MEMS fuel cell system integrated with a methanol reformer for a portable power source

Kim T; Kwon S

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MEMS fuel cell system integrated with a methanol reformer for a portable power source

机译：集成了甲醇重整器的MEMS燃料电池系统，用于便携式电源

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MEMS fuel cell system was designed and fabricated for a portable power source in the present study. The system consists of a methanol-steam reformer, catalytic combustor, preferential oxidation (PROX) reactor, and polymer electrolyte membrane fuel cell (PEMFC). Methanol reformer is an essential part for hydrogen supply, in which a pre-heater, vaporizing/reforming channels and catalytic combustor were integrated. All components were fabricated using MEMS fabrication technologies combined with catalyst loading processes. Performance of the MEMS fuel cell system was measured with the optimal conditions of the reformer and PROX. Power density was 195 mW/cm(2) when the potential was 0.64V. The performance was low compared to the result for pure hydrogen because the feed at the fuel cell included undesired CO, CO2, and N-2. MEMS fuel cell system with a weight specific energy density of 225 W h/kg was accomplished as an alternative micro power source.

机译：在本研究中，MEMS燃料电池系统是为便携式电源设计和制造的。该系统由甲醇蒸汽重整器，催化燃烧器，优先氧化（PROX）反应器和聚合物电解质膜燃料电池（PEMFC）组成。甲醇重整器是氢气供应必不可少的部分，其中集成了预热器，汽化/重整通道和催化燃烧器。所有组件均使用MEMS制造技术与催化剂加载工艺相结合来制造。使用重整器和PROX的最佳条件测量了MEMS燃料电池系统的性能。当电势为0.64V时，功率密度为195 mW / cm（2）。与纯氢气的结果相比，该性能低，因为燃料电池中的进料包含不希望的CO，CO2和N-2。具有225 W h / kg的重量比能量密度的MEMS燃料电池系统已作为替代微动力源得以实现。

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《Sensors and Actuators, A. Physical 》 |2009年第2期| 共8页
作者
Kim T; Kwon S;
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原文格式 PDF
正文语种 eng
中图分类 TP212.1;
关键词
Micro fuel cell; Methanol reformer; Micro power source; Hydrogen; MEMS;

机译：微型燃料电池;甲醇重整器;微动力源;氢;MEMS;

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1. MEMS fuel cell system integrated with a methanol reformer for a portable power source [J] . Kim T, Kwon S Sensors and Actuators, A. Physical . 2009 ,第2期

机译：集成了甲醇重整器的MEMS燃料电池系统，用于便携式电源
2. Effectiveness of heat-integrated methanol steam reformer and polymer electrolyte membrane fuel cell stack systems for portable applications [J] . A. Lotric, M. Sekavcnik, S. Hocevar Journal of power sources . 2014 ,第deca15期

机译：热集成甲醇蒸汽重整器和聚合物电解质膜燃料电池堆系统在便携式应用中的功效
3. Design, fabrication and performance evaluation of an integrated reformed methanol fuel cell for portable use [J] . Zhang Shubin, Zhang Yufeng, Chen Junyu, Journal of power sources . 2018 ,第JUNa15期

机译：便携式重整甲醇燃料电池的设计，制造和性能评估
4. MEMS fuel cell system for portable power source: Integration of methanol reformer, PROX, and fuel cell [C] . Kim T., Kwon S., MEMS IEEE International Conference on Micro Electro Mechanical Systems . 2008

机译：用于便携式电源的MEMS燃料电池系统：甲醇重整器，PROx和燃料电池的整合
5. Integrated microchemical systems for processing methanol reformer effluents for portable fuel cell applications. [D] . Mukherjee, Samrat. 2007

机译：集成的微化学系统，用于处理便携式燃料电池应用中的甲醇重整器废水。
6. A Low-Power MEMS IDE Capacitor with Integrated Microhotplate: Application as Methanol Sensor using a Metal-Organic Framework Coating as Affinity Layer [O] . Manjunath R. Venkatesh, Sumit Sachdeva, Brahim El Mansouri, 2019

机译：具有集成微孔板的低功耗MEMS IDE电容器：用作使用金属有机框架涂层作为亲和层的甲醇传感器
7. MEMS-Based Reformed Methanol Fuel Cell for Portable Power [O] . 2014

机译：基于mEms的便携式电源改造甲醇燃料电池
8. Reformers for the production of hydrogen from methanol and alternative fuels for fuel cell powered vehicles [R] . Kumar, R., Ahmed, S., Krumpelt, M., 1992

机译：用于从甲醇生产氢气的改革者和用于燃料电池动力车辆的替代燃料

MEMS fuel cell system integrated with a methanol reformer for a portable power source

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