View/Open - JUWEL - Forschungszentrum Jülich
View/Open - JUWEL - Forschungszentrum Jülich
View/Open - JUWEL - Forschungszentrum Jülich
Sie wollen auch ein ePaper? Erhöhen Sie die Reichweite Ihrer Titel.
YUMPU macht aus Druck-PDFs automatisch weboptimierte ePaper, die Google liebt.
182 12 Literaturverzeichnis<br />
[33] Yang, T., et al. „Design and Performance of a Residential PEMFC System“, in: Stolten,<br />
D., Emonts, B., Peters, R. „Proceedings of the international conference with exhibition,<br />
2 nd European PEFC Forum Lucerne 2003“, pp. 813-820<br />
[34] Produktinformation Firma Palcan Fuel Cells Ltd., 8658 Commerce Court Burnaby, B.C.<br />
Kanada, www.palcan.com<br />
[35] Rodatz, P., et al. „Operational aspects of a large PEFC stack under practical conditions“,<br />
Journal of Power Sources 128 (2004), pp. 208–217<br />
[36] Springer, T.E., Zawodzinski, T.A., Gottesfeld, S. „Polymer electrolyte fuel cell model“,<br />
Journal of The Electrochemical Society 138 (8) (1991), pp. 2334-2342<br />
[37] Bernardi, D.M., Verbrugge, M.W. „Mathematical model of a gas diffusion electrode<br />
bonded to polymer electrolyte“, American Institute of Chemical Engineers Journal 37 (8)<br />
(1991), pp. 1151-1163<br />
[38] Bernardi, D.M., Verbrugge, M.W. „A mathematical model of the solid-polymer-electrolyte<br />
fuel cell“, Journal of The Electrochemical Society 139 (9) (1992), pp. 2477-2491<br />
[39] Fuller, F.T., Newman, J. „Water and thermal management in solid-polymer-electrolyte<br />
fuel cells“, Journal of The Electrochemical Society 140 (5) (1993), pp. 1218-1225<br />
[40] Nguyen, T.V., White, R.E. „A water and heat management model for proton-exchangemembrane<br />
fuel cells“, Journal of The Electrochemical Society 140 (8) (1993), pp. 2178-<br />
2186<br />
[41] Yi, J.S., Nguyen, T.V. „An along-the-channel model for proton exchange membrane fuel<br />
cells“, Journal of The Electrochemical Society 145 (4) (1998), pp. 1149-1159<br />
[42] Dannenberg, K., Ekdunge, P., Lindbergh, G. „Mathematical model of the PEMFC“,<br />
Journal of Applied Electrochemistry 30 (12) (2000), pp. 1377-1387<br />
[43] You, L., Liu, H. „A two-phase flow and transport model for the cathode of PEM fuel<br />
cells“, Int. Journal of Heat and Mass Transfer 45 (2002), pp. 2277-2287<br />
[44] Siegel, N.P., et al. „A two-dimensional computational model of a PEMFC with liquid<br />
water transport”, Journal of Power Sources 128 (2004), pp. 173-184<br />
[45] Chen, F., et al. „Convenient two-dimensional model for design of fuel channels for<br />
proton exchange membrane fuel cells”, Journal of Power Sources 128 (2004), pp. 125-<br />
134<br />
[46] Dutta, S., Shimpalee, S., Van Zee, J.W. „Three-dimensional numerical simulation of<br />
straight channel PEM fuel cells“, Journal of Applied Electrochemistry 30 (2000), pp. 135-<br />
146<br />
[47] Shimpalee, S., Dutta, S. „Numerical prediction of temperature distribution in PEM fuel<br />
cells“, Journal of The Electrochemical Society 150 (3) (2003), pp. A341-A348<br />
[48] Zhou, T., Liu, H.T. „A general three-dimensional model for proton exchange membrane<br />
fuel cells“, Int. Journal of Transport Phenomena 3 (2001), pp. 177-198<br />
[49] Haraldsson, K., Wipke, K. „Evaluating PEM fuel cell system models“, Journal of Power<br />
Sources 126 (2004), pp. 88-97<br />
[50] Kim, J., et al. „Modeling of proton exchange membrane fuel cell performance with an<br />
empirical equation”, Journal of The Electrochemical Society 142 (8) (1995), pp. 2670-<br />
2674