßling
标识
DOI:10.1002/celc.201700662
摘要
Abstract Today's electrochemical reactor design is a less developed discipline as compared to electrocatalytic synthesis. Although catalysts show increasing conversion rates, they are often operated without measures for the reduction of concentration polarization effects. As a result, a stagnant boundary layer forms at the electrode‐electrolyte interface. This stagnant boundary layer presents an additional voltage drop and reduces the energy efficiency. It is generally accepted that this phenomenon is caused by a combination of fast electrode reactions and slow diffusion of the reacting species. Our earlier work demonstrated the potential of non‐conducting static mixers to reduce concentration polarization effects. However, there are few studies on conductive static mixers applied as electrodes. In this study, we present a new concept of additive manufactured flow through electrode mixers. Our electrode geometry combines a high surface area with mixing properties, diminishing concentration polarization effects of transport‐limited reactions. Mass transport properties of these conductive static mixers are evaluated in an additive manufactured electrochemical reactor under controlled conditions by applying the limiting‐current method.
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