Fuel Cell Modeling And Simulation (Renewable Energy)

Ahmed, Shadman Shahriare; Uddin, Md. Mezbah; Rifat, Sunviraj Islam

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dc.contributor.author	Ahmed, Shadman Shahriare
dc.contributor.author	Uddin, Md. Mezbah
dc.contributor.author	Rifat, Sunviraj Islam
dc.date.accessioned	2021-09-07T04:56:59Z
dc.date.available	2021-09-07T04:56:59Z
dc.date.issued	2013-11-15
dc.identifier.citation	[1] K. Sedghisigarchi and A. Feliachi, “Dynamic and transient analysis of power distribution systems with fuel cells—Part I: Fuel cell dynamic model,” IEEE Trans. Energy Convers., vol. 19, no. 2, pp. 423–428, Jun. 2004 [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] W. Du, H.F. Wang, X.F. Zhang, L.Y. Xiao, “Effect of grid-connected solid oxide fuel cell power generation on power systems small-signal stability”, IET Renewable Power Generation, doi: 10.1049/iet-rpg.2010.0024. [6], “Response of a solid oxide fuel cell to load change,”J. Power Sources, vol. 57, pp. 105–109, 1995. [7] 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. [8], “An explicit dynamic model for direct reforming carbonate fuel cell stack,” IEEE Trans. Energy Conversion, vol. 16, pp. 289–295, Sept.2001. [9] 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. [10] K. Schoder, A. Hasanovic, and A. Feliachi, “Load-Flow and dynamic model of UPFC within the power system tool box,” in Proc. MidwestSymp. Circuits Syst., Lansing, MI, Aug. 2000. [11] W. He, Dynamic Simulations of Molten-Carbonate Fuel-Cell Systems, the Netherlands: Delft Univ. Press, Dec. 2000. [12] 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.	en_US
dc.identifier.uri	http://hdl.handle.net/123456789/844
dc.description	Supervised by Mr. Ashik Ahmed Assistant Professor, Department of Electrical and Electronic Engineering (EEE)	en_US
dc.description.abstract	This paper presents a linearized dynamic model of a Solid Oxide Fuel Cell (SOFC) and its performance test under DC operation conditions. The model based on electrochemical, Nernst voltage equations and all voltage losses. The output voltage response of a stand-alone fuel-cell plant to a step load change, a fuel flow step change, and fast load variations are simulated to illustrate the dynamic behavior of SOFC for fast and slow perturbations. However, the partial pressure of the species (fuel, air, and water) in the distributed model is assumed to vary through the length of the fuel cell. After developing a linearized model, we check the stability of our system. SOFC model is developed on MATLAB environment. The performance of this model is compared with a detailed distributed model and experimental results. A method for interfacing the proposed fuel-cell models to a power system stability package is developed	en_US
dc.language.iso	en	en_US
dc.publisher	Department of Electrical and Electronic Engineering, Islamic University of Technology (IUT), Board Bazar, Gazipur-1704, Bangladesh	en_US
dc.title	Fuel Cell Modeling And Simulation (Renewable Energy)	en_US
dc.type	Thesis	en_US