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NTIS 바로가기공업화학 = Applied chemistry for engineering, v.33 no.6, 2022년, pp.646 - 652
김준섭 (울산대학교 화학공학부) , 김준범 (울산대학교 화학공학부)
The dead-end anode (DEA) system is a method that closes the anode outlet and supplies fuel by pressure. The DEA method could improve fuel usage and power efficiency through system simplification. However, flooding occurs due to water and nitrogen back diffusion from the cathode to the anode during t...
Y. Wang, K. S. Chen, J. Mishler, S. C. Cho, and X. C. Adroher, A review of polymer electrolyte membrane fuel cells: Technology, applications, and needs on fundamental research, Appl. Energy, 88, 981-1007 (2011).
G. Wang, Y. Yu, H. Liu, C. Gong, S. Wen, X. Wang, and Z. Tu, Progress on design and development of polymer electrolyte membrane fuel cell systems for vehicle applications: A review, Fuel Process. Technol., 179, 203-228 (2018).
S. Rodosik, J. P. Poirot-Crouvezier, and Y. Bultel, Simplified anode architecture for PEMFC systems based on alternative fuel feeding: Experimental characterization and optimization for automotive applications, Int. J. Hydrog. Energy, 45, 19720-19732 (2020).
Z. Huang, Q. Jian, and J. Zhao, Experimental study on improving the dynamic characteristics of open-cathode PEMFC stack with dead-end anode by condensation and circulation of hydrogen, Int. J. Hydrog. Energy, 45, 19858-19868 (2020).
J. C. Kurnia, A. P. Sasmito, and T. Shamim, Advances in proton exchange membrane fuel cell with dead-end anode operation: A review, Appl. Energy, 252, 113416 (2019)
D. F. M. Santos, R. B. Ferreira, D. S. Falcao, and A. Pinto, Evaluation of a fuel cell system designed for unmanned aerial vehicles, Energy, 253, 124099 (2022).
I. S. Han, J. Jeong, and H. K. Shin, PEM fuel-cell stack design for improved fuel utilization, Int. J. Hydrog. Energy, 38, 11996-12006 (2013).
Y. Lee, B. Kim, and Y. Kim, An experimental study on water transport through the membrane of a PEFC operating in the dead-end mode, Int. J. Hydrog. Energy, 34, 7768-7779 (2009).
Q. Meyer, S. Ashton, S. Torija, C. Gurney, P. Boillat, M. Cochet, E. Engebretsen, D. P. Fiegan, P. Adcock, P. R. Shearing, and D. J. L. Brett, Nitrogen blanketing and hydrogen starvation in dead-ended-anode polymer electrolyte fuel cells revealed by hydro-electro-thermal analysis, Electrochim. Acta, 203, 198-205 (2016).
B. Chen, Y. Cai, J. Shen, Z. Tu, and S. H. Chan, Performance degradation of a proton exchange membrane fuel cell with dead-ended cathode and anode, Appl. Thermal Eng., 132, 80-86 (2018).
Y. Yang, X. Zhang, L. Guo, and H. Liu, Overall and local effects of operating conditions in PEM fuel cells with dead-ended anode, Int. J. Hydrog. Energy, 42, 4690-4698 (2017).
S. Abbou, J. Dillet, D. Spernjak, R. Mukundan, R. L. Borup, G. Maranzana, and O. Lottin, High potential excursions during PEM fuel cell operation with dead-ended anode, J. Electrochem. Soc., 162 (10), F1212-F1220 (2015).
T. Matsuura, J. Chen, J. B. Siegel, and A. G. Stefanopoulou, Degradation phenomena in PEM fuel cell with dead-ended anode, Int. J. Hydrog. Energy, 38, 11346-11356 (2013).
J. Yu, Z. Jiang, M. Hou, D. Liang, Y. Xiao, M. Dou, Z. Shao, and B. Yi, Analysis of the behavior and degradation in proton exchange membrane fuel cells with a dead-ended anode, J. Power Sources, 246, 90-94 (2014).
S. Abbou, J. Dillet, G. Maranzana, S. Didierjean, and O. Lottin, Local potential evolutions during proton exchange membrane fuel cell operation with dead-ended anode - Part I: Impact of water diffusion and nitrogen crossover, J. Power Sources, 340, 337-346 (2017).
Y. Yang, X. Zhang, L. Guo, and H. Liu, Local degradation in proton exchange membrane fuel cells with dead-ended anode, J. Power Sources, 477, 229021 (2020).
J. Chen, J. B. Siegel, and A. G. Stefanopoulou, Optimization of purge cycle for dead-ended anode fuel cell operation, Int. J. Hydrog. Energy, 38, 5092-5105 (2013).
Z. Liu, J. Chen, H. Liu, C. Yan, Y. Hou, Q. He, J. Zhang, and D. Hissel, Anode purge management for hydrogen utilization and stack durability improvement of PEM fuel cell systems, Appl. Energy, 275, 115110 (2020)
B. Chen, Z. Tu, and S. H. Chan, Performance degradation and recovery characteristics during gas purging in a proton exchange membrane fuel cell with a dead-ended anode, Appl. Therm. Eng., 129, 968-978 (2018).
Y. F. Lin and Y. S. Chen, Experimental study on the optimal purge duration of a proton exchange membrane fuel cell with a dead-ended anode, J. Power Sources, 340, 176-182 (2017).
M. Steinberger, J. Geiling, R. Oechsner, and L. Freya, Anode recirculation and purge strategies for PEM fuel cell operation with diluted hydrogen feed gas, Appl. Energy, 232, 113416 (2018).
J. Shen, Z. Tu, and S. H. Chan, Effect of gas purging on the performance of a proton exchange membrane fuel cell with dead-ended anode and cathode, Int. J. Energy Res., 45, 14813-14823 (2021).
R. Omrani, S. S. Mohammadi, Y. Mafinejad, B. Paul, R. Islam, and B. Shabani, PEMFC purging at low operating temperatures: An experimental approach, Int. J. Energy Res., 43, 7496-7507 (2019).
J. Zhao, Q. Jian, Z. Huang, L. Luo, and B. Huang, Experimental study on water management improvement of proton exchange membrane fuel cells with dead-ended anode by periodically supplying fuel from anode outlet, J. Power Sources, 435, 226775 (2019).
Y. Wu, J. I. S. Cho, T. P. Neville, Q. Meyer, R. Ziesche, P. Boillat, M. Cochet, P. R. Shearing, and D. J. L. Brett, Effect of serpentine flow-field design on the water management of polymer electrolyte fuel cells: An in-operando neutron radiography study, J. Power Sources, 399, 254-263 (2018).
A. Soopee, A. P. Sasmito, and T. Shamim, Water droplet dynamics in a dead-end anode proton exchange membrane fuel cell, App. Energy, 233-234, 300-311 (2019).
J. Zhao, Q. Jian, and Z. Huang, Visualization study on enhancing water transport of proton exchange membrane fuel cells with a dead-ended anode by generating fluctuating flow at anode compartment, Energy Convers. Manag., 206, 112477 (2020).
M. E. Kim and Y. J. Sohn, Different flow fields, operation modes and designs for proton exchange membrane fuel cells with dead-ended anode, Int. J. Hydrog. Energy, 43, 1769-1780 (2018).
M. E. Kim and Y. J. Sohn, Study on polymer electrolyte fuel cells with nonhumidification using metal foam in dead-ended operation, Energies, 13, 1238 (2020).
B. Chen, Q. Liu, C. Zhang, Y. Liu, J. Shen, and Z. Tu, Numerical study on water transfer characteristics under joint effect of placement orientation and flow channel size for PEMFC with dead-ended anode, Energy, 254, 1234365 (2022).
Y. Zhang, Y. Tao, and J. Shao, Application of porous materials for the flow field in polymer electrolyte membrane fuel cells, J. Power Sources, 492, 229664 (2021).
J. Kim and J. Kim, Metal foam flow field effect on PEMFC performance, Appl. Chem. Eng., 32, 442-448 (2021).
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