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The reduced order model of a proton-conducting Solid Oxide Fuel Cell

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Solid Oxide Fuel Cells are regarded as a high-efficiency, low-environmental impact technology for power and heat generation. SOFCs based on proton-conducting electrolyte is one of the most attractive technology, mainly due to high efficiency of energy conversion and operation at intermediate range of temperatures. The main objective of this paper is an investigation a possibility to apply the reduced order model proposed by Milewski for modeling proton-conducting Solid Oxide Fuel Cells. The reliability of simulation results were verified with experimental data reported in literature. It was shown that reduced order model is valid not only for ion-conducting SOFCs but also for proton-coducting SOFCs.
Rocznik
Strony
122--127
Opis fizyczny
Bibliogr. 11 poz., rys., tab., wykr.
Twórcy
  • Institute of Heat Engineering, Warsaw University of Technology, 21/25 Nowowiejska Street, 00–665 Warsaw, Poland
autor
  • Institute of Heat Engineering, Warsaw University of Technology, 21/25 Nowowiejska Street, 00–665 Warsaw, Poland
Bibliografia
  • [1] J. Milewski, K. Świrski, M. Santarelli, P. Leone, Advanced Methods of Solid Oxide Fuel Cell Modeling, 1st Edition, Springer-Verlag London Ltd., 2011.
  • [2] Y. Patchravorachot, N. Brandon, W. Paengjuntek, S. Assabumrungrat, A. Arpomwichanop, Analysis of planar solid oxide fuel cells based on proton conducting electrolyte, Solid State Ionics 181 (2012) 1568–1576.
  • [3] M. Bavarion, M. Soroush, Mathematical modeling and steady-state analysis of a proton-conducting solid oxide fuel cell, Journal of Process Control 22 (2012) 1521–1530.
  • [4] W. Sun, Y. Wang, S. Fang, Z. Zhu, L. Yan, W. Liu, Evalution of bazr0.7y0.2 based proton-conducting solid oxide fuel cells fabricated by a one step co-firing process, Electrochemica Acta 56 (2011) 1147–1454.
  • [5] M. Ni, M. Leung, D. Leung, Mathematical modelling of proton-conducting solid oxide fuel cells and comparison with oxygen-ion conducting counterpart, Fuel Cells 7 (2007) 269–278.
  • [6] L. Bi, E. Fabbri, E. Traversa, Effect of anode functional layer on the performance of proton-conducting solid oxide fuel cells, Electrochemistry Communications 16 (2012) 37–40.
  • [7] M. Ni, Y. Leung, M. Leung, Thermodynamic analysis of amonia fed solid oxide fuel cells: Comparison between proton-conducting electrolyte and oxygen ion-conducting electrolyte, Journal of Power Sources 183 (2008) 682–686.
  • [8] A. Demin, P. Tsiakarar, Thermodynamic analysis of a hydrogen fed solid oxide fuel cell based on a proton conductor, International Journal of Hydrogen Energy 26 (2001) 1103–1108.
  • [9] S. Saxin, J. Irvine, Bridging the PEMFC-SOFC gap, development of a novel low-intermediate temperature solid proton conductor (2012).
  • [10] F. Lefebvre-Joud, G. Gauthier, J. Mougin, Current status of proton-conducting solid oxide fuel cells development, J Appl Electrochem 39 (2009) 535–543.
  • [11] R. Hariharan, T. Prasanna, P. Gopalan, Novel perovskite based proton conductor for solid oxide fuel cells, Scripta Materialia 66 (2012) 658–661
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0e99e612-b4bb-4a32-ab4d-97b0dc8ae712
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