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Analysis of CO2 transmission in a micro direct methanol fuel cell. (2015). Shen, Hongyuan ; Li, Zipeng ; Yuan, Zhenyu ; Sun, Yuge ; Ye, Ning ; Yang, Jie.
In: Energy.
RePEc:eee:energy:v:83:y:2015:i:c:p:496-502.

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Cites: 14

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Cocites: 37

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Citations received by this document

  1. Bubble-derived contour regeneration of flow channel by in situ tracking for direct methanol fuel cells. (2023). Yuan, Wei ; Bai, Yafeng ; Zhang, Baotong ; Zhou, Feikun ; Ke, Yuzhi ; Tang, Yong ; Wan, Zhenping ; Ding, Xinrui ; Su, Xiaoqing ; Liu, Ziang.
    In: Energy.
    RePEc:eee:energy:v:264:y:2023:i:c:s0360544222030535.

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  2. Dynamic relationship between the CO2 gas bubble behavior and the pressure drop characteristics in the anode flow field of an active liquid-feed direct methanol fuel cell. (2017). Tang, Kairui ; Pan, Baoyou ; Wang, Aoyu ; Yuan, Wei ; Ye, Guangzhao ; Chen, Haimu .
    In: Applied Energy.
    RePEc:eee:appene:v:188:y:2017:i:c:p:431-443.

    Full description at Econpapers || Download paper

  3. Visualization of two-phase flow and temperature characteristics of an active liquid-feed direct methanol fuel cell with diverse flow fields. (2016). Yuan, Wei ; Xia, Hongrong ; Tang, Yong ; Yan, Zhiguo ; Wang, Aoyu .
    In: Applied Energy.
    RePEc:eee:appene:v:179:y:2016:i:c:p:85-98.

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References

References cited by this document

  1. Achmad, F. ; Kamarudin, S.K. ; Daud, W.R.W. Passive direct methanol fuel cells for portable electronic devices. 2011 Appl Energy. 88 1681-1689

  2. Bruno Silva, Valter ; Rouboa, Abel In situ activation procedures applied to a DMFC: analysis and optimization study. 2012 Fuel. 93 677-683
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  3. Carton, J.G. ; Lawlor, V. ; G Olabi, A. ; Hochenauer, C. ; Zauner, G. Water droplet accumulation and motion in PEM (proton exchange membrane) fuel cell mini-channels. 2012 Energy. 39 63-73

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  5. Fei, K. ; Hong, C.W. All-angle removal of CO2 bubbles from the anode microchannels of a micro fuel cell by lattice-Boltzmann simulation. 2007 Microfluid Nanofluid. 3 77-88
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  6. Liang, J.S. ; Liu, C. Situ visual investigation of CO2 bubbles clogging phenomena in DMFC anode micro flow field. 2006 En : Proceedings of the 1st IEEE International Conference on Nano/Micro Engineered and Molecular Systems. :
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  7. Liao, Q. ; Zhu, X. Visualization study on the dynamics of CO2 bubbles in anode channels and performance of a DMFC. 2007 J Power Sources. 171 644-651
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  8. Mert, S.O. ; Ozcelik, Z. Multi-objective optimization of a direct methanol fuel cell system using a genetic-based algorithm. 2013 Int J Energy Res. 37 1256-1264
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  9. Na, Y.S. ; Kwon, J.M. ; Kim, H. Characteristics of a direct methanol fuel cell system with the time shared fuel supplying approach. 2013 Energy. 50 406-411
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  10. Na, Y.S. ; Kwon, J.M. ; Kim, H. ; Cho, H.J. Inseob song. Characteristics of a direct methanol fuel cell system with the time shared fuel supplying approach. 2013 Energy. 50 406-411

  11. Scott, K. ; Pilditch, S. ; Mamlouk, M. A model of a high-temperature direct methanol fuel cell. 2013 J Fuel Cell Sci Technol. 10 -
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  12. Tafaoli-Masoule, M. ; Bahrami, A. ; Elsayed, E.M. Optimum design parameters and operating condition for maximum power of a direct methanol fuel cell using analytical model and genetic algorithm. 2014 Energy. 70 643-652

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  14. Yang, H. ; Zhao, T.S. ; Ye, Q. In situ visualization study of CO2 gas bubble behavior in DMFC anode flow fields. 2005 J Power Sources. 139 79-90
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Cocites

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  2. A Double-Bridge Channel Shape of a Membraneless Microfluidic Fuel Cell. (2021). Kim, Kwang-Yong ; Tanveer, Muhammad ; Oh, Ji-Hyun.
    In: Energies.
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  3. The progress of fuel cell for malaysian residential consumption: Energy status and prospects to introduction as a renewable power generation system. (2021). Abu, Saiful Hasmady ; Abd, Khairul Anuar ; Kamarudin, Siti Kartom ; Zakaria, Zulfirdaus.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:144:y:2021:i:c:s1364032121002768.

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  4. Study on Polymer Electrolyte Fuel Cells with Nonhumidification Using Metal Foam in Dead-Ended Operation. (2020). Sohn, Young-Jun ; Kim, Myo-Eun.
    In: Energies.
    RePEc:gam:jeners:v:13:y:2020:i:5:p:1238-:d:329637.

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  5. A Portable Direct Methanol Fuel Cell Power Station for Long-Term Internet of Things Applications. (2020). Yeh, Tse-Liang ; Jiang, Shyh-Biau ; Chou, Chung-Jen ; Liu, Ching-Jung ; Kang, Ku-Yen ; Tsai, Li-Duan.
    In: Energies.
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  6. Modeling of high-efficient direct methanol fuel cells with order-structured catalyst layer. (2019). Liang, Jiarong ; Jiang, Jinghui ; Yang, Weiwei .
    In: Applied Energy.
    RePEc:eee:appene:v:252:y:2019:i:c:60.

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  7. A novel CO2 gas removal design for a micro passive direct methanol fuel cell. (2018). Li, Yang ; Liu, Xiaowei ; Zhang, Yufeng ; Yuan, Weijian.
    In: Energy.
    RePEc:eee:energy:v:157:y:2018:i:c:p:599-607.

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  8. Modeling and optimization of Scaffold-like macroporous electrodes for highly efficient direct methanol fuel cells. (2018). Xia, Zhangxun ; Sun, Gongquan ; Wang, Suli ; Jing, Fenning.
    In: Applied Energy.
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  9. Optimization of methane bio-hydroxylation using waste activated sludge mixed culture of type I methanotrophs as biocatalyst. (2018). Alsayed, Ahmed ; Eldyasti, Ahmed ; Elsharkawy, Adham ; Khattab, Saif ; Fergala, Ahmed.
    In: Applied Energy.
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  10. Investigation of hot pressing parameters for manufacture of catalyst-coated membrane electrode (CCME) for polymer electrolyte membrane fuel cells by response surface method. (2017). Raoof, Jahan Bakhsh ; Roudbari, Mohsen Najafi ; Ojani, Reza .
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    RePEc:eee:energy:v:140:y:2017:i:p1:p:794-803.

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  11. Structural effects of expanded metal mesh used as a flow field for a passive direct methanol fuel cell. (2017). Huang, Shimin ; Yuan, Wei ; Wang, Aoyu ; Chen, YU ; Tang, Yong.
    In: Applied Energy.
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  12. Dynamic relationship between the CO2 gas bubble behavior and the pressure drop characteristics in the anode flow field of an active liquid-feed direct methanol fuel cell. (2017). Tang, Kairui ; Pan, Baoyou ; Wang, Aoyu ; Yuan, Wei ; Ye, Guangzhao ; Chen, Haimu .
    In: Applied Energy.
    RePEc:eee:appene:v:188:y:2017:i:c:p:431-443.

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  13. Bubbly flow mapping in the anode channel of a direct methanol fuel cell via PIV investigation. (2017). Borello, Domenico ; Santori, Simone Giovanni ; del Zotto, Luca ; Cedola, Luca ; Romano, Giovanni Paolo ; Calabriso, Andrea .
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    RePEc:eee:appene:v:185:y:2017:i:p2:p:1245-1255.

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  14. Direct conversion technologies of methane to methanol: An overview. (2016). Zakaria, Z ; Kamarudin, S K.
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    RePEc:eee:rensus:v:65:y:2016:i:c:p:250-261.

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  15. Performance tests of a double-passive μDMFC stack with parallel/dendrite flow field. (2016). Ho, Chin-Chu ; Hung, Ling-Ching ; Hsieh, Shou-Shing .
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  16. Investigation of NaOH concentration effect in injected fuel on the performance of passive direct methanol alkaline fuel cell with modified cation exchange membrane. (2016). Najmi, Ali Alipour ; Parnian, Mohammad Javad ; Rowshanzamir, Soosan.
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  20. Analysis of CO2 transmission in a micro direct methanol fuel cell. (2015). Shen, Hongyuan ; Li, Zipeng ; Yuan, Zhenyu ; Sun, Yuge ; Ye, Ning ; Yang, Jie.
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