以氨分解气为燃料的PEMFC实验与仿真研究

IF 2.2 4区 工程技术 Q3 ELECTROCHEMISTRY
J.F. Zhao, Q. Liang, Y.F. Liang, M. Li, J.Y. Hu
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引用次数: 2

摘要

与氢气相比,氨具有高重量氢密度(17.8wt.%)、作为化学储氢介质易于储存和运输的优点,而其在小规模现场制氢场景中的应用受到高纯度氢气生产过程中需要复杂分离设备的限制。因此,研究可以直接利用氨分解气体的PEMFC,可以极大地扩展燃料电池的应用。本文通过实验和仿真研究了氨分解气体燃料PEMFC的输出特性、燃料效率以及燃料电池阳极通道中氢气浓度和局部电流密度随输出电压的变化趋势。结果表明,在相同的进口氢当量下,混合燃料的最大输出功率比纯氢燃料降低了9.6%。当阳极通道中氢气的摩尔浓度小于0.12时,PEMFC的输出特性将受到严重影响。采用氨分解气体作为燃料,PEMFC最大输出功率对应的效率约为47%,比纯氢的最大效率低10%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental and simulation study of PEMFC based on ammonia decomposition gas as fuel
Compared with hydrogen, ammonia has the advantages of high gravimetric hydrogen densities (17.8 wt.%), ease of storage and transportation as a chemical hydrogen storage medium, while its application in small-scale on-site hydrogen production scenarios is limited by the need for complex separation equipment during high purity hydrogen production. Therefore, the study of PEMFC, which can directly utilize ammonia decomposition gas, can greatly expand the application of fuel cells. In this paper, the output characteristics, fuel efficiency and the variation trend of hydrogen concentration and local current density in the anode channel of fuel cell with the output voltage of PEMFC fueled by ammonia decomposition gas were studied by experiment and simulation. The results indicate that the maximum output power of the hybrid fuel decreases by 9.6% compared with that of the pure hydrogen fuel at the same inlet hydrogen equivalent. When the molar concentration of hydrogen in the anode channel is less than 0.12, the output characteristics of PEMFC will be seriously affected. Employ-ing ammonia decomposition gas as fuel, the efficiency corresponding to the maximum output power of PEMFC is approx-imately 47%, which is 10% lower than the maximum efficiency of pure hydrogen.
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来源期刊
CiteScore
6.30
自引率
8.10%
发文量
44
期刊介绍: Covering fields: - Batteries and Energy Storage - Biological Electrochemistry - Corrosion Science and Technology - Electroanalytical Chemistry and Sensor Technology - Electrocatalysis - Electrochemical Capacitors & Supercapcitors - Electrochemical Engineering - Electrodeposition and Surface Treatment - Environmental Science and Technology - Fuel Cells - Material Electrochemistry - Molecular Electrochemistry and Organic Electrochemistry - Physical Electrochemistry - Solar Energy Conversion and Photoelectrochemistry
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