论文信息 - Modeling for electrical characteristics of solid oxide fuel cell based on fractional calculus

Modeling for electrical characteristics of solid oxide fuel cell based on fractional calculus

It's vital for the research of electrochemical reaction in solid oxide fuel cell (SOFC) to establish accurate dynamic model of its electrical characteristics. The inherent potential polarization of SOFC is analyzed, and integer order dynamic model is established by equivalent circuit. Experimental data is studied by electrochemical impedance spectroscopy (EIS), and its novel fractional order dynamic model is proposed exploringly based on the capacitor theory. Then, the parameters of integer order and fractional order models are optimized by genetic algorithm. Finally, according to the comparison of integer order dynamic model, fractional order dynamic model and impedance spectra of experimental data, the conclusion can be obtained that electric double- layer in electrode/electrolyte interface have non-integer order characteristics, and potential polarization of SOFC is more suitable to be characterized via fractional order dynamic model.

[1] Yang Wang,et al. A semi-empirical method for electrically modeling of fuel cell: Executed on a direct methanol fuel cell , 2008 .

[2] Nobuhide Kasagi,et al. Micro modeling of solid oxide fuel cell anode based on stochastic reconstruction , 2008 .

[3] D. Ding,et al. High performance electrolyte-coated anodes for low-temperature solid oxide fuel cells: Model and Experiments , 2008 .

[4] M. Usman Iftikhar,et al. Dynamic modeling of proton exchange membrane fuel cell using non-integer derivatives , 2006 .

[5] Alain Oustaloup,et al. Fractional system identification for lead acid battery state of charge estimation , 2006, Signal Process..

[6] P.N. Enjeti,et al. Development of an equivalent circuit model of a fuel cell to evaluate the effects of inverter ripple current , 2004, Nineteenth Annual IEEE Applied Power Electronics Conference and Exposition, 2004. APEC '04..

[7] Guang-Yi Cao,et al. A Novel Genetic Algorithm and its Application in Fuzzy Variable Structure Control of Fuel Cell , 2001, J. Intell. Robotic Syst..

[8] S. Chan,et al. Anode Micro Model of Solid Oxide Fuel Cell , 2001 .

[9] S. Chan,et al. A complete polarization model of a solid oxide fuel cell and its sensitivity to the change of cell component thickness , 2001 .

[10] James Larminie,et al. Fuel Cell Systems Explained , 2000 .

[11] S. Westerlund,et al. Capacitor theory , 1994 .