Fuel cell model for three-phase inverter

Younis, M.A.A. and Rahim, N.A. and Mekhilef, Saad (2006) Fuel cell model for three-phase inverter. In: 1st International Power and Energy Conference, PECon 2006, Putrajaya.

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Abstract

This paper presents a fuel cell model supplying three-phase dc/ac inverter. Simulink used as interactive tool to model the proposed fuel cell system. The fuel cell output voltage is proportional to the change of the air (oxidant) pressure, the hydrogen (fuel) pressure and the current withdrawn from the fuel cell. Three-phase dc/ac inverter used to supply the ac load. Symmetric Space Vector Pulse Width Modulation used to drive the three-phase inverter so that minimum harmonic distortion on the load side voltage and current. Simulation results provided to validate the design.

Item Type: Conference or Workshop Item (Paper)
Funders: UNSPECIFIED
Additional Information: Conference code: 72409 Cited By (since 1996): 2 Export Date: 16 November 2012 Source: Scopus Art. No.: 4154528 doi: 10.1109/PECON.2006.346684 Language of Original Document: English Correspondence Address: Younis, M. A. A.; Department of Electrical Engineering, University Tenaga Nassional (UNITEN)Malaysia References: Wakefield, E.H., (1998) History of the Electric Automobile: Hybrid Electric Vehicle's, , Warrendale, Pennsylvania: Society of Automotive Engineers, Inc; Gore, W.L., Advanced Power Assemblies for Polymer Electrolyte Fuel Cells: Portable Power Proceedings of PORTABLE FUEL CELLS (felix n. buechi, editor). European fuel cell forum, ch-5452 oberrohrdorf switzerland (june 1999), , & Associates; Cook, B., Introduction to fuel cells and hydrogen technology (2002) Engineering Science and Education Journal, 11 (6), pp. 205-216. , Dec, Pages; Mann, R.F., Amphlett, J.C., Hooper, M.A.I., Jensen, H.M., Peppley, B.A., Roberge, P.R., Development and application of a generalised steady-state electrochemical model for a PEM fuel cell (2000) Journal of Power Sources, 86, pp. 173-180; degrees of water flooding (2000) Journal of Power Sources, 86, pp. 181-196; Amphlett, J.C., Mann, R.F., Peppley, B.A., Roberge, P.R., Rodrigues, A., A model predicting transient responses of proton exchange membrane fuel cells (1996) Journal of Power Sources, 61, pp. 183-188; S. Gelfi, J. Pukrushpan, A.G. Dynamics and Control of Low and High Pressure Fuel Cells, Stefanopoulou, H. Peng, in IEEE, American Control Conference 2003Bakhshai, A.R. Joos, G. Jain, P.K., Hua Jin, Incorporating the overmodulation range in space vector pattern generators using a classification algorithm, Power Electronics, IEEE Transactions on 15, Issue 1, Jan. 2000 Page(s):83-91 Digital Object Identifier 10.1109/63.817366Keliang Zhou, Danwei Wang, Relationship between space-vector modulation and three-phase carrier-based PWM: a comprehensive analysis three-phase inverters, Industrial Electronics, IEEE Transactions on 49, Issue 1, Feb. 2002 Page(s): 186-196 Digital Object Identifier 10.1109/41.982262Kharrat, M.W., Loulou, M., Masmoudi, N., Kamoun, L., FPGA-based IC design for inverter with vector modulation technique, Microelectronics, 2001 (2001) ICM 2001 Proceedings. The 13th International Conference on 29-31, pp. 185-188. , Oct, Pages; Van der Broeck, H.W. Skudelny, H.C. and G.V. Stanke ,Analysis and realization of a pulsewidth modulator based on voltage space vectors, IEEE Trans. Ind. Appli., 1988, 24, pp. 142-150Zhang, R., Prasad, V.H., Boroyevich, D., Lee, F.C., Threedimensional space vector modulation for four-leg voltage-source converters (2002) IEEE Trans. Power Electron, 17, pp. 314-326; H.W. van der Broeck, H.-C. Skudelny, and G.V. Stanke, Analysis and realization of a pulsewidth modulator based on voltage space vectors, IEEE Transactions on Industry Applications, 24, pp. 142-150, 1988. Books:Larminie, J., Dicks, A., (2000) Fuel Cell Systems Explained, , West Sussex, England, John Wiley & Sons Inc; Andrzej, M., Trzynadlowski, introduction to modern power electronics, , John wiley & sons,inc, ISBN 0-471-15303-6 1998
Uncontrolled Keywords: Fuel cell model, Space vector pulse width modulation, Three-phase inverter, Cells, Direct energy conversion, Electric batteries, Electrochemistry, Fuel cells, Hydrogen, Modulation, Pressure, Pulse width modulation, Solid oxide fuel cells (SOFC), Distortion (deformation), Fuel cell modeling, Fuel cell system (FCS), Interactive tools, International (CO), output voltages, Side voltage, simulation results, SIMULINK (Software), Symmetric spaces, Three phase inverters, Fuels.
Subjects: T Technology > TA Engineering (General). Civil engineering (General)
T Technology > TK Electrical engineering. Electronics Nuclear engineering
Divisions: Faculty of Engineering
Depositing User: Mr Jenal S
Date Deposited: 18 Feb 2013 02:03
Last Modified: 25 Oct 2019 03:49
URI: http://eprints.um.edu.my/id/eprint/4892

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