PEM fuel cell cathode carbon corrosion due to the formation of air/fuel boundary at the anode

Hao Tang; Zhigang Qi; Manikandan Ramani

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PEM fuel cell cathode carbon corrosion due to the formation of air/fuel boundary at the anode

机译：由于在阳极形成空气/燃料边界，PEM燃料电池的阴极碳腐蚀

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The impacts of unprotected start up and shut down on fuel cell performance degradation was investigated using both single cell and dual cell configurations. It was found that the air/fuel boundary developed at the anode side after a fuel cell shut down or during its restart caused extremely quick degradation of the cathode. The thickness, the electrochemical active surface area, and the performance of the cathode catalyst layer were significantly reduced. By using a dual cell configuration, cathode potential as high as two times of open circuit voltage was measured, and the corrosion current flowing externally between the two cells was detected and quantified. Carbon catalyst-support corrosion/oxidation at such a high potential was largely responsible for the accelerated fuel cell performance degradation.

机译：使用单电池和双电池配置研究了无保护的启动和关闭对燃料电池性能下降的影响。发现在燃料电池关闭之后或在其重新启动期间在阳极侧形成的空气/燃料边界导致阴极的极快降解。阴极催化剂层的厚度，电化学活性表面积和性能显着降低。通过使用双电池构造，测量到两倍于开路电压的阴极电势，并且检测并定量了在两个电池之间外部流动的腐蚀电流。在如此高的电位下，碳催化剂载体的腐蚀/氧化是造成燃料电池性能加速下降的主要原因。

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来源
《Journal of power sources》 |2006年第2期|p.1306-1312|共7页
作者
Hao Tang; Zhigang Qi; Manikandan Ramani;
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作者单位

Plug Power Inc., 968 Albany Shaker Road, Latham, NY 12110, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类能源与动力工程;
关键词
Fuel cell; Fuel cell start up; Fuel cell shut down; Carbon corrosion; Carbon oxidation; Air/fuel boundary; Fuel cell degradation;

机译：燃料电池;燃料电池启动;燃料电池关闭;碳腐蚀;碳氧化;空气/燃料边界;燃料电池降解;

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专利

1. The maximum potential a PEM fuel cell cathode experiences due to the formation of air/fuel boundary at the anode [J] . Reyimjan A. Sidik Journal of Solid State Electrochemistry . 2009,第7期

机译：由于在阳极处形成空气/燃料边界，PEM燃料电池阴极经历的最大电势
2. The maximum potential a PEM fuel cell cathode experiences due to the formation of air/fuel boundary at the anode [J] . Reyimjan A. Sidik Journal of solid state electrochemistry . 2009,第7期

机译：由于在阳极处形成空气/燃料边界，PEM燃料电池阴极经历的最大电势
3. In situ durability of various carbon supports against carbon corrosion during fuel starvation in a PEM fuel cell cathode [J] . Lee Gibaek, Choi Hyeonji, Tak Yongsug Nanotechnology . 2019,第8期

机译：在PEM燃料电池阴极中燃料饥饿期间，各种碳的原位耐久性抵抗碳腐蚀
4. Monitoring Carbon Corrosion in Anode of a PEM Fuel Cells Under Fuel Starvation Using a Hydrogen Reference Electrode and on-Line Mass Spectrometry [C] . Sunjin Park, Katie Heeyum Lim, Woong hee Lee, Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：使用氢参比电极和在线质谱法监测燃料饥饿下PEM燃料电池阳极中的碳腐蚀
5. In-situ investigation and mitigation of carbon support corrosion of cathode catalyst in PEM fuel cells. [D] . Li, Wei. 2010

机译：PEM燃料电池中阴极催化剂的碳载体腐蚀的原位研究和缓解。
6. Promoting the bio-cathode formation of a constructed wetland-microbial fuel cell by using powder activated carbon modified alum sludge in anode chamber [O] . Lei Xu, Yaqian Zhao, Liam Doherty, -1

机译：通过在阳极室中使用粉末活性炭改性的氧化铝污泥促进人工湿地微生物燃料电池的生物阴极形成
7. Promoting the bio-cathode formation of a constructed wetland-microbial fuel cell by using powder activated carbon modified alum sludge in anode chamber [O] . Lei Xu, Yaqian Zhao, Liam Doherty, 2016

机译：在阳极室中使用粉末活性炭改性的铝污泥促进构建的湿地微生物燃料电池的生物阴极形成
8. Theoretical Studies in Enhancing the Efficiency of Cathode and Anode Materials in PEMFC (Proton Exchange Membrane Fuel Cells) [R] . Kawazoe, Y. 2011

机译：提高pEmFC（质子交换膜燃料电池）中阴极和阳极材料效率的理论研究

PEM fuel cell cathode carbon corrosion due to the formation of air/fuel boundary at the anode

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