Article : [ART604]
Titre : K. SEDGHISIGARCHI, A. FELIACHI, Dynamic and Transient Analysis of Power Distribution Systems With Fuel Cells - Part I: Fuel-Cell Dynamic Model, IEEE TRANSACTIONS ON ENERGY CONVERSION, VOL. 19, NO. 2, JUNE 2004, pp. xxx.
Cité dans :[THESE133] B. BIDOGGIA, Etude et réalisation de nouveaux convertisseurs connectant plusieurs sources d'énergies renouvelables au réseau, These de doctorat, septembre 2005 - aout 2008.Auteur : Kourosh Sedghisigarchi
Source : IEEE TRANSACTIONS ON ENERGY CONVERSION
Volume : 19
Numéro : 2
Date : JUNE 2004
Pages : 423 - 428
Lien : private/01300710.pdf - 6 pages, 256 Ko.
REFERENCES : 14
[1] : R. Anahara, S. Yokokawa, and M. Sakurai, "Present status and future prospects for fuel cell power systems," Proc. IEEE, vol. 81, pp. 399-408,Mar. 1993.
[2] : J. Padullés, G.W. Ault, and J. R. McDonald, "An integrated SOFC plant dynamic model for power system simulation," J. Power Sources, pp. 495-500, 2000.
[3] : D. J. Hall and R. G. Colclaser, "Transient modeling and simulation of tubular solid oxide fuel cells," IEEE Trans. Energy Conversion, vol. 14, pp. 749-753, Sept. 1999.
[4] : E. Achenbach, "Three-dimensional and time-dependent simulation of a planar SOFC stack," J. Power Sources, vol. 49, 1994.
[5] : , "Response of a solid oxide fuel cell to load change, J. Power Sources, vol. 57, pp. 105-109, 1995.
[6] : M. D. Lukas, K. Y. Lee, and H. Ghezel-Ayagh, "Development of a stack simulation model for control study on direct reforming molten carbonate fuel cell power plant," IEEE Trans. Energy Conversion, vol. 14, pp. 1651-1657, Dec. 1999.
[7] : , "An explicit dynamic model for direct reforming carbonate fuel cell stack," IEEE Trans. Energy Conversion, vol. 16, pp. 289-295, Sept. 2001.
[8] : J. Padullés, G. W. Ault, and J. R. McDonald, "An approach to the dynamic modeling of fuel cell characteristics for distributed generation operation," J. Power Sources, 2000.
[9] : K. Schoder, A. Hasanovic, and A. Feliachi, "Load-Flow and dynamic model of UPFC within the power system tool box," in Proc. Midwest Symp. Circuits Syst., Lansing, MI, Aug. 2000.
[10] : L. J. Blomen and M. N. Mugerwa, Fuel Cell Systems. New York: Plenum, 1993, pp. 37-69.
[11] : Fuel Cell HandBook, 5th ed., EG&G Services Parsons Inc., U.S. Department of Energy, 2000.
[12] : W. He, Dynamic Simulations of Molten-Carbonate Fuel-Cell Systems, The Netherlands: Delft Univ. Press, Dec. 2000.
[13] : P. T. Krein, P. Enjati, and J.-S. Lai, Advanced Fuel Cell Power Conditioning Systems, Fuel-Cell Short Course. Morgantown, WV: NTU, Mar. 26, 2002.
[14] : K. Schoder, A. Hasanovic, A. Feliachi, and A. Hasanovic, "PAT: A power analysis toolbox for MATLAB/simulink," IEEE Trans. Power Syst., vol. 18, pp. 42-47, Feb. 2003.
Mise à jour le lundi 10 avril 2023 à 18 h 47 - E-mail : thierry.lequeu@gmail.com
Cette page a été produite par le programme TXT2HTM.EXE, version 10.7.3 du 27 décembre 2018.
Copyright 2023 : |
Les informations contenues dans cette page sont à usage strict de Thierry LEQUEU et ne doivent être utilisées ou copiées par un tiers.
Powered by www.google.fr, www.e-kart.fr, l'atelier d'Aurélie - Coiffure mixte et barbier, La Boutique Kit Elec Shop and www.lequeu.fr.