Course Syllabus:
Review of classical thermodynamics; introductory electrochemistry; principles of chemical and electrochemical kinetics; transport phenomena in electrochemical system, Classical thermodynamic analyses of fuel cell systems; analyses of fuel cell kinetics; quantification of fuel cell performance, Conservation and rate equations; approximate analytical treatment of fuel cell systems; scope and limitations of one-dimensional analyses; introduction to computational fluid mechanics of fuel cell systems; measurement of fuel cell performance; lab visits; introduction to electrochemical impedance spectroscopy, Direct methanol fuel cell; microbial fuel cell; hydrogen generation and storage; limitations, recent advances and challenges in fuel cell research.
Course Contents (approximate number of lectures in brackets):
I. Fundamentals: Review of classical thermodynamics; introductory electrochemistry; principles of chemical and electrochemical kinetics; transport phenomena in electrochemical systems [14].
II. Analyses of fuel cells: Classical thermodynamic analyses of fuel cell systems; analyses of fuel cell kinetics; quantification of fuel cell performance [14].
III. Computational/experimental techniques: Conservation and rate equations; approximate analytical treatment of fuel cell systems; scope and limitations of one-dimensional analyses; introduction to computational fluid mechanics of fuel cell systems; measurement of fuel cell performance; lab visits; introduction to electrochemical impedance spectroscopy [10].
IV. Special topics: Direct methanol fuel cell; microbial fuel cell; hydrogen generation and storage; limitations, recent advances and challenges in fuel cell research [4].
References:
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Fuel Cell Systems Explained, J. Larminie and A. Dicks (John Wiley & Sons, 2003, USA)
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Fuel Cell Fundamentals, R. O’Hayre, S-W. Cha, W. Colella, F. B. Prinz (John Wiley and Sons, 2005, USA)
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Fuel Cell Engines, M. M. Mench (John Wiley and Sons, 2008, USA)
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Fuel Cells: From Fundamental to Applications, S. Srinivasan (Springer, 2006, USA)
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Principles of Fuel Cells, X. Li (CRC Press, 2005, USA)
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Fuel Cells: Principles and Applications, B. Viswanathan and M. A. Scibioh (Universities Press, 2006, India)
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PEM Fuel Cells: Theory and practice, F. Barbir (Elsevier Academic Press, 2005, USA)
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High-Temperature Solid Oxide Fuel Cells: Fundamental, Design and Applications, S. C. Singhal, K. Kendall (Elsevier Science, 2004, USA)
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Transport Phenomena in Fuel cells, Ed. B. Sunden and M. Faghri (WIT Press, 2005, UK) 10. Fundamentals of Electrochemistry, V. S. Bagotsky (John Wiley & Sons, 2006, USA)
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