Page 172 - Introduction to Transfer Phenomena in PEM Fuel Cells
P. 172

Bibliography     161
                           [BOU 03] BOUSQUET S., Étude d’un système autonome de  production  d’énergie
                             couplant un champ photovoltaïque, un électrolyseur et une pile à combustible:
                             réalisation  d’un  banc  d’essai et modélisation, PhD thesis, École des mines
                             de Paris, available at: http://tel.archives-ouvertes.fr/docs/00/50/00/25/PDF/these_
                             SBusquet.pdf, 2003.
                           [BOU 07] BOUDELLAL M.,  La pile  à combustible:  structure, fonctionnement,
                             applications, Dunod, Paris, 2007.
                           [BRA 06] BRADEAN R., HAAS H., EGGEN K. et al., “Stack models and designs for
                             improving fuel cell startup  from freezing temperatures”,  ECS Transactions,
                             vol. 3, no. 1, pp. 1159–1168, 2006.
                           [BRA 07] BRANDELL D., KARO J., LIIVAT A. et al., “Molecular dynamics studies of
                             the Nafion, Dow and Aciplex fuel cell polymer membrane systems”, Journal of
                             Molecular Modeling, vol. 13, no. 10, pp. 1039–1046, 2007.

                           [BRU 99] BRUCE  L., Conceptual  design and modeling  of a  fuel cell scooter for
                             urban Asia, Master’s thesis, Princeton University, 1999.
                           [BUR 06] BURNETT  D.J.,  GARCIA  A.R., THIELMANN  F., “Measuring moisture
                             sorption and diffusion kinetics on  proton exchange  membranes using a
                             gravimetric vapor sorption apparatus”,  Journal  of Power Sources, vol.  160,
                             pp. 426–430, 2006.
                           [CEA 18] http://www.cea.fr/Documents/Les%20technologies%20de%20l%E2%80%
                             99hydrog%C3%A8ne%20au%20CEA.pdf, accessed on May 31st, 2018.
                           [CHE 03] CHEN F.C., GAO Z., LOUTFY R.O. et al., “Analysis of optimal heat transfer
                             in a PEM fuel cell cooling plate”, Fuel Cells, vol. 3, pp. 181–188, 2003.

                           [CHE 05] CHEN R., ZHAO T.S., “Mathematical Modeling of a passive feed DMFC
                             with heat transfer effect”,  Journal of Power Sources, vol. 152,  pp. 122–130,
                             2005.
                           [CHO 03] CHOI P.,  DATTA  R., “Sorption in  proton-exchange membranes-an
                             explanation of schroeder’s paradox”,  Journal of Electrochemical Society,
                             vol. 150, no. 12, pp. E601–E607, 2003.
                           [CHO 05] CHOI P., JALANI N.H., DATTA R., “Thermodynamics and proton transport
                             in Nafion  II.  Proton  diffusion mechanisms and conductivity”,  Journal of the
                             Electrochemical Society, vol. 152, no. 3, pp. E123–E130, 2005.
   167   168   169   170   171   172   173   174   175   176   177