Analytical Modelling of Fuel Cells
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TextPublisher: San Diego : Elsevier Science & Technology Books Aug. 2010ISBN: 9780444535603; 0444535608 DDC classification: 621.312429015118 LOC classification: TK2931Online resources: Full text available from eBook - Chemical Engineering 2010 [EBCCE10] eBook - Chemical Engineering 2010 [EBCCE10]Dissertation note: . Summary: Annotation In fuel cell research, the gap between fundamental electrochemical processes and the engineering of fuel cell systems is bridged by the physical modelling of fuel cells. This relatively new discipline aims to understand the basic transport and kinetic phenomena in a real cell and stack environment, paving the way for improved design and performance. The author brings his unique approach to the analytical modeling of fuel cells to this essential reference for energy technologists.Covers recent advances and analytical solutions to a range of problems faced by energy technologists, from catalyst layer performance to thermal stabilityProvides detailed graphs, charts and other tools (glossary, index) to maximize R&D output while minimizing costs and time spent on dead-end researchPresents Kulikovsky's signature approach (and the data to support it)-which uses "simplified" models based on idealized systems, basic geometries, and minimal assumptions-enabling qualitative understanding of the causes and effects of phenomena
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US-Pakistan Center for Advanced Studies in Energy (USPCAS-E) | US-Pakistan Center for Advanced Studies in Energy (USPCAS-E) | NFIC | 621.312429015118 KUL-A 2010 (Browse shelf) | Available | CAS-E0001411 | |||
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US-Pakistan Center for Advanced Studies in Energy (USPCAS-E) | US-Pakistan Center for Advanced Studies in Energy (USPCAS-E) | NFIC | 621.312429015118 KUL-A 2010 (Browse shelf) | C-2 | Available | CAS-E0001412 |
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Annotation In fuel cell research, the gap between fundamental electrochemical processes and the engineering of fuel cell systems is bridged by the physical modelling of fuel cells. This relatively new discipline aims to understand the basic transport and kinetic phenomena in a real cell and stack environment, paving the way for improved design and performance. The author brings his unique approach to the analytical modeling of fuel cells to this essential reference for energy technologists.Covers recent advances and analytical solutions to a range of problems faced by energy technologists, from catalyst layer performance to thermal stabilityProvides detailed graphs, charts and other tools (glossary, index) to maximize R&D output while minimizing costs and time spent on dead-end researchPresents Kulikovsky's signature approach (and the data to support it)-which uses "simplified" models based on idealized systems, basic geometries, and minimal assumptions-enabling qualitative understanding of the causes and effects of phenomena
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