메뉴 건너뛰기
Applied Energy
Volumn 112, Issue , 2013, Pages 1131-1137
Enabling high-concentrated fuel operation of fuel cells with microfluidic principles: A feasibility study
Author keywords

Concentrated fuel; Fuel crossover; Microfluidic fuel cell; Nonlinear diffusion
Indexed keywords

CONCENTRATION (PROCESS); ELECTROLYTES; GAS FUEL PURIFICATION; MAXWELL EQUATIONS; MICROELECTRONICS; MICROFLUIDICS; NONLINEAR EQUATIONS;
EID: 84884209900     PISSN: 03062619     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.apenergy.2013.01.077     Document Type: Article
Times cited : (43)
References (31)
  • 1
    • 84859426910 scopus 로고    scopus 로고
    • Effects of anisotropic permeability and electrical conductivity of gas diffusion layers on the performance of proton exchange membrane fuel cells
    • Ismail M.S., Hughes K.J., Ingham D.B., Ma L., Pourkashanian M. Effects of anisotropic permeability and electrical conductivity of gas diffusion layers on the performance of proton exchange membrane fuel cells. Appl Energy 2012, 95:50-63.
    • (2012) Appl Energy , vol.95 , pp. 50-63
    • Ismail, M.S.1    Hughes, K.J.2    Ingham, D.B.3    Ma, L.4    Pourkashanian, M.5
  • 2
    • 73149119568 scopus 로고    scopus 로고
    • Increasing the efficiency of a portable PEM fuel cell by altering the cathode channel geometry: a numerical and experimental study
    • Henriques T., César B., Branco P.J.C. Increasing the efficiency of a portable PEM fuel cell by altering the cathode channel geometry: a numerical and experimental study. Appl Energy 2010, 87:1400-1409.
    • (2010) Appl Energy , vol.87 , pp. 1400-1409
    • Henriques, T.1    César, B.2    Branco, P.J.C.3
  • 3
    • 78650607410 scopus 로고    scopus 로고
    • A review of polymer electrolyte membrane fuel cells: technology, applications, and needs on fundamental research
    • Wang Y., Chen K.S., Mishler J., Cho S.C., Adroher X.C. A review of polymer electrolyte membrane fuel cells: technology, applications, and needs on fundamental research. Appl Energy 2011, 88:981-1007.
    • (2011) Appl Energy , vol.88 , pp. 981-1007
    • Wang, Y.1    Chen, K.S.2    Mishler, J.3    Cho, S.C.4    Adroher, X.C.5
  • 4
    • 75749095097 scopus 로고    scopus 로고
    • Towards operating direct methanol fuel cells with highly concentrated fuel
    • Zhao T.S., Yang W.W., Chen R., Wu Q.X. Towards operating direct methanol fuel cells with highly concentrated fuel. J Power Sources 2010, 195:3451-3462.
    • (2010) J Power Sources , vol.195 , pp. 3451-3462
    • Zhao, T.S.1    Yang, W.W.2    Chen, R.3    Wu, Q.X.4
  • 5
    • 0037478696 scopus 로고    scopus 로고
    • A Pd-impregnated nanocomposite Nafion membrane for use in high-concentration methanol fuel in DMFC
    • Kim Y.M., Park K.W., Choi J.H., Park I.S., Sung Y.E. A Pd-impregnated nanocomposite Nafion membrane for use in high-concentration methanol fuel in DMFC. Electrochem Commun 2003, 5:571-574.
    • (2003) Electrochem Commun , vol.5 , pp. 571-574
    • Kim, Y.M.1    Park, K.W.2    Choi, J.H.3    Park, I.S.4    Sung, Y.E.5
  • 6
    • 0347355055 scopus 로고    scopus 로고
    • Development and characterization of a silicon-based micro direct methanol fuel cell
    • Lu G.Q., Wang C.Y., Yen T.J., Zhang X. Development and characterization of a silicon-based micro direct methanol fuel cell. Electrochim Acta 2004, 49:821-828.
    • (2004) Electrochim Acta , vol.49 , pp. 821-828
    • Lu, G.Q.1    Wang, C.Y.2    Yen, T.J.3    Zhang, X.4
  • 7
    • 33646870340 scopus 로고    scopus 로고
    • Hydrogels in methanol fuel cartridge used as a diffusion-rate-controlling agent suppressing the methanol crossover in passively operated flat-pack type DMFCs
    • Kim W.J., Choi H.G., Lee Y.K., Nam J.D., Cho S.M., Chung C.H. Hydrogels in methanol fuel cartridge used as a diffusion-rate-controlling agent suppressing the methanol crossover in passively operated flat-pack type DMFCs. J Power Sources 2006, 157:193-195.
    • (2006) J Power Sources , vol.157 , pp. 193-195
    • Kim, W.J.1    Choi, H.G.2    Lee, Y.K.3    Nam, J.D.4    Cho, S.M.5    Chung, C.H.6
  • 8
    • 33749999992 scopus 로고    scopus 로고
    • DMFC employing a porous plate for an efficient operation at high methanol concentrations
    • Abdelkareem M.A., Nakagawa N. DMFC employing a porous plate for an efficient operation at high methanol concentrations. J Power Sources 2006, 162:114-123.
    • (2006) J Power Sources , vol.162 , pp. 114-123
    • Abdelkareem, M.A.1    Nakagawa, N.2
  • 9
    • 57249108198 scopus 로고    scopus 로고
    • Reaction analysis of a direct methanol fuel cell employing a porous carbon plate operated at high methanol concentrations
    • Nakagawa N., Sekimoto K., Masdar M.S., Noda R. Reaction analysis of a direct methanol fuel cell employing a porous carbon plate operated at high methanol concentrations. J Power Sources 2009, 186:45-51.
    • (2009) J Power Sources , vol.186 , pp. 45-51
    • Nakagawa, N.1    Sekimoto, K.2    Masdar, M.S.3    Noda, R.4
  • 10
    • 78049446104 scopus 로고    scopus 로고
    • An air-breathing microfluidic formic acid fuel cell with a porous planar anode: experimental and numerical investigations
    • Shaegh S.A.M., Nguyen N.T., Chan S.H. An air-breathing microfluidic formic acid fuel cell with a porous planar anode: experimental and numerical investigations. J Micromech Microeng 2010, 20:105008-105020.
    • (2010) J Micromech Microeng , vol.20 , pp. 105008-105020
    • Shaegh, S.A.M.1    Nguyen, N.T.2    Chan, S.H.3
  • 11
    • 33846289179 scopus 로고    scopus 로고
    • Analysis of membraneless formic acid microfuel cell using a planar microchannel
    • Chen F., Chang M.H., Lin M.K. Analysis of membraneless formic acid microfuel cell using a planar microchannel. Electrochim Acta 2007, 52:2506-2514.
    • (2007) Electrochim Acta , vol.52 , pp. 2506-2514
    • Chen, F.1    Chang, M.H.2    Lin, M.K.3
  • 12
    • 24644490760 scopus 로고    scopus 로고
    • Membraneless laminar flow-based micro fuel cells operating in alkaline, acidic, and acidic/alkaline media
    • Choban E.R., Spendelow J.S., Gancs L., Wieckowski A., Kenis P.J.A. Membraneless laminar flow-based micro fuel cells operating in alkaline, acidic, and acidic/alkaline media. Electrochim Acta 2005, 50:5390-5398.
    • (2005) Electrochim Acta , vol.50 , pp. 5390-5398
    • Choban, E.R.1    Spendelow, J.S.2    Gancs, L.3    Wieckowski, A.4    Kenis, P.J.A.5
  • 14
  • 16
    • 80052467476 scopus 로고    scopus 로고
    • Chaotic flow-based fuel cell built on counter-flow microfluidic network: predicting the over-limiting current behavior
    • Xuan J., Leung D.Y.C., Leung M.K.H., Wang H.Z., Ni M. Chaotic flow-based fuel cell built on counter-flow microfluidic network: predicting the over-limiting current behavior. J Power Sources 2011, 196:9391-9397.
    • (2011) J Power Sources , vol.196 , pp. 9391-9397
    • Xuan, J.1    Leung, D.Y.C.2    Leung, M.K.H.3    Wang, H.Z.4    Ni, M.5
  • 17
    • 80055050315 scopus 로고    scopus 로고
    • Laminar flow-based fuel cell working under critical conditions: the effect of parasitic current
    • Xuan J., Leung M.K.H., Leung D.Y.C., Wang H.Z. Laminar flow-based fuel cell working under critical conditions: the effect of parasitic current. Appl Energy 2012, 90:87-93.
    • (2012) Appl Energy , vol.90 , pp. 87-93
    • Xuan, J.1    Leung, M.K.H.2    Leung, D.Y.C.3    Wang, H.Z.4
  • 18
    • 80055060819 scopus 로고    scopus 로고
    • Towards orientation-independent performance of membraneless microfluidic fuel cell: understanding the gravity effects
    • Xuan J., Leung M.K.H., Leung D.Y.C., Wang H.Z. Towards orientation-independent performance of membraneless microfluidic fuel cell: understanding the gravity effects. Appl Energy 2012, 90:80-86.
    • (2012) Appl Energy , vol.90 , pp. 80-86
    • Xuan, J.1    Leung, M.K.H.2    Leung, D.Y.C.3    Wang, H.Z.4
  • 19
    • 79958849348 scopus 로고    scopus 로고
    • A computational study of bifunctional oxygen electrode in air-breathing reversible microfluidic fuel cells
    • Xuan J., Leung D.Y.C., Leung M.K.H., Ni M., Wang H. A computational study of bifunctional oxygen electrode in air-breathing reversible microfluidic fuel cells. Int J Hydrogen Energy 2011, 36:9231-9241.
    • (2011) Int J Hydrogen Energy , vol.36 , pp. 9231-9241
    • Xuan, J.1    Leung, D.Y.C.2    Leung, M.K.H.3    Ni, M.4    Wang, H.5
  • 20
    • 84884202706 scopus 로고
    • GB/T 2093-93. Formic acid for industrial use
    • GB/T 2093-93. Formic acid for industrial use; 1993.
    • (1993)
  • 21
    • 84877758043 scopus 로고
    • Viscosity of formic acid-water mixture system
    • (Chinese)
    • Cheng R.S., Hu H.Z. Viscosity of formic acid-water mixture system. Acta Chim Sinica 1964, 30:584-586. (Chinese).
    • (1964) Acta Chim Sinica , vol.30 , pp. 584-586
    • Cheng, R.S.1    Hu, H.Z.2
  • 22
    • 84884205733 scopus 로고    scopus 로고
    • Comsol Users' guide.
    • Comsol Users' guide.
  • 23
    • 80052385502 scopus 로고    scopus 로고
    • Predictive darken equation for Maxwell-Stefan diffusivities in multicomponent mixtures
    • Liu X., Vlugt T.J.H., Bardow A. Predictive darken equation for Maxwell-Stefan diffusivities in multicomponent mixtures. Ind Eng Chem Res 2011, 50:10350-10358.
    • (2011) Ind Eng Chem Res , vol.50 , pp. 10350-10358
    • Liu, X.1    Vlugt, T.J.H.2    Bardow, A.3
  • 25
    • 33744974026 scopus 로고    scopus 로고
    • Characterization of a high performing passive direct formic acid fuel cell
    • Ha S., Dunbar Z., Masel R.I. Characterization of a high performing passive direct formic acid fuel cell. J Power Sources 2006, 158:129-136.
    • (2006) J Power Sources , vol.158 , pp. 129-136
    • Ha, S.1    Dunbar, Z.2    Masel, R.I.3
  • 26
    • 77956454499 scopus 로고    scopus 로고
    • Numerical study of the effect of the channel and electrode geometry on the performance of microfluidic fuel cells
    • Khabbazi A.E., Richards A.J., Hoorfar M. Numerical study of the effect of the channel and electrode geometry on the performance of microfluidic fuel cells. J Power Sources 2010, 195:8141-8151.
    • (2010) J Power Sources , vol.195 , pp. 8141-8151
    • Khabbazi, A.E.1    Richards, A.J.2    Hoorfar, M.3
  • 27
    • 2342630612 scopus 로고    scopus 로고
    • Nonlinear diffusive mixing in microchannels: theory and experiments
    • Wu Z., Nguyen N.-T., Huang X. Nonlinear diffusive mixing in microchannels: theory and experiments. J Micromech Microeng 2004, 14:604-611.
    • (2004) J Micromech Microeng , vol.14 , pp. 604-611
    • Wu, Z.1    Nguyen, N.-T.2    Huang, X.3
  • 28
    • 0035067046 scopus 로고    scopus 로고
    • Optical measurement of transverse molecular diffusion in a microchannel
    • Kamholz A.E., Schilling E.A., Yager P. Optical measurement of transverse molecular diffusion in a microchannel. Biophys J 2001, 80:1967-1972.
    • (2001) Biophys J , vol.80 , pp. 1967-1972
    • Kamholz, A.E.1    Schilling, E.A.2    Yager, P.3
  • 29
    • 34548029539 scopus 로고    scopus 로고
    • Study of miscible and immiscible flows in a microchannel using magnetic resonance imaging
    • Akpa B.S., Matthews S.M., Sederman A.J., Yunus K., Fisher A.C., Johns M.L., et al. Study of miscible and immiscible flows in a microchannel using magnetic resonance imaging. Anal Chem 2007, 79:6128-6134.
    • (2007) Anal Chem , vol.79 , pp. 6128-6134
    • Akpa, B.S.1    Matthews, S.M.2    Sederman, A.J.3    Yunus, K.4    Fisher, A.C.5    Johns, M.L.6
  • 30
    • 33748061293 scopus 로고    scopus 로고
    • Analysis of membraneless fuel cell using laminar flow in a Y-shaped microchannel
    • Chang M.H., Chen F., Fang N.S. Analysis of membraneless fuel cell using laminar flow in a Y-shaped microchannel. J Power Sources 2006, 159:810-816.
    • (2006) J Power Sources , vol.159 , pp. 810-816
    • Chang, M.H.1    Chen, F.2    Fang, N.S.3
  • 31
    • 34247603942 scopus 로고    scopus 로고
    • Planar and three-dimensional microfluidic fuel cell architectures based on graphite rod electrodes
    • Kjeang E., McKechnie J., Sinton D., Djilali N. Planar and three-dimensional microfluidic fuel cell architectures based on graphite rod electrodes. J Power Sources 2007, 168:379-390.
    • (2007) J Power Sources , vol.168 , pp. 379-390
    • Kjeang, E.1    McKechnie, J.2    Sinton, D.3    Djilali, N.4

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.