2D modeling of a flowing-electrolyte direct methanol fuel cell

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• 作者：C. Ozgur Colpan^a ; ^{cocolpan@ryerson.ca} ; Alan Fung^a ; Feridun Hamdullahpur^b
• 关键词：Methanol ; Direct methanol fuel cell ; DMFC ; Sulfuric acid ; Flowing electrolyte ; Modeling
• 刊名：Journal of Power Sources
• 出版年：2012
• 期刊代码：58_03787753
• 类别：ce
• 出版时间：1 July, 2012
• 卷：209
• 期：Complete
• 页码：301-311
• 文件大小：1340 K

摘要

A two-dimensional model of a flowing-electrolyte direct methanol fuel cell has been developed to predict the performance of the cell under various operating conditions. Governing equations including the proton and electron transport, continuity, momentum, species transport for methanol, water, and oxygen, and the auxiliary equations are coupled to determine the output parameters. These parameters are the concentration distribution of the species, cell voltage, power density, and the electrical efficiency of the cell. After validation with the experimental data, several simulations are carried out to study the effects of the fluid velocity at the fuel, air, and flowing electrolyte channel inlets on the output parameters. In addition, the effect of recirculating the methanol at the flowing electrolyte channel outlet is assessed. The results show that higher fluid velocities at the fuel, air, and flowing electrolyte channel inlets are needed to obtain higher power densities. However, an increase in the fluid velocity at the fuel channel inlet causes a decrease in the electrical efficiency of the cell. It is also found that the electrical efficiency of the FE-DMFC can be further increased if the methanol leaving the flowing electrolyte channel is recirculated into the methanol storage tank.